Institute of Organic Chemistry, RWTH Aachen, Landoltweg 1, 52074 Aachen, Germany Department of Biological Chemistry and Molecular Pharmacology, Harvard Medical School, 240 Longwood Avenue, Boston, MA 02115, USA allyl alcohols arene asymmetric Friedel–Crafts reaction benzyl alcohols Friedel–Crafts alkylation green chemistry hydroalkylation hydroarylation Lewis-acid catalysis propargyl alcohols The development of efficient Friedel–Crafts alkylations of arenes and heteroarenes using only catalytic amounts of a Lewis acid has gained much attention over the last decade. The new catalytic approaches described in this review are favoured over classical Friedel–Crafts conditions as benzyl-, propargyl- and allyl alcohols, or styrenes, can be used instead of toxic benzyl halides. Additionally, only low catalyst loadings are needed to provide a wide range of products. Following a short introduction about the origin and classical definition of the Friedel–Crafts reaction, the review will describe the different environmentally benign substrates which can be applied today as an approach towards greener processes. Additionally, the first diastereoselective and enantioselective Friedel–Crafts-type alkylations will be highlighted.

In 1887 Charles Friedel and James Mason Crafts isolated amylbenzene after the treatment of amyl chloride with AlCl 3 in benzene ( ) . This was not only one of the first descriptions of a Lewis acid used in organic synthesis but also the first example of what was later to be called Friedel–Crafts alkylation (FC alkylation) after its inventors. Today Friedel–Crafts alkylations remain the method of choice for the alkylation of arenes and heteroarenes. Over the intervening years many other Lewis acids including BF 3 , BeCl 2 , TiCl 4 , SbCl 5 or SnCl 4 have been described as catalysts for the FC alkylation. Furthermore, strong Brønsted-acids including sulfuric acid, hydrofluoric acid or super acids such as HF•SbF 5 and HSO 3 F•SbF 5 have also been shown to accelerate this transformation. Despite the great importance of the Friedel–Crafts alkylation for organic synthesis it has major drawbacks since stoichiometric or super stoichiometric amounts of a Lewis acid or Brønsted acid and toxic alkyl halides have to be utilized leading to vast amounts of salt side products. With the need for more environmentally and economically benign processes, the development of FC reactions using only catalytic amounts of a metal or acid catalyst would be highly desirable. In addition, the substitution of the alkyl chlorides by other, less toxic, alkylating reagents such as alcohols would be a major improvement as water would be the only side product. Beyond this, the use of activated double bonds and styrenes would be even more efficient as no side products are to be expected. However, good ideas always need time to develop and grow and thus it is not surprising that it took more than 100 years from the initial invention of Friedel and Crafts in 1887 until the first catalytic FC alkylations with alcohols and styrenes as alkylating reagents were developed. Initial attempts in 1996 using Sc(OTf) 3 and soon after with Mo(CO) 6 as Lewis acid catalysts were consequently followed by a multitude of new methods employing a variety of Lewis- and Brønsted acids with decreasing catalyst loadings and in consequence increasing efficiencies ( ). With regard to the electrophiles employed in the FC alkylation protected or activated alcohols and styrenes have been found to be suitable alkylating reagents giving access to many functionalized arenes including 1,1-diarylalkanes, allyl- and prop-2-ynylbenzenes. More recently diastereoselective and enantioselective Friedel–Crafts alkylations have been developed. In this review we intend to give an overview of the important developments that have primarily emerged over the last decade.

1,1-Diarylalkanes are important building blocks for the synthesis of many pharmaceuticals, agro- and fine chemicals ( ). Traditionally, 1,1-diarylalkanes have been prepared from benzyl halides under Friedel–Crafts conditions using stoichiometric amounts of a Lewis acid, such as AlCl 3 . With the need for more environmentally and economically benign processes, the Friedel–Crafts-type synthesis of 1,1-diarylalkanes using catalytic amounts of a metal or acid catalyst and more environmental friendly benzylation reagents are highly desirable. To this end substantial progress has been made and different benzyl halide substitutes, including free and protected alcohols as well as tosylamides have been introduced ( ). In particular benzyl alcohols have become a valuable alternative. Due to their availability, lower toxicity, and the fact that only stoichiometric amounts of water are generated as the side product the FC alkylation with benzyl-, allyl- and propargyl alcohols presented a first and important step toward an environmental friendly process. In 1986, Uemura et al. investigated the chlorination of benzyl- and alkyl alcohols mediated by SeCl 4 and TeCl 4 . While the reaction performed in non-aromatic solvents yielded the desired benzyl chlorides in good yields, an unexpected side reaction was observed in aromatic solvents such as toluene resulting in the 1,1-diarylalkane 3 in 83% yield ( ). The authors explained this observation with a chlorination of 1-phenylethanol 1 and subsequent FC alkylation of the formed benzyl chloride and toluene. However, more surprisingly the reaction yield could be improved to 93% if only catalytic amounts (10 mol%) of TeCl 4 were present ( ) . Although the reaction was found by accident, this was probably the first description of a catalytic FC alkylation utilizing a benzyl alcohol. The first systematic investigations of catalytic FC benzylations were performed independently in 1996 and 1997 by Fukuzawa and Shimizu et al. . While the latter used 10 mol% Mo(CO) 6 as the Lewis acid catalyst under the strict exclusion of air and moisture, the Fukuzawa group utilized Sc(OTf) 3 as a water and air tolerant catalyst. Various arenes, including benzene, p -xylene, or mesitylenes were alkylated with benzyl alcohols 4 to afford the desired 1,1-diarylalkanes 5 in high yields ( ). Other rare-earth trifluormethanesulfonates such as Nd(OTf) 3 Yb(OTf) 3 and Sm(OTf) 3 showed similar reactivities and the reaction was later also performed in the ionic liquids [BMIM][OTf] and [BMIM][PF 6 ] . Next to benzyl alcohol, allyl alcohols, dibenzylethers as well as arenecarbaldehydes and their corresponding acetals have been used as electrophilic component . While FC alkylations with allyl alcohols and benzyl ethers are likely to have the same carbocationic reaction intermediate, the FC alkylation with arenecarbaldehydes 6 has to be different ( ). Mechanistic investigations revealed that propanediol is necessary for this reaction to proceed. In the first step of the reaction sequence a Lewis acid catalyzed acetalization of the aldehyde occurs and the acetal 7 is formed. The following nucleophilic attack of the arene yields diphenyl-substituted ether 8 as an intermediate which subsequently undergoes an intramolecular [1,3]- or [1,5]-hydride shift resulting in the desired diarylmethanes 9 in good yields. Electron donating and electron withdrawing functional groups of aldehyde moiety are tolerated in this reductive Friedel–Crafts alkylation procedure. However, there is no clear correlation between the electron deficiency of the arenecarbaldehyde and the reaction yield . Further mechanistic investigations were performed with 1,3-propanediol- 1 , 1 , 3 , 3 - d 4 in order to provide more information about the observed hydride shift. Indeed deuterium was incorporated into the benzylic position and monodeuterated diphenylmethane was obtained in over 95% yield. This result and the fact that 3-hydroxypropanal 10 is a major side product strongly supports the mechanism of this reductive FC alkylation reaction. Soon after the fundamental work by Fukuzawa and Shimizu, many catalytic FC benzylations using benzyl alcohols have been developed. These utilize for instance Cl 2 Si(OTf) 2 , Hf(OTf) 4 , Yb(OTf) 3 , La(OTf) 3 , InCl 3 , NbCl 5 , heterobimetallic Ir-Sn-catalysts , H-mont , [CpMoCl(CO) 3 ]/ o -chloranil , strong Brønsted acids calix[6]arene sulfonates or molecular iodine as catalysts. In 2005 Beller et al. systematically tested the activity of various Lewis- and Brønsted acids in FC benzylations. They found that late transition metals such as HAuCl 4 , IrCl 3 , [MesW(CO) 3 ], RhCl 3 , H 2 PdCl 4 , H 2 PtCl 6 and FeCl 3 were the most effective. FeCl 3 , in particular, is an attractive alternative to rare-earth triflates since it is non-toxic, cheap and readily available. Different benzyl alcohols and acetates ( , R 1 = H) and 1-aryl alcohols (R 1 = Me) are tolerated in the reaction if 10 mol% FeCl 3 catalyst are applied. Even fairly unstable thiophene- and furan-2-carbaldehyde derived benzyl alcohols, cyano(phenyl)methyl acetate or 3-hydroxy-3-phenylpropanoates and benzyl methyl ethers have been successfully applied as benzylation reagents . Later, the same authors used gold(III) as a catalyst for an efficient one-pot synthesis of beclobrate, a well known fibric acid derivative with a potent hypolipidemic activity . The straightforward synthesis was accomplished by reaction of readily available p -chlorobenzyl acetate ( 12 ) with 2-methyl-2-phenoxybutyrate 13 to give beclobrate ( 14 ) in 90% yield. However, 10 mol% of HAuCl 4 had to be used ( ). The Lewis- and Brønsted acid catalyzed activation of benzyl alcohols and derivatives is not only restricted to the Friedel–Crafts alkylation and the application of arenes but can additionally be extended to other nucleophiles. In particular, mono-substituted 1,3-diketones 17 and their derivatives are of great interest. Given that the alkylation typically requires stoichiometric amounts of a base and a toxic alkyl halide the development of an efficient environmentally benign route to 2-alkylated pentanediones 17a–c employing simply benzyl-, allyl- or propargyl alcohols 16 as alkylating reagents represented a valuable advancement ( ) . An example of this procedure represents the effective iron(III)-catalyzed one-step synthesis of phenprocoumon ( 20 ), an anticoagulant of the warfarin-class that is widely used in thrombosis prophylaxis. Simply starting from 4-hydroxycoumarin ( 18 ) and 1-phenylpropan-1-ol ( 19 ), phenprocoumon ( 20 ) was obtained in 94% yield ( ) . As a suitable alternative to transition metals, bismuth salts have emerged as cheap, non-toxic, and readily available catalysts with Lewis acidic properties. Given that certain bismuth salts are compatible with air and moisture, the Rueping group decided to examine the bismuth-catalysed arylation and alkylation of benzyl alcohols. With small amounts of Bi(OTf) 3 (0.5 mol%) they were able to benzylate arenes bearing methyl, methoxy or hydroxy functionalities as well as heteroarenes, including thiophenes or 3-methylindole with a good para / ortho / meta regioselectivity ( ). In addition, they successfully used benzyl acetates, 1-phenylethanol and β-hydroxy-substituted benzyl alcohols as alkylating reagents. Furthermore, an efficient intramolecular variant of this procedure starting from biaryl benzyl alcohol 23 led to substituted fluorenes 24 which have shown to be valuable scaffolds for blue light emitting polymers ( ) . A similar route to fluorenes and other annulated cycloalkanes 26 was subsequently developed utilizing nanostructured MoO 3 ( ) . Recently, Kobayashi et al. reported a dehydrative nucleophilic substitution of benzyl alcohols in water employing a dodecylbenzenesulfonic acid (DBSA) as a surfactant-type Brønsted acid catalyst. With this green methodology a variety of carbon- and heteroatom-centered nucleophiles were effectively applied resulting numerous diarylmethanes and 3-substituted indoles. Moreover, this method could be extended to the C-glycosylation of 1-hydroxysugars and the products 28 were obtained in high yields and with remarkable anomeric ratios ( ) . Recently, Cozzi et al. showed that FC benzylations can proceed even without adding a Lewis acid catalyst, just “on water” at 80 °C. However, this method is restricted to reactive heteroarenes such as indole ( 30 ), pyrrole and nucleophiles including azides or acetylacetonates. Moreover, only highly reactive ferrocenyl alcohols 29a or benzhydrols 29b–d , which result in highly stabilized carbocations upon elimination, can be used in this procedure ( ) . An interesting domino reduction–alkylation procedure was recently developed by Peris et al. employing a versatile Ir-Cp*-catalyst 33 ( ). This N -heterocyclic carbene Ir-complex is capable of catalyzing FC alkylations not only with benzyl alcohols and styrenes but also utilizing aldehydes and acetophenones 32 , which are reduced prior to the FC-type alkylation in the same reaction vessel ( ). Here isopropanol can be used as a simple reducing reagent to afford the desired 1,1-diarylalkanes 34 in high yields after 12 h with just 1 mol% of the Ir-complex 33 . Thus this procedure widens the scope of electrophiles that can be used in environmental benign FC processes .

The Friedel–Crafts benzylation of arenes using benzyl alcohols was discussed in the previous chapter. Even though it renders a convenient and environmental benign approach to 1,1-diarylalkanes, there is still one stoichiometric side product formed during this transformation, namely water. Waste water treatment is an ongoing and expensive issue in large scale chemical processes; therefore, methodologies without the formation of water or other by-products would be even more desirable. As such, hydroarylations and hydroalkylations with a theoretical atom efficiency of 100% would solve these issues. The Friedel–Crafts-type 1,4-addition of arenes to unsaturated carbonyl compounds and their derivatives can be considered as Michael reactions. They have been extensively reviewed elsewhere and will be not discussed in this chapter . For the synthesis of 1,1-diarylalkanes, efficient hydroarylation procedures employing styrenes and other activated double bonds are needed ( ). Due to their availability, styrenes are most suitable substrates for potential hydroarylation methods and a fast synthesis of compound libraries should be feasible. Although, the Murai reaction, the Ru-catalyzed ortho -alkylation of acetophenones with alkenes has been known since 1993 , the direct substitution of arenes with styrenes is a development that has emerged in the last decade. Within this context, Shimizu and co-workers discovered a Lewis-acid-catalyzed substitution of arenes with olefins, such as styrene, α- and β-methylstyrene or cyclohexenes 35 ( ) . Various transition-metal compounds such as Mo(CO) 6 , MoCl 5 , W(CO) 6 , H 2 IrCl 5 , Sc(OTf) 3 as well as several Brønsted acids were described, with Mo(CO) 6 being the most efficient. Like other FC alkylations, the para -substituted product 36 was highly preferred. Interestingly, the hydroalkylation of anisole with citral ( 37 ) did not result in the expected alkyl-substituted anisole derivative. Instead, the diarylalkane 38 was obtained in 44% yield, most likely through a FC alkylation, cationic cyclization reaction cascade ( ). Unfortunately 10 mol% of expensive, toxic and air- and moisture sensitive Mo(CO) 6 was necessary for a successful transformation. It took almost nine years from this first discovery until Beller et al. and Rueping et al. developed Fe(III)- and Bi(III)-catalyzed hydroarylations of arenes . Although, FeCl 3 is cheap, non-toxic and readily available, a high catalyst loading (10 mol%) was necessary to obtain complete conversion. In comparison, 0.5 mol% of Bi(OTf) 3 were sufficient to give the desired 1,1-diarylalkanes after short reaction times in good to excellent yield and with good ortho / para selectivity. Although different arenes and heteroarenes, including thiophene can be efficiently alkylated, furans did not result in the desired products. In addition to styrene, dihydronaphthalene and α-methylstyrene could be used as electrophiles. In the latter case, the formation of a quaternary carbon atom was possible. Although the product was isolated in lower yields ( ). Subsequently this method was expanded to other nucleophiles, such as 1,3-diketones . Mirroring the Bi(OTf) 3 -catalyzed method, Hua et al. developed a BiCl 3 -catalyzed synthesis of 1,1-diarylalkanes starting from electron-rich arenes and styrenes. Additionally, they found that heating of styrene 41 in the presence of catalytic amounts of BiCl 3 yielded substituted dihydroindenes 42 as a result of styrene dimerization. This reaction may proceed via an intermolecular ene reaction between styrene and the carbocationic intermediate I followed by an intramolecular FC alkylation of the resulting carbocationic 1,3-diarylpropane II ( ) . Next to the described procedures many related intermolecular FC-type alkylations with styrenes and activated double bonds have been developed using, for instance, InCl 3 /SiO 2 , Iodine , Ir(III) , AuCl 3 /AgSbF 6 , AuCl , and PtCl 2 . Within the row of heteroarenes, indole is one of the most important structural motifs due to its abundance in biologically active small molecules; thus their hydroarylations are particularly useful. A gold(I)-catalyzed hydroarylation of indoles with styrenes as well as with aliphatic and cyclic alkenes was developed by Che et al. . [AuCl(PPh 3 )]/AgOTf was the catalyst system of choice and the reaction was, depending on the substrate, performed under thermal or microwave-assisted conditions. The wide range of alkene substrates and the low catalyst amounts render this method a highly efficient and convenient synthesis of 3-functionalized indole derivatives ( ). An elegant PtCl 2 -catalyzed intramolecular alkylation of indoles with inactivated alkenes has been developed by Widenhoefer et al. . In addition to the transition metal Pt(II), catalytic amounts of hydrochloric acid were necessary to obtain the desired 2,3-annulated indoles in sufficient yields. By employing optically pure axial chiral phosphane ligands, an enantioselective version of this transformation was developed which provided the products with high enantioselectivities. Beside indoles, anilines have gained much attention as target for hydroarylation reactions. However, the main issues for FC alkylations of anilines are the deactivation of the catalyst due to coordination of the primary amine and/or concurrent hydroamination reactions . Nevertheless, Beller et al. developed a valuable method to overcome these limitations. In 1999 they described the transition metal catalyzed hydroarylation of anilines 46 with styrenes using a cationic Rh-complex . Depending on the aniline derivative, a combination of 2.5 mol% [Rh(cod) 2 ]BF 4 , 4 mol% PPh 3 and HBF 4 •OEt 2 was necessary for sufficient reactivity; yet electron-rich and N -alkylated anilines react without a metal catalysis in the presence of catalytic amounts of HBF 4 ( ). About the same time a Ru 3 (CO) 12 -catalyzed hydroarylation of anilines was reported as well . Ackermann et al. attempted to develop a Ti(IV)-catalyzed hydroamination of anilines with olefins, and surprisingly discovered that a mixture of hydroamination and ortho -hydroarylation products was formed. Upon further heating of the secondary amine 48 in the presence of TiCl 4 the ortho -arylated aniline 49 was formed quantitatively ( ). Reaction conditions were improved and with 20 mol% of TiCl 4 a variety of electron-rich and electron-poor anilines 51 and styrenes 50 were utilized for giving diverse ortho -benzylated anilines 52 in moderate to good yields ( ) . Almost simultaneously, an acid-catalyzed ortho -arylation of aniline employing the strong Brønsted acid PhNH 3 B(C 6 F 5 ) 4 •Et 2 O was developed by Bergman et al. indicating the close relationship between strong Brønsted acid- and transition-metal catalysis . A double ortho -hydroarylation of anilines with styrenes was presented by Coates and co-workers giving a mixture of 53 and ent - 53 and the corresponding meso compound. In combination with enantioselective separation techniques, such as HPLC, or upon resolution with chiral Brønsted acids this method provides valuable ortho -chiral anilines that could be used as valuable optical active ligands for enantioselective transition-metal catalysis ( ) . To the best of our knowledge, efficient ortho -benzylations of anilines with benzyl alcohols as alkylating reagents have yet to be described .

Allylated arenes represent attractive precursors for organic synthesis as there are several possibilities for further transforming the exocyclic double bonds. Typically, in transition-metal-catalyzed allylation reactions reactive, metal-coordinated allyl cations are formed which may lead to linear and branched products, whereby the product ratio is dependent on the catalyst employed ( ). To date, only few FC-type allylations with environmentally benign allylating reagents, such as allyl alcohols have been reported. Here Shimizu and co-workers did seminal work by developing a Mo(CO) 6 - and W(CO) 6 -catalyzed allylation and cinnamylation of electron-rich arenes. Employing, for instance, p -xylene or toluene and cinnamyl alcohols or -carbonates 54 in the presence of 10 mol% of Mo(CO) 6 the desired allylated arenes 55 could be isolated in good yields ( ) . As application of this methodology, methyleugenol 57 , an ingredient in many spices and essential oils, could be synthesized in one step starting from allyl carbonate 56 and 1,2-dimethoxybenzene ( ). A similar method using a diruthenium complex was developed by Hidai and co-workers . The reaction conditions of both methods were still harsh and the use of Mo(CO) 6 as a catalyst required exclusion of air and moisture. Moreover, the reactive allyl carbonates or acetates had to be applied due to the easier activation as better leaving groups. Hence, improved procedures with less sensitive and cheaper catalysts as well as unprotected alcohols had to be developed. One of the first examples of a catalytic FC alkylation of arenes with unprotected allyl- and cinnamyl alcohols was developed by Kočovský et al. in 1999 . Employing small amounts of a Mo(IV)-complex, allyl alcohols could be substituted with electron-rich arenes such as phenol and anisol. Interestingly, the application of the in situ generated Mo(IV)-catalyst Mo(acac) 2 (SbF 6 ) 2 resulted exclusively in C -allylated arenes, while the catalyst precursor Mo(acac) 2 Cl 2 gave the O -allylated phenols as major products. Remarkably the reaction between p -cresol 58 and linear or branched allyl alcohols 54a or 54b did not give the corresponding alkylated cresol 59 . Instead the chromane 60 was observed in 28% yield ( ). This reaction has recently been improved and extended by applying MoCl(CO) 3 Cp and [Mo(CO) 3 Cp] 2 as transition-metal catalysts . A very similar FC allylation/hydroaralyation reaction was subsequently used by other groups for the synthesis of (all- rac )-α-tocopherol 63 (Vitamin E) and its more stable acetate derivative starting from the two precursors trimethylhydroquinone 61 and isophytol 62 . Strong Brønsted acids as well as various rare-earth metal triflates and silicon-based Lewis acids were used as catalysts ( ). Chan and co-workers developed an efficient Au(III)-catalyzed FC arylation of cinnamyl alcohols 64 and electron-rich arenes such as 2,6-dimethylphenol 65 . The authors found that this transformation can be catalyzed by various transition metals and Brønsted acids, including Au(III), Ag(I), In(III), Zn(II), Cu(II) salts or sulfonic acids. AuCl 3 was the most reactive and was subsequently used for further studies. With 5 mol% of catalyst and performing the reaction at room temperature, the desired allylated arenes and heteroarenes 66 were isolated in good yields after short reaction times. Beside cinnamyl alcohols 66a and 66b , 1-arylated allyl alcohols could be used in this transformation giving, for example, the benzylated dihydronaphthalene 66c and cyclohexanone 66d in good yield ( ) . As a curiosity, Tamaru et al. reported an “exhaustive” Pd(0)-catalyzed allylation of benzene-1,3,5-triol ( 67 ), resulting in the highly allylated cyclohexane-1,3,5-trione 69 in high yields. This structure is expected to be a useful precursor for supramolecular architectures with C 3 symmetry ( ) . It is worth mentioning that in this example as well as in the following Pd-catalyzed allylations an intermediary electrophilic Pd-allyl complex as the reactive allylating species is more likely than the formation of a free allyl cation. The indole core structure is widely distributed in natural occurring and biologically active molecules and hence, its allylation is of great interest for organic synthesis. It is surprising that it took over eight years from the first description of catalytic allylations of arenes by Shimizu until the first catalytic allylation of indole was described. Here, a combination of Et 3 B and Pd(0) led to an efficient C3-selective allylation . Employing free allyl alcohols and a combination of 5 mol% of Pd(PPh 3 ) 4 and 30 mol% triethylborane as catalyst, the desired 3-allylated indoles were isolated in excellent yields ( ). Electron withdrawing as well as electron donating groups were well tolerated. Other allylating reagents, such as β-methyl-, α,α-, and γ,γ-dimethylallyl alcohols or cinnamyl alcohol could also be used in this reaction. Additionally, high selectivity towards the linear allylated indoles was observed. Surprisingly, N -allylation did not occur. With L-tryptophan methyl ester ( 73 ) as the indole moiety, this method led to a convenient stereoselective synthesis of a highly substituted pyrroloindole framework 74 ( ); however, equimolar amounts of triethylborane were necessary. An improved FC allylation of indoles with allyl alcohols was developed recently by Breit et al. using self-assembling palladium-phosphane catalysts . Further procedures for the 3-benzylation and allylation of indole employing FeCl 3 and InBr 3 have been developed more recently by Yadav and Jana . Both procedures are very similar and employ 10 mol% of catalyst. However, the reaction with InBr 3 can be performed at room temperature, which may be due to the higher Lewis acidity. While the catalysts described above gave primarily linear allylation products, procedures that would give branched allylated arenes would be even more desirable. An example of such a transformation was recently uncovered by Pregosin and co-workers. The cationic Trost-type Ru(IV)-sulfonate catalyst 77 gives high regioselectivity for branched allylated arenes. As electron-rich arenes, pyrroles 75 and indole ( 76 ) can be utilized ( ) . Interestingly, the addition of sulfonic acid was crucial for the high reactivity and the observed regioselectivity . Branched/linear ratios of the desired products 78 and 79 were found to range between 2.3 : 1 and 100 : 0. The selectivity of this reaction is thought to be driven by the LUMO of the Ru(IV)-allyl complex intermediate. Besides intermolecular allylations, intramolecular FC-type allylations are of great importance. One of the first intramolecular FC-type transformations using allyl alcohols was developed by Nishizawa et al. using Hg(OTf) 2 as Lewis acid . Since Hg(II) is not an environmentally friendly transition metal, Bandini et al. developed a “greener” Ag(I)- and Mo(II)-catalyzed variant ( ) . The desired tetrahydronaphthalenes 81 were obtained in high yields under ambient reaction conditions ( ) . Subsequently a very similar iron(III)-catalyzed intramolecular FC alkylation of propargyl alcohols was developed by Zhou et al. Depending on the reaction conditions one observes either the corresponding dihydronaphthalenes or allenes as the main reaction products .

(Prop-2-ynyl)arenes 84 are widely distributed structural motifs in organic chemistry due to the high synthetic value of the alkyne functionality. This makes them suitable precursors for the synthesis of highly substituted 1,1-diarylalkanes. Thus efficient routes to this important core structure are constantly needed. One of the most efficient ways for synthesising (prop-2-ynyl)arenes is the direct propargylation of arenes and heteroarenes with propargyl alcohols. This reaction is typically more difficult to achieve since the intermediary propargyl cations 83a are in equilibrium with the corresponding sp 2 -hybridized allenylium cations 83b and the latter are prone to undergo polymerization or side reactions, such as γ-substitution ( ). So far the Nicholas reaction has been the method of choice for the propargylation of aromatic systems. However the use of stoichiometric amounts of Co 2 (CO) 8 and oxidation reagents denotes a fairly inefficient transformation . Uemura and co-workers discovered in 2002 that heating stoichiometric amounts of a cationic Ru-allenylidene complex 86 , which has been synthesised from the Ru-precursor 85a , together with 10 equiv of 2-methylfuran led to rapid formation of 5-propargylated 2-methylfuran 87 in 34% yield ( ) . Subsequently a catalytic variant of this transformation was developed by using diruthenium complexes 85a and 85b ( ) . The reaction proceeded smoothly and yields of the propargylated arenes 89 were even higher when only small amounts of the catalyst were used. Interestingly, if phenols and naphthols 91 were applied as nucleophiles, both C α - and C γ -carbon atoms of allenylidene-Ru 92 complex were attacked giving rise to the corresponding chromenes and 1-substituted 1 H -naphtho[2,1- b ]pyrans 93 , respectively, in moderate to excellent yields ( ). Electron-withdrawing as well as electron-donating functional groups were tolerated on the phenol scaffold, whereas 1,1-diaryl-substituted propargylic alcohols did not react at all . The same authors expanded their procedure to an enantioselective propargylation of arenes using a chiral Ru-complex . This outstanding transformation is discussed in more detail in the following chapter of this review. A related cationic Ru-vinylidene complex was used for an efficient alkynylation of pyridines with (alkyn-1-yl)trimethylsilane . Based on these preliminary results, various catalytic propargylations of arenes have been developed, employing catalysts such as Mo/chloranil , polymolybdophosphoric acid supported silica , TsOH , FeCl 3 , BiCl 3 , Sc(OTf) 3 other Ru- or , Re-complexes and even molecular iodine . Toste and co-workers developed a mild rhenium-catalyzed propargylation of electron-rich arenes. In addition to principal method development, the authors applied their procedure towards the synthesis of several biologically active molecules. Starting from ethyl propiolate 95 and safrole 94 , the desired FC alkylation product 96 was isolated in 66% yield. A subsequent six-step synthesis yielded β-apopicropodophyllin ( 97 ), a previously described precursor of cyctotoxic aryltetralinlactone podophyllotoxin ( 98 ; ) . Likewise, the two natural occurring benzhydryl compounds mimosifoliol 99 and O -methyldetrol 100 were obtained from readily available arenes and propargyl alcohols. The FC propargylations that were necessary in the first step were carried out in the presence of air and moisture with just 5 mol% Re(O)(dppm)Cl 3 and 5 mol% potassium or silver hexafluoridophosphate as a halide abstractor. Remarkably, γ-heteroatom substituted propargyl alcohols can also be used as alkylating reagent. Yoshimatsu et al. developed a scandium-catalyzed FC alkylation using 3-sulfanyl- and 3-selanylpropargylic alcohols 101 . With 5 mol% of Sc(OTf) 3 as the catalyst and a surprisingly low reaction temperature (0 °C) the desired propargylated arenes 102 were isolated in good to high yields. Beside arenes and heteroarenes, allylsilane and vinyl silyl ethers were used as nucleophiles in this transformation . The substituted γ-selenopropargyl compounds were readily transformed into the terminal alkynes 103 by treatment with tributyltin hydride or were further functionalized with aldehydes to form the highly substituted allenyl alcohols 104 ( ). While the methods described above used α-arylated propargyl alcohols as highly reactive alkylating reagents, reports of the arylation of α-unsubstituted propargyl groups are few. In these reactions the alcohol has to be activated as a leaving group in order to obtain sufficient reactivity. One example utilizing the propargyl trichloracetimidates 105 was described recently by Wang and co-workers. With 30 mol% of boron trifluoride etherate, the highly desired 1,3-diarylpropynes 106 were obtained in good yields. The reaction was over within 5 min and various arenes and heteroarenes, including toluene, xylene, thiophene or furan were tolerated as nucleophiles ( ) .

Despite the recent effort in the development of FC alkylations, enantio- and diastereoselective FC alkylations using chiral alcohol precursors are rare. Due to the fact that Lewis- or Brønsted-acid-catalyzed FC alkylations are passing through a carbocationic intermediate, the alcohol itself can not be used as the chiral precursor ( ). In order to circumvent this problem, benzyl alcohols with a stereocenter in the α-position were employed as directing groups. This approach was used by Bach and co-workers employing the α- tert -butyl-substituted benzyl alcohol 107 ( ). Various electron-rich arenes and heteroarenes were applied giving rise to chiral arenes 108 with remarkable syn -diastereoselectivities of up to 94 : 6 d.r. . Beside the tert -butyl moiety as regio-discriminating group, other useful synthetic functional groups such as nitro-, cyano- or hydroxy functionalities could effectively be used . Enantiomerically enriched benzyl alcohols did not lose their stereochemical information during substitution. In addition both, syn - and anti diastereoisomer of the starting material gave the syn -configured products as the major diastereoisomer. This strongly indicates a carbocation as reaction intermediate and rules out an S N 1-type reaction mechanism. Additionally, low temperature NMR studies in superacidic media clearly profed the carbocationic character of the benzylic carbon atom . When the tert -butyl-group is replaced by phenyl functionalities 109 , a reverse in diastereoselectivity is observed. This may be a result of п-stacking interactions . Again, various arenes and heteroarenes, including indoles, thiophenes, pyrroles or furans gave the desired anti -1,1,2-triarylalkanes 110 in good yields and with high diastereoselectivities ( ). BF 3 •OEt 2 and TFA were used in stoichiometric amounts to promote this reaction. However, application of BF 3 resulted in significantly higher reactivity, while the diastereoselectivity was higher when TFA was used. The enantiomeric excess did not significantly diminish during this procedure, which makes this reaction a convenient and efficient route to optically pure 1,1,2-triarylalkanes. A drawback of this first diastereoselective FC alkylation of chiral benzyl alcohols was the necessity for stoichiometric amounts HBF 4 and low temperatures in order to observe high diastereoselectivities. To overcome these drawbacks, Bach et al. developed an efficient AuCl 3 -catalyzed arylation of benzyl alcohols and acetates with chiral phenylbutanoates 111 . In addition to arenes and heteroarenes, other nucleophiles including allylsilane, tosylamine, TMS-cyanide, acetylacetonates and silyl enol ethers were successfully used as nucleophilic components giving the substituted 3-phenylbutanoates 112 in high yields and with excellent diastereoselectivities ( ). The reaction could be performed at ambient temperatures and in sharp contrast to the previous described HBF 4 -mediated procedure, high anti -selectivity was observed in the formation of 112 . Similar methods using silyl enol ethers were subsequently developed involving Bi(OTf) 3 as Lewis acid catalyst . While bismuth-catalyzed arylation of benzyl alcohols proceeded only at temperatures between 55 and 100 °C, the reaction of p -methoxybenzyl acetates 113 with silyl enol ethers 114 took place even at ambient temperatures to give the desired products 115 ( ) . Again different chiral benzyl acetates were efficiently substituted employing low amounts of catalyst (1–5 mol%). While nitro-, cyano- and methyl ester derivatives gave remarkable anti -selectivity, the corresponding α-phosphonate showed high syn -selectivity. In general, the diastereoselectivity can be explained by comparing the A-values (an estimation of the steric demand) of the α-functional groups. If the A-value of the functional group is higher than the A-value of the methyl group, Re -attack is favoured giving the corresponding anti products and vice versa . In addition to benzyl alcohols and propargyl alcohols, acetates can also be used in diastereoselective FC alkylations. Again Bi(OTf) 3 was the Lewis acid of choice. With 10 mol% of catalyst the α- tert -butyl-substituted propargyl acetates 116 could be substituted with silyl enol ethers, allylsilane and various arenes and heteroarenes to give the desired alkylated alkynes 117 in high yields and excellent anti diastereoselectivities of up to 99 : 1 d.r. ( ) . Treatment of chiral β-hydroxy esters with aromatic and aliphatic nitriles in the presence of catalytic amounts of TfOH and subsequent hydrolysis in a Ritter-type reaction led to the desired anti α-amino esters with high diastereoselectivities . Next to the described developments, Cozzi et al. reported that enantioenriched ferrocenyl alcohols 118 can be efficiently substituted with various C-nucleophiles. Applying 10 mol% of InBr 3 the desired substituted ferrocenyl derivatives 119 were isolated in high yields under ambient conditions ( ). The configuration was retained during the nucleophilic substitution. The optically active ferrocenyl alcohols can be easily synthesised from the corresponding ferrocenyl ketone precursor via an enantioselective aminoindanol/BH 3 reduction . The same authors reported shortly after their initial finding a highly efficient substitution of ferrocenyl alcohols in water, without the need of any Lewis-acid catalyst . A comparable, non-chiral version of this C–C bond forming reaction using ceric ammonium nitrate has recently been developed . A first catalytic enantioselective Friedel–Crafts alkylation with propargyl alcohols as electrophile has been developed by Nishibayashi and co-workers. Chirality was introduced by a thiolate-bridged diruthenium complex which is based on optically active disulfide ligand 120 . 2-Alkylfurans as well as N,N -dimethylaniline were efficiently utilized as nucleophiles and the corresponding highly valuable optically active propargylated aromatic compounds 122 were isolated in moderate yield but with excellent enantioselectivities of up to 94% ee ( ) . This milestone in the catalysis of the Friedel–Crafts alkylation should be considered a good starting point for the development of other catalytic enantioselective FC alkylations, using not only propargyl- but also allyl- or benzyl alcohols as electrophilic components.

Despite the great efforts that have been undertaken in the last decade with catalytic FC alkylations, there are still major challenges that need addressing. To the best of our knowledge no catalytic enantioselective Friedel–Crafts reactions leading to enantioenriched 1,1-diarylalkanes are known. Chiral, bifunctional Lewis- or Brønsted acid catalysts are required that stabilize the transient carbocations and are able to mediate enantioselective S N 1 reactions. Moreover, Friedel–Crafts alkylations of arenes bearing free amines or nitrogen-containing heterocycles will be a great advance in this area. This increase in functional group tolerance would allow the use of the Friedel–Crafts reactions in the late stages of complex natural product synthesis or in the preparation of biological relevant molecules, including pharmaceuticals and agrochemicals. Furthermore, the extension of substrate scope away from π-activated alcohols and double bonds to less reactive alkyl alcohols is a major goal, and will finally eliminate the need for haloalkanes in FC alkylations.

Most often used metal salts for catalytic FC alkylations and hydroarylations of arenes.

1,1-diarylalkanes with biological activity.

AlCl 3 -mediated reaction between amyl chloride and benzene as developed by Friedel and Crafts. Alkylating reagents and side products produced. Initially reported TeCl 4 -mediated FC alkylation of 1-penylethanol with toluene. Sc(OTf) 3 -catalyzed FC benzylation of arenes. Reductive FC alkylation of arenes with arenecarbaldehydes. Iron(III)-catalyzed FC benzylation of arenes and heteroarenes. A gold(III)-catalyzed route to beclobrate. Catalytic FC-type alkylations of 1,3-dicarbonyl compounds. Iron(III)-catalyzed synthesis of phenprocoumon. Bi(OTf) 3 -catalyzed FC alkylation of benzyl alcohols developed by Rueping et al. (A) Bi(OTf) 3 -catalyzed intramolecular FC alkylation as an efficient route to substituted fulvenes. (B) Nanostructured MoO 3 mediated intramolecular FC alkylation. FC-type glycosylation of 1,2-dimethylindole and trimethoxybenzene. FC alkylation with highly reactive ferrocenyl- and benzyl alcohols. The reaction proceeds even without Lewis acids just “on water”. Reductive FC alkylation of arenes with benzaldehyde and acetophenone catalyzed by the Ir-carbene complex 33 . Formal synthesis of 1,1-diarylalkanes from benzyl alcohols and styrenes. (A) Mo-catalyzed hydroarylation of styrenes and cyclohexenes. (B) Hydroalkylation–cyclization cascade leading to 1,1-diarylalkane 38 from the linear precursor citral ( 37 ). Bi(III)-catalyzed hydroarylation of styrenes with arenes and heteroarenes. BiCl 3 -catalyzed ene/FC alkylation reaction cascade – A fast access to highly arylated dihydroindenes. Au(I)/Ag(I)-catalyzed hydroarylation of indoles with styrenes, aliphatic and cyclic alkenes. First transition-metal-catalyzed ortho -hydroarylation developed by Beller et al. (A) Ti(IV)-mediated rearrangement of an N -benzylated aniline to the corresponding ortho -alkylated aniline. (B) ortho -Arylation of anilines with styrenes in the presence of TiCl 4 . Dibenzylation of aniline gives potentially useful amine-based ligands in a one-step procedure. FC-type alkylations with allyl alcohols as alkylating reagents – linear vs. branched product formation. (A) First catalytic FC allylation and cinnamylation using allyl alcohols and its derivatives. (B) Efficient Mo-catalyzed synthesis of methyleugenol. FC allylation/cyclization reaction yielding substituted chromanes. Synthesis of (all -rac )-α-tocopherol utilizing Lewis- and strong Brønsted-acids. Au(III)-catalyzed cinnamylation of arenes. “Exhaustive” allylation of benzene-1,3,5-triol. Palladium-catalyzed allylation of indole. Pd-catalyzed synthesis of pyrroloindoles from L-tryptophane. Ru(IV)-catalyzed allylation of indole and pyrroles with unique regioselectivity. Silver(I)-catalyzed intramolecular FC-type allylation of arenes and heteroarenes. FC-type alkylations of arenes using propargyl alcohols. (A) Propargylation of arenes with stoichiometric amounts of the Ru-allenylidene complex 86 . (B) First catalytic propargylation of (hetero)arenes using a cationic Ru-complex. Diruthenium-catalyzed formation of chromenes and 1 H -naphtho[2,1- b ]pyrans. Rhenium(V)-catalyzed FC propargylations as a first step in the total synthesis of podophyllotoxin, mimosifoliol and O -methyldetrol. Scandium-catalyzed arylation of 3-sulfanyl- and 3-selanylpropargyl alcohols. Synthesis of 1,3-diarylpropynes via direct coupling of propargyl trichloracetimidates and arenes. Diastereoselective substitutions of benzyl alcohols. (A) First diastereoselective FC alkylations developed by Bach et al. (B) anti -Selective FC alkylation of α-phenyl substituted benzyl alcohols. Diastereoselective AuCl 3 -catalyzed FC alkylation. Bi(OTf) 3 -catalyzed alkylation of α-chiral benzyl acetates with silyl enol ethers. Bi(OTf) 3 -catalyzed diastereoselective substitution of propargyl acetates. Nucelophilic substitution of enantioenriched ferrocenyl alcohols. First catalytic enantioselective propargylation of arenes. VJXSSYDSOJBUAV-UHFFFAOYSA-N InChI=1S/C17H19N5O2/c1-9-11(6-10-7-12(23-2)4-5-13(10)24-3)8-20-16-14(9)15(18)21-17(19)22-16/h4-5,7-8H,6H2,1-3H3,(H4,18,19,20,21,22) CC1=C(CC2=CC(=CC=C2OC)OC)C=NC3=NC(=NC(=C13)N)N N1=C(N=C2C(=C1N)C(=C(C=N2)CC3=CC(=CC=C3OC)OC)C)N |(323.3,-232.31,;323.3,-244.05,;333.47,-249.92,;343.63,-244.05,;343.63,-232.31,;333.47,-226.45,;333.47,-214.75,;353.79,-226.45,;363.96,-232.31,;363.96,-244.05,;353.79,-249.92,;374.09,-226.47,;384.21,-232.31,;384.21,-244.05,;394.38,-249.92,;404.54,-244.05,;404.54,-232.31,;394.38,-226.45,;394.38,-214.75,;404.51,-208.9,;394.38,-261.61,;384.25,-267.46,;353.79,-214.75,;313.17,-249.9,)| AuxInfo=1/1/N:13,22,24,18,19,14,16,8,10,15,9,17,20,5,6,4,2,12,11,7,1,3,21,23/rA:24nNCNCCCNCCCNNCCCCCCCCOCOC/rB:d1;s2;d3;s4;s1d5;s4;d7;s8;s5d9;s2;s6;s10;P9;P14;d15;s16;d17;s18;s15d19;s17;s21;s20;s23;/rC:323,3020,-232,3141,0;323,3020,-244,0501,0;333,4657,-249,9181,0;343,6293,-244,0501,0;343,6293,-232,3141,0;333,4657,-226,4461,0;353,7930,-249,9181,0;363,9567,-244,0501,0;363,9567,-232,3141,0;353,7930,-226,4461,0;313,1736,-249,8977,0;333,4657,-214,7508,0;353,7930,-214,7508,0;374,0851,-226,4665,0;384,2134,-232,3141,0;384,2134,-244,0501,0;394,3771,-249,9181,0;404,5408,-244,0501,0;404,5408,-232,3141,0;394,3771,-226,4461,0;394,3771,-261,6133,0;384,2487,-267,4609,0;394,3771,-214,7508,0;404,5055,-208,9032,0; C17H19N5O2 CO* OMe CDK 04212619522D 0 0 0 0 0 999 V3000 M V30 BEGIN CTAB M V30 COUNTS 24 26 0 0 0 M V30 BEGIN ATOM M V30 1 N 323.302 -232.3141 0 0 M V30 2 C 323.302 -244.05009 0 0 M V30 3 N 333.46567 -249.91809 0 0 M V30 4 C 343.62933 -244.05009 0 0 M V30 5 C 343.62933 -232.3141 0 0 M V30 6 C 333.46567 -226.44609 0 0 M V30 7 N 353.793 -249.91809 0 0 M V30 8 C 363.95667 -244.05009 0 0 M V30 9 C 363.95667 -232.3141 0 0 M V30 10 C 353.793 -226.44609 0 0 M V30 11 N 313.17358 -249.89771 0 0 M V30 12 N 333.46567 -214.75084 0 0 M V30 13 C 353.793 -214.75084 0 0 M V30 14 C 374.08505 -226.46646 0 0 M V30 15 C 384.21344 -232.3141 0 0 M V30 16 C 384.21344 -244.05009 0 0 M V30 17 C 394.37711 -249.91809 0 0 M V30 18 C 404.54077 -244.05009 0 0 M V30 19 C 404.54077 -232.3141 0 0 M V30 20 C 394.37711 -226.44609 0 0 M V30 21 O 394.37711 -261.61334 0 0 M V30 22 C 384.24872 -267.46094 0 0 M V30 23 O 394.37711 -214.75084 0 0 M V30 24 C 404.50549 -208.90321 0 0 M V30 END ATOM M V30 BEGIN BOND M V30 1 2 1 2 M V30 2 1 2 3 M V30 3 2 3 4 M V30 4 1 4 5 M V30 5 2 5 6 M V30 6 1 6 1 M V30 7 1 4 7 M V30 8 2 7 8 M V30 9 1 8 9 M V30 10 2 9 10 M V30 11 1 10 5 M V30 12 1 2 11 M V30 13 1 6 12 M V30 14 1 10 13 M V30 15 1 9 14 CFG=1 M V30 16 1 14 15 CFG=1 M V30 17 2 15 16 M V30 18 1 16 17 M V30 19 2 17 18 M V30 20 1 18 19 M V30 21 2 19 20 M V30 22 1 20 15 M V30 23 1 21 22 M V30 24 1 17 21 M V30 25 1 23 24 M V30 26 1 20 23 M V30 END BOND M V30 END CTAB M END XQYZDYMELSJDRZ-UHFFFAOYSA-N InChI=1S/C20H21NO4/c1-22-17-6-5-13(10-18(17)23-2)9-16-15-12-20(25-4)19(24-3)11-14(15)7-8-21-16/h5-8,10-12H,9H2,1-4H3 COC1=CC=C(CC2=C3C=C(C(=CC3=CC=N2)OC)OC)C=C1OC C1(=C(C=C2C(=C1)C=CN=C2CC3=CC=C(C(=C3)OC)OC)OC)OC |(123.95,-86.99,;123.95,-98.72,;134.11,-104.59,;144.28,-98.72,;144.28,-86.99,;134.11,-81.12,;154.44,-81.12,;164.6,-86.99,;164.6,-98.72,;154.44,-104.59,;154.44,-116.31,;164.59,-122.17,;164.59,-133.9,;174.75,-139.77,;184.91,-133.9,;184.91,-122.17,;174.75,-116.3,;195.06,-116.31,;195.06,-104.61,;195.06,-139.76,;195.06,-151.46,;113.8,-104.58,;113.8,-116.28,;113.8,-81.13,;103.67,-86.98,)| AuxInfo=1/0/N:25,23,8,10,17,18,14,13,15,21,6,3,16,5,4,11,19,20,1,2,12,24,22,7,9/rA:25nCCCCCCOCOCCNCCCCCCCCCOCOC/rB:d1;s2;d3;s4;s1d5;s1;s7;s2;s9;s4;d11;s12;s5d13;P11;P15;d16;s17;d18;s19;s16d20;s20;s22;s19;s24;/rC:123,9484,-86,9884,0;123,9484,-98,7244,0;134,1120,-104,5924,0;144,2757,-98,7244,0;144,2757,-86,9884,0;134,1120,-81,1204,0;113,8014,-81,1300,0;103,6730,-86,9777,0;113,8014,-104,5828,0;113,8014,-116,2781,0;154,4394,-104,5924,0;164,6031,-98,7244,0;164,6031,-86,9884,0;154,4394,-81,1204,0;154,4394,-116,3092,0;164,5864,-122,1676,0;164,5864,-133,9036,0;174,7501,-139,7716,0;184,9138,-133,9036,0;184,9138,-122,1676,0;174,7501,-116,2996,0;195,0608,-116,3092,0;195,0608,-104,6140,0;195,0608,-139,7620,0;195,0608,-151,4572,0; C20H21NO4 CO* OMe CDK 04212619522D 0 0 0 0 0 999 V3000 M V30 BEGIN CTAB M V30 COUNTS 25 27 0 0 0 M V30 BEGIN ATOM M V30 1 C 123.94836 -86.98843 0 0 M V30 2 C 123.94836 -98.72443 0 0 M V30 3 C 134.11203 -104.59244 0 0 M V30 4 C 144.27574 -98.72443 0 0 M V30 5 C 144.27574 -86.98843 0 0 M V30 6 C 134.11203 -81.12044 0 0 M V30 7 O 113.80136 -81.13004 0 0 M V30 8 C 103.67296 -86.97766 0 0 M V30 9 O 113.80136 -104.58282 0 0 M V30 10 C 113.80136 -116.27808 0 0 M V30 11 C 154.43941 -104.59244 0 0 M V30 12 N 164.60309 -98.72443 0 0 M V30 13 C 164.60309 -86.98843 0 0 M V30 14 C 154.43941 -81.12044 0 0 M V30 15 C 154.43941 -116.30922 0 0 M V30 16 C 164.58643 -122.1676 0 0 M V30 17 C 164.58643 -133.90361 0 0 M V30 18 C 174.75011 -139.77161 0 0 M V30 19 C 184.91379 -133.90361 0 0 M V30 20 C 184.91379 -122.1676 0 0 M V30 21 C 174.75011 -116.29961 0 0 M V30 22 O 195.06081 -116.30922 0 0 M V30 23 C 195.06078 -104.61395 0 0 M V30 24 O 195.06081 -139.76199 0 0 M V30 25 C 195.06081 -151.45723 0 0 M V30 END ATOM M V30 BEGIN BOND M V30 1 2 1 2 M V30 2 1 2 3 M V30 3 2 3 4 M V30 4 1 4 5 M V30 5 2 5 6 M V30 6 1 6 1 M V30 7 1 7 8 M V30 8 1 1 7 M V30 9 1 9 10 M V30 10 1 2 9 M V30 11 1 4 11 M V30 12 2 11 12 M V30 13 1 12 13 M V30 14 2 13 14 M V30 15 1 14 5 M V30 16 1 11 15 CFG=1 M V30 17 1 15 16 CFG=1 M V30 18 2 16 17 M V30 19 1 17 18 M V30 20 2 18 19 M V30 21 1 19 20 M V30 22 2 20 21 M V30 23 1 21 16 M V30 24 1 22 23 M V30 25 1 20 22 M V30 26 1 24 25 M V30 27 1 19 24 M V30 END BOND M V30 END CTAB M END YWQGBCXVCXMSLJ-UHFFFAOYSA-N InChI=1S/C20H23ClO3/c1-4-20(3,19(22)23-5-2)24-18-12-8-16(9-13-18)14-15-6-10-17(21)11-7-15/h6-13H,4-5,14H2,1-3H3 CCC(C)(C(=O)OCC)OC1=CC=C(C=C1)CC2=CC=C(C=C2)Cl C1=C(C=CC(=C1)CC2=CC=C(C=C2)OC(C(=O)OCC)(C)CC)Cl |(185.38,-223.25,;185.38,-234.99,;195.55,-240.86,;205.71,-234.99,;205.71,-223.25,;195.55,-217.38,;215.86,-217.39,;226,-223.25,;226,-234.99,;236.17,-240.86,;246.33,-234.99,;246.33,-223.25,;236.17,-217.38,;256.48,-240.85,;266.63,-234.99,;268.63,-246.35,;258.47,-252.22,;278.79,-252.22,;288.96,-246.35,;288.96,-234.61,;259.09,-226.01,;274.16,-226.01,;285.7,-228.05,;175.26,-240.84,)| AuxInfo=1/0/N:23,19,21,22,20,4,6,9,13,3,1,10,12,7,5,8,2,11,16,15,24,17,18,14/E:(6,7)(8,9)(10,11)(12,13)/rA:24nCCCCCCCCCCCCCOCCOOCCCCCCl/rB:d1;s2;d3;s4;s1d5;P5;P7;d8;s9;d10;s11;s8d12;s11;s14;s15;d16;s16;;s18s19;s15;s15;s22;s2;/rC:185,3834,-223,2514,0;185,3834,-234,9874,0;195,5471,-240,8554,0;205,7107,-234,9874,0;205,7107,-223,2514,0;195,5471,-217,3834,0;215,8578,-217,3930,0;226,0048,-223,2514,0;226,0048,-234,9874,0;236,1685,-240,8554,0;246,3322,-234,9874,0;246,3322,-223,2514,0;236,1685,-217,3834,0;256,4792,-240,8458,0;266,6262,-234,9874,0;268,6299,-246,3509,0;258,4662,-252,2189,0;278,7936,-252,2189,0;288,9572,-234,6149,0;288,9572,-246,3509,0;259,0948,-226,0118,0;274,1576,-226,0118,0;285,6964,-228,0464,0;175,2550,-240,8350,0; C20H23ClO3 CCOC(=O)* CO2Et CDK 04212619522D 0 0 0 0 0 999 V3000 M V30 BEGIN CTAB M V30 COUNTS 24 25 0 0 0 M V30 BEGIN ATOM M V30 1 C 185.38341 -223.25142 0 0 M V30 2 C 185.38341 -234.98741 0 0 M V30 3 C 195.54707 -240.85541 0 0 M V30 4 C 205.71072 -234.98741 0 0 M V30 5 C 205.71072 -223.25142 0 0 M V30 6 C 195.54707 -217.38341 0 0 M V30 7 C 215.85777 -217.39302 0 0 M V30 8 C 226.00481 -223.25142 0 0 M V30 9 C 226.00481 -234.98741 0 0 M V30 10 C 236.16847 -240.85541 0 0 M V30 11 C 246.33215 -234.98741 0 0 M V30 12 C 246.33215 -223.25142 0 0 M V30 13 C 236.16847 -217.38341 0 0 M V30 14 O 256.47919 -240.84581 0 0 M V30 15 C 266.62619 -234.98741 0 0 M V30 16 C 268.62988 -246.35089 0 0 M V30 17 O 258.46622 -252.2189 0 0 M V30 18 O 278.79358 -252.21889 0 0 M V30 19 C 288.95724 -234.61488 0 0 M V30 20 C 288.95724 -246.35089 0 0 M V30 21 C 259.09482 -226.01184 0 0 M V30 22 C 274.15759 -226.01184 0 0 M V30 23 C 285.69638 -228.04643 0 0 M V30 24 Cl 175.255 -240.83502 0 0 M V30 END ATOM M V30 BEGIN BOND M V30 1 2 1 2 M V30 2 1 2 3 M V30 3 2 3 4 M V30 4 1 4 5 M V30 5 2 5 6 M V30 6 1 6 1 M V30 7 1 5 7 CFG=1 M V30 8 1 7 8 CFG=1 M V30 9 2 8 9 M V30 10 1 9 10 M V30 11 2 10 11 M V30 12 1 11 12 M V30 13 2 12 13 M V30 14 1 13 8 M V30 15 1 11 14 M V30 16 1 14 15 M V30 17 2 16 17 M V30 18 1 16 18 M V30 19 1 18 20 M V30 20 1 19 20 M V30 21 1 15 16 M V30 22 1 15 21 M V30 23 1 15 22 M V30 24 1 22 23 M V30 25 1 2 24 M V30 END BOND M V30 END CTAB M END PWATWSYOIIXYMA-UHFFFAOYSA-N InChI=1S/C11H16/c1-2-3-5-8-11-9-6-4-7-10-11/h4,6-7,9-10H,2-3,5,8H2,1H3 CCCCCC1=CC=CC=C1 C1=CC=CC(=C1)CCCCC |(161.73,-32.72,;161.73,-44.64,;172.06,-50.6,;182.39,-44.64,;182.39,-32.72,;172.06,-26.76,;192.71,-26.76,;203.04,-32.72,;213.36,-26.76,;223.69,-32.72,;234.02,-26.76,)| AuxInfo=1/0/N:11,10,9,2,8,1,3,7,6,4,5/E:(6,7)(9,10)/rA:11nCCCCCCCCCCC/rB:d1;s2;d3;s4;s1d5;s5;s7;s8;s9;s10;/rC:161,7350,-32,7181,0;161,7350,-44,6413,0;172,0607,-50,6029,0;182,3866,-44,6413,0;182,3866,-32,7181,0;172,0607,-26,7565,0;192,7123,-26,7565,0;203,0381,-32,7181,0;213,3639,-26,7565,0;223,6897,-32,7181,0;234,0155,-26,7565,0; C11H16 CDK 04212619522D 0 0 0 0 0 999 V3000 M V30 BEGIN CTAB M V30 COUNTS 11 11 0 0 0 M V30 BEGIN ATOM M V30 1 C 161.73497 -32.71811 0 0 M V30 2 C 161.73497 -44.64131 0 0 M V30 3 C 172.06075 -50.60291 0 0 M V30 4 C 182.38655 -44.64131 0 0 M V30 5 C 182.38655 -32.71811 0 0 M V30 6 C 172.06075 -26.75652 0 0 M V30 7 C 192.71234 -26.75652 0 0 M V30 8 C 203.03813 -32.71811 0 0 M V30 9 C 213.36391 -26.75652 0 0 M V30 10 C 223.6897 -32.71811 0 0 M V30 11 C 234.01549 -26.75652 0 0 M V30 END ATOM M V30 BEGIN BOND M V30 1 2 1 2 M V30 2 1 2 3 M V30 3 2 3 4 M V30 4 1 4 5 M V30 5 2 5 6 M V30 6 1 6 1 M V30 7 1 5 7 M V30 8 1 7 8 M V30 9 1 8 9 M V30 10 1 9 10 M V30 11 1 10 11 M V30 END BOND M V30 END CTAB M END SQCZQTSHSZLZIQ-UHFFFAOYSA-N InChI=1S/C5H11Cl/c1-2-3-4-5-6/h2-5H2,1H3 CCCCCCl ClCCCCC |(48.19,-38.68,;58.52,-32.72,;68.85,-38.68,;79.17,-32.72,;89.5,-38.68,;99.82,-32.72,)| AuxInfo=1/0/N:6,5,4,3,2,1/rA:6nClCCCCC/rB:s1;s2;s3;s4;s5;/rC:48,1943,-38,6797,0;58,5201,-32,7181,0;68,8459,-38,6797,0;79,1717,-32,7181,0;89,4975,-38,6797,0;99,8233,-32,7181,0; C5H11Cl CDK 04212619522D 0 0 0 0 0 999 V3000 M V30 BEGIN CTAB M V30 COUNTS 6 5 0 0 0 M V30 BEGIN ATOM M V30 1 Cl 48.19434 -38.67972 0 0 M V30 2 C 58.52014 -32.71811 0 0 M V30 3 C 68.84593 -38.67972 0 0 M V30 4 C 79.17172 -32.71811 0 0 M V30 5 C 89.4975 -38.67972 0 0 M V30 6 C 99.82329 -32.71811 0 0 M V30 END ATOM M V30 BEGIN BOND M V30 1 1 1 2 M V30 2 1 2 3 M V30 3 1 3 4 M V30 4 1 4 5 M V30 5 1 5 6 M V30 END BOND M V30 END CTAB M END UHOVQNZJYSORNB-UHFFFAOYSA-N InChI=1S/C6H6/c1-2-4-6-5-3-1/h1-6H C1=CC=CC=C1 C1=CC=CC=C1 |(4,-32.72,;4,-44.64,;14.32,-50.6,;24.65,-44.64,;24.65,-32.72,;14.32,-26.76,)| AuxInfo=1/0/N:1,2,6,3,5,4/E:(1,2,3,4,5,6)/rA:6nCCCCCC/rB:d1;s2;d3;s4;s1d5;/rC:3,9984,-32,7181,0;3,9984,-44,6413,0;14,3242,-50,6029,0;24,6500,-44,6413,0;24,6500,-32,7181,0;14,3242,-26,7565,0; C6H6 CDK 04212619522D 0 0 0 0 0 999 V3000 M V30 BEGIN CTAB M V30 COUNTS 6 6 0 0 0 M V30 BEGIN ATOM M V30 1 C 3.9984 -32.71811 0 0 M V30 2 C 3.9984 -44.64131 0 0 M V30 3 C 14.3242 -50.60291 0 0 M V30 4 C 24.64998 -44.64131 0 0 M V30 5 C 24.64998 -32.71811 0 0 M V30 6 C 14.3242 -26.75652 0 0 M V30 END ATOM M V30 BEGIN BOND M V30 1 2 1 2 M V30 2 1 2 3 M V30 3 2 3 4 M V30 4 1 4 5 M V30 5 2 5 6 M V30 6 1 6 1 M V30 END BOND M V30 END CTAB M END GTLWADFFABIGAE-UHFFFAOYSA-N InChI=1S/C8H9Cl/c1-7(9)8-5-3-2-4-6-8/h2-7H,1H3 CC(C1=CC=CC=C1)Cl C1=CC=CC(=C1)C(Cl)C |(107.28,-24.4,;107.28,-36.05,;117.37,-41.87,;127.46,-36.05,;127.46,-24.4,;117.37,-18.57,;137.51,-18.59,;147.57,-24.4,;137.51,-6.98,)| AuxInfo=1/0/N:9,2,1,3,6,4,7,5,8/E:(3,4)(5,6)/rA:9nCCCCCCCClC/rB:d1;s2;d3;s4;s1d5;s5;s7;s7;/rC:107,2803,-24,3983,0;107,2803,-36,0479,0;117,3692,-41,8727,0;127,4580,-36,0479,0;127,4580,-24,3983,0;117,3692,-18,5735,0;137,5118,-18,5937,0;147,5657,-24,3983,0;137,5118,-6,9845,0; C8H9Cl C* Me CDK 04212619522D 0 0 0 0 0 999 V3000 M V30 BEGIN CTAB M V30 COUNTS 9 9 0 0 0 M V30 BEGIN ATOM M V30 1 C 107.28033 -24.39827 0 0 M V30 2 C 107.28033 -36.04787 0 0 M V30 3 C 117.36919 -41.87267 0 0 M V30 4 C 127.45802 -36.04787 0 0 M V30 5 C 127.45802 -24.39827 0 0 M V30 6 C 117.36919 -18.57347 0 0 M V30 7 C 137.51184 -18.59369 0 0 M V30 8 Cl 147.56566 -24.39827 0 0 M V30 9 C 137.51184 -6.98454 0 0 M V30 END ATOM M V30 BEGIN BOND M V30 1 2 1 2 M V30 2 1 2 3 M V30 3 2 3 4 M V30 4 1 4 5 M V30 5 2 5 6 M V30 6 1 6 1 M V30 7 1 5 7 M V30 8 1 7 8 M V30 9 1 7 9 M V30 END BOND M V30 END CTAB M END WAPNOHKVXSQRPX-UHFFFAOYSA-N InChI=1S/C8H10O/c1-7(9)8-5-3-2-4-6-8/h2-7,9H,1H3 CC(C1=CC=CC=C1)O C1=CC=CC(=C1)C(O)C |(2.31,-23.79,;2.31,-35.44,;12.4,-41.27,;22.49,-35.44,;22.49,-23.79,;12.4,-17.97,;32.54,-17.99,;42.6,-23.79,;32.54,-6.38,)| AuxInfo=1/0/N:9,2,1,3,6,4,7,5,8/E:(3,4)(5,6)/rA:9nCCCCCCCOC/rB:d1;s2;d3;s4;s1d5;s5;s7;s7;/rC:2,3126,-23,7915,0;2,3126,-35,4411,0;12,4014,-41,2659,0;22,4903,-35,4411,0;22,4903,-23,7915,0;12,4014,-17,9667,0;32,5441,-17,9870,0;42,5979,-23,7915,0;32,5441,-6,3778,0; C8H10O C* Me CDK 04212619522D 0 0 0 0 0 999 V3000 M V30 BEGIN CTAB M V30 COUNTS 9 9 0 0 0 M V30 BEGIN ATOM M V30 1 C 2.31259 -23.79152 0 0 M V30 2 C 2.31259 -35.44112 0 0 M V30 3 C 12.40143 -41.26591 0 0 M V30 4 C 22.49026 -35.44112 0 0 M V30 5 C 22.49026 -23.79152 0 0 M V30 6 C 12.40143 -17.96672 0 0 M V30 7 C 32.5441 -17.98695 0 0 M V30 8 O 42.59792 -23.79152 0 0 M V30 9 C 32.5441 -6.37779 0 0 M V30 END ATOM M V30 BEGIN BOND M V30 1 2 1 2 M V30 2 1 2 3 M V30 3 2 3 4 M V30 4 1 4 5 M V30 5 2 5 6 M V30 6 1 6 1 M V30 7 1 5 7 M V30 8 1 7 8 M V30 9 1 7 9 M V30 END BOND M V30 END CTAB M END AKXKFZDCRYJKTF-UHFFFAOYSA-N InChI=1S/C3H6O2/c4-2-1-3-5/h2,5H,1,3H2 C(C([H])=O)CO [H]C(CCO)=O |(224.05,-111.06,;234.44,-105.06,;244.83,-111.06,;255.22,-105.06,;265.6,-111.06,;234.44,-93.07,)| AuxInfo=1/0/N:3,2,5,4,6/rA:6nHCCOCO/rB:s1;s2;d2;s3;s5;/rC:224,0517,-111,0579,0;234,4398,-105,0603,0;244,8279,-111,0579,0;234,4398,-93,0651,0;255,2161,-105,0603,0;265,6042,-111,0579,0; C3H6O2 CDK 04212619522D 0 0 0 0 0 999 V3000 M V30 BEGIN CTAB M V30 COUNTS 6 5 0 0 0 M V30 BEGIN ATOM M V30 1 C 234.43977 -105.06029 0 0 M V30 2 C 244.82793 -111.05789 0 0 M V30 3 O 234.43977 -93.06509 0 0 M V30 4 C 255.21606 -105.06029 0 0 M V30 5 O 265.60419 -111.05789 0 0 M V30 6 H 224.05165 -111.05789 0 0 M V30 END ATOM M V30 BEGIN BOND M V30 1 1 6 1 M V30 2 1 1 2 M V30 3 2 1 3 M V30 4 1 2 4 M V30 5 1 4 5 M V30 END BOND M V30 END CTAB M END CHGKSCYAKZDINK-UHFFFAOYSA-N InChI=1S/C14H14O2/c1-10-3-4-12(7-11(10)2)8-13-5-6-14(9-15)16-13/h3-7,9H,8H2,1-2H3 CC1=CC=C(C=C1C)CC2=CC=C(C=O)O2 C1(=C(C=CC(=C1)CC=2OC(=CC2)C=O)C)C |(339.88,-86.27,;339.88,-97.93,;349.98,-103.76,;360.08,-97.93,;360.08,-86.27,;349.98,-80.44,;370.18,-80.44,;380.28,-86.27,;381.5,-97.87,;392.91,-100.29,;398.74,-90.19,;390.94,-81.52,;397.64,-110.91,;390.81,-120.32,;329.77,-103.76,;329.77,-80.44,)| AuxInfo=1/0/N:8,7,3,4,14,13,6,9,15,2,1,5,10,12,16,11/rA:16nCCCCCCCCCCOCCCCO/rB:d1;s2;d3;s4;s1d5;s1;s2;s5;s9;s10;s11;d12;d10s13;s12;d15;/rC:339,8759,-86,2688,0;339,8759,-97,9328,0;349,9772,-103,7648,0;360,0786,-97,9328,0;360,0786,-86,2688,0;349,9772,-80,4368,0;329,7746,-80,4368,0;329,7746,-103,7648,0;370,1798,-80,4368,0;380,2812,-86,2688,0;381,5004,-97,8689,0;392,9095,-100,2940,0;398,7415,-90,1927,0;390,9368,-81,5247,0;397,6372,-110,9126,0;390,8051,-120,3162,0; C14H14O2 C* Me,C(=O)* CHO CDK 04212619522D 0 0 0 0 0 999 V3000 M V30 BEGIN CTAB M V30 COUNTS 16 17 0 0 0 M V30 BEGIN ATOM M V30 1 C 339.87592 -86.26883 0 0 M V30 2 C 339.87592 -97.93283 0 0 M V30 3 C 349.97723 -103.76482 0 0 M V30 4 C 360.07855 -97.93283 0 0 M V30 5 C 360.07855 -86.26883 0 0 M V30 6 C 349.97723 -80.43683 0 0 M V30 7 C 329.7746 -80.43683 0 0 M V30 8 C 329.7746 -103.76482 0 0 M V30 9 C 370.17984 -80.43683 0 0 M V30 10 C 380.28116 -86.26883 0 0 M V30 11 O 381.50037 -97.86893 0 0 M V30 12 C 392.90948 -100.29401 0 0 M V30 13 C 398.74146 -90.19269 0 0 M V30 14 C 390.93677 -81.52466 0 0 M V30 15 C 397.63721 -110.91258 0 0 M V30 16 O 390.80508 -120.31621 0 0 M V30 END ATOM M V30 BEGIN BOND M V30 1 2 1 2 M V30 2 1 2 3 M V30 3 2 3 4 M V30 4 1 4 5 M V30 5 2 5 6 M V30 6 1 6 1 M V30 7 1 1 7 M V30 8 1 2 8 M V30 9 1 5 9 M V30 10 1 9 10 M V30 11 1 10 11 M V30 12 1 11 12 M V30 13 2 12 13 M V30 14 1 13 14 M V30 15 2 14 10 M V30 16 2 15 16 M V30 17 1 12 15 M V30 END BOND M V30 END CTAB M END CTQNGGLPUBDAKN-UHFFFAOYSA-N InChI=1S/C8H10/c1-7-5-3-4-6-8(7)2/h3-6H,1-2H3 CC1=C(C)C=CC=C1 C1(=C(C=CC=C1)C)C |(103.87,-25.55,;103.87,-37.21,;113.97,-43.04,;124.07,-37.21,;124.07,-25.55,;113.97,-19.72,;93.77,-43.04,;93.77,-19.72,)| AuxInfo=1/0/N:7,8,5,4,6,3,1,2/E:(1,2)(3,4)(5,6)(7,8)/rA:8nCCCCCCCC/rB:d1;s2;d3;s4;s1d5;s1;s2;/rC:103,8712,-25,5488,0;103,8712,-37,2128,0;113,9725,-43,0448,0;124,0738,-37,2128,0;124,0738,-25,5488,0;113,9725,-19,7168,0;93,7699,-19,7168,0;93,7699,-43,0448,0; C8H10 C* Me CDK 04212619522D 0 0 0 0 0 999 V3000 M V30 BEGIN CTAB M V30 COUNTS 8 8 0 0 0 M V30 BEGIN ATOM M V30 1 C 103.8712 -25.54883 0 0 M V30 2 C 103.8712 -37.21283 0 0 M V30 3 C 113.9725 -43.04483 0 0 M V30 4 C 124.07382 -37.21283 0 0 M V30 5 C 124.07382 -25.54883 0 0 M V30 6 C 113.9725 -19.71683 0 0 M V30 7 C 93.76987 -19.71683 0 0 M V30 8 C 93.76987 -43.04483 0 0 M V30 END ATOM M V30 BEGIN BOND M V30 1 2 1 2 M V30 2 1 2 3 M V30 3 2 3 4 M V30 4 1 4 5 M V30 5 2 5 6 M V30 6 1 6 1 M V30 7 1 1 7 M V30 8 1 2 8 M V30 END BOND M V30 END CTAB M END IWSSFULMLQTJFO-UHFFFAOYSA-N InChI=1S/C15H16/c1-12-8-9-15(10-13(12)2)11-14-6-4-3-5-7-14/h3-10H,11H2,1-2H3 CC1=CC=C(C=C1C)CC2=CC=CC=C2 C1(=C(C=CC(=C1)CC2=CC=CC=C2)C)C |(46.45,-86.27,;46.45,-97.93,;56.55,-103.76,;66.66,-97.93,;66.66,-86.27,;56.55,-80.44,;76.76,-80.44,;86.86,-86.27,;86.86,-97.92,;96.95,-103.74,;107.04,-97.92,;107.04,-86.27,;96.95,-80.44,;36.35,-103.76,;36.35,-80.44,)| AuxInfo=1/0/N:8,7,13,12,14,11,15,3,4,6,9,2,1,10,5/E:(4,5)(6,7)/rA:15nCCCCCCCCCCCCCCC/rB:d1;s2;d3;s4;s1d5;s1;s2;s5;s9;d10;s11;d12;s13;s10d14;/rC:46,4534,-86,2688,0;46,4534,-97,9328,0;56,5547,-103,7648,0;66,6560,-97,9328,0;66,6560,-86,2688,0;56,5547,-80,4368,0;36,3521,-80,4368,0;36,3521,-103,7648,0;76,7573,-80,4368,0;86,8587,-86,2688,0;86,8587,-97,9188,0;96,9479,-103,7438,0;107,0370,-97,9188,0;107,0370,-86,2688,0;96,9479,-80,4438,0; C15H16 C1=CC=C(C=C1)* Ph,C* Me CDK 04212619522D 0 0 0 0 0 999 V3000 M V30 BEGIN CTAB M V30 COUNTS 15 16 0 0 0 M V30 BEGIN ATOM M V30 1 C 46.45341 -86.26883 0 0 M V30 2 C 46.45341 -97.93283 0 0 M V30 3 C 56.55472 -103.76482 0 0 M V30 4 C 66.65604 -97.93283 0 0 M V30 5 C 66.65604 -86.26883 0 0 M V30 6 C 56.55472 -80.43683 0 0 M V30 7 C 36.35208 -80.43683 0 0 M V30 8 C 36.35208 -103.76482 0 0 M V30 9 C 76.75734 -80.43683 0 0 M V30 10 C 86.85866 -86.26883 0 0 M V30 11 C 86.85866 -97.91882 0 0 M V30 12 C 96.94786 -103.74384 0 0 M V30 13 C 107.03705 -97.91882 0 0 M V30 14 C 107.03705 -86.26883 0 0 M V30 15 C 96.94786 -80.44383 0 0 M V30 END ATOM M V30 BEGIN BOND M V30 1 2 1 2 M V30 2 1 2 3 M V30 3 2 3 4 M V30 4 1 4 5 M V30 5 2 5 6 M V30 6 1 6 1 M V30 7 1 1 7 M V30 8 1 2 8 M V30 9 1 5 9 M V30 10 2 10 11 M V30 11 1 11 12 M V30 12 2 12 13 M V30 13 1 13 14 M V30 14 2 14 15 M V30 15 1 10 15 M V30 16 1 9 10 M V30 END BOND M V30 END CTAB M END JQDGLGMNBGTNSU-UHFFFAOYSA-N InChI=1S/C19H22O2/c1-4-21-19(20)13-18(16-8-6-5-7-9-16)17-11-10-14(2)15(3)12-17/h5-12,18H,4,13H2,1-3H3 CCOC(=O)CC(C1=CC=CC=C1)C2=CC=C(C)C(=C2)C C1(=C(C=CC(=C1)C(C2=CC=CC=C2)CC(=O)OCC)C)C |(186.18,-86.27,;186.18,-97.93,;196.28,-103.76,;206.38,-97.93,;206.38,-86.27,;196.28,-80.44,;216.48,-80.44,;226.58,-86.27,;226.58,-97.92,;236.67,-103.74,;246.76,-97.92,;246.76,-86.27,;236.67,-80.44,;216.48,-68.81,;206.38,-62.98,;212.19,-52.92,;196.31,-57.17,;196.31,-45.55,;186.25,-39.73,;176.08,-103.76,;176.08,-80.44,)| AuxInfo=1/0/N:20,8,7,21,13,12,14,11,15,3,4,6,16,2,1,10,5,9,17,18,19/E:(6,7)(8,9)/rA:21nCCCCCCCCCCCCCCCCCOOCC/rB:d1;s2;d3;s4;s1d5;s1;s2;s5;s9;d10;s11;d12;s13;s10d14;s9;s16;d17;s17;;s19s20;/rC:186,1784,-86,2688,0;186,1784,-97,9328,0;196,2797,-103,7648,0;206,3810,-97,9328,0;206,3810,-86,2688,0;196,2797,-80,4368,0;176,0771,-80,4368,0;176,0771,-103,7648,0;216,4823,-80,4368,0;226,5837,-86,2688,0;226,5837,-97,9188,0;236,6729,-103,7438,0;246,7621,-97,9188,0;246,7621,-86,2688,0;236,6729,-80,4438,0;216,4823,-68,8133,0;206,3810,-62,9813,0;212,1928,-52,9151,0;196,3148,-57,1696,0;186,2485,-39,7343,0;196,3148,-45,5461,0; C19H22O2 C1=CC=C(C=C1)* Ph,C* Me,CCOC(=O)* CO2Et CDK 04212619522D 0 0 0 0 0 999 V3000 M V30 BEGIN CTAB M V30 COUNTS 21 22 0 0 0 M V30 BEGIN ATOM M V30 1 C 186.17841 -86.26883 0 0 M V30 2 C 186.17841 -97.93283 0 0 M V30 3 C 196.27972 -103.76482 0 0 M V30 4 C 206.38104 -97.93283 0 0 M V30 5 C 206.38104 -86.26883 0 0 M V30 6 C 196.27972 -80.43683 0 0 M V30 7 C 176.07707 -80.43683 0 0 M V30 8 C 176.07707 -103.76482 0 0 M V30 9 C 216.48235 -80.43683 0 0 M V30 10 C 226.58366 -86.26883 0 0 M V30 11 C 226.58366 -97.91882 0 0 M V30 12 C 236.67287 -103.74384 0 0 M V30 13 C 246.76205 -97.91882 0 0 M V30 14 C 246.76205 -86.26883 0 0 M V30 15 C 236.67285 -80.44383 0 0 M V30 16 C 216.48233 -68.81332 0 0 M V30 17 C 206.38101 -62.98132 0 0 M V30 18 O 212.19276 -52.91507 0 0 M V30 19 O 196.31476 -57.16957 0 0 M V30 20 C 186.24852 -39.73431 0 0 M V30 21 C 196.31476 -45.54607 0 0 M V30 END ATOM M V30 BEGIN BOND M V30 1 2 1 2 M V30 2 1 2 3 M V30 3 2 3 4 M V30 4 1 4 5 M V30 5 2 5 6 M V30 6 1 6 1 M V30 7 1 1 7 M V30 8 1 2 8 M V30 9 1 5 9 M V30 10 2 10 11 M V30 11 1 11 12 M V30 12 2 12 13 M V30 13 1 13 14 M V30 14 2 14 15 M V30 15 1 10 15 M V30 16 1 9 10 M V30 17 1 9 16 M V30 18 2 17 18 M V30 19 1 17 19 M V30 20 1 19 21 M V30 21 1 20 21 M V30 22 1 16 17 M V30 END BOND M V30 END CTAB M END LGNRECUJMPJQII-UHFFFAOYSA-N InChI=1S/C13H14S/c1-10-5-6-12(8-11(10)2)9-13-4-3-7-14-13/h3-8H,9H2,1-2H3 CC1=CC=C(C=C1C)CC2=CC=CS2 C1(=C(C=CC(=C1)CC=2SC=CC2)C)C |(255.43,-86.27,;255.43,-97.93,;265.53,-103.76,;275.64,-97.93,;275.64,-86.27,;265.53,-80.44,;285.74,-80.44,;295.84,-86.27,;297.06,-97.87,;308.47,-100.29,;314.3,-90.19,;306.49,-81.52,;245.33,-103.76,;245.33,-80.44,)| AuxInfo=1/0/N:8,7,13,14,3,4,12,6,9,2,1,5,10,11/rA:14nCCCCCCCCCCSCCC/rB:d1;s2;d3;s4;s1d5;s1;s2;s5;s9;s10;s11;d12;d10s13;/rC:255,4334,-86,2688,0;255,4334,-97,9328,0;265,5347,-103,7648,0;275,6360,-97,9328,0;275,6360,-86,2688,0;265,5347,-80,4368,0;245,3321,-80,4368,0;245,3321,-103,7648,0;285,7373,-80,4368,0;295,8387,-86,2688,0;297,0579,-97,8689,0;308,4670,-100,2940,0;314,2990,-90,1927,0;306,4943,-81,5247,0; C13H14S C* Me CDK 04212619522D 0 0 0 0 0 999 V3000 M V30 BEGIN CTAB M V30 COUNTS 14 15 0 0 0 M V30 BEGIN ATOM M V30 1 C 255.43341 -86.26883 0 0 M V30 2 C 255.43341 -97.93283 0 0 M V30 3 C 265.53473 -103.76482 0 0 M V30 4 C 275.63605 -97.93283 0 0 M V30 5 C 275.63605 -86.26883 0 0 M V30 6 C 265.53473 -80.43683 0 0 M V30 7 C 245.33208 -80.43683 0 0 M V30 8 C 245.33208 -103.76482 0 0 M V30 9 C 285.73734 -80.43683 0 0 M V30 10 C 295.83868 -86.26883 0 0 M V30 11 S 297.05786 -97.86893 0 0 M V30 12 C 308.46698 -100.29401 0 0 M V30 13 C 314.29898 -90.19269 0 0 M V30 14 C 306.49426 -81.52466 0 0 M V30 END ATOM M V30 BEGIN BOND M V30 1 2 1 2 M V30 2 1 2 3 M V30 3 2 3 4 M V30 4 1 4 5 M V30 5 2 5 6 M V30 6 1 6 1 M V30 7 1 1 7 M V30 8 1 2 8 M V30 9 1 5 9 M V30 10 1 9 10 M V30 11 1 10 11 M V30 12 1 11 12 M V30 13 2 12 13 M V30 14 1 13 14 M V30 15 2 14 10 M V30 END BOND M V30 END CTAB M END VIDPFDPVOPLNIM-UHFFFAOYSA-N InChI=1S/C16H15N/c1-12-8-9-15(10-13(12)2)16(11-17)14-6-4-3-5-7-14/h3-10,16H,1-2H3 CC1=CC=C(C=C1C)C(C#N)C2=CC=CC=C2 C1(=C(C=CC(=C1)C(C2=CC=CC=C2)C#N)C)C |(115.71,-86.27,;115.71,-97.93,;125.81,-103.76,;135.91,-97.93,;135.91,-86.27,;125.81,-80.44,;146.01,-80.44,;156.11,-86.27,;156.11,-97.92,;166.2,-103.74,;176.29,-97.92,;176.29,-86.27,;166.2,-80.44,;146.01,-68.81,;146.01,-57.19,;105.61,-103.76,;105.61,-80.44,)| AuxInfo=1/0/N:8,7,13,12,14,11,15,3,4,6,16,2,1,10,5,9,17/E:(4,5)(6,7)/rA:17nCCCCCCCCCCCCCCCCN/rB:d1;s2;d3;s4;s1d5;s1;s2;s5;s9;d10;s11;d12;s13;s10d14;s9;t16;/rC:115,7084,-86,2688,0;115,7084,-97,9328,0;125,8097,-103,7648,0;135,9110,-97,9328,0;135,9110,-86,2688,0;125,8097,-80,4368,0;105,6071,-80,4368,0;105,6071,-103,7648,0;146,0123,-80,4368,0;156,1137,-86,2688,0;156,1137,-97,9188,0;166,2029,-103,7438,0;176,2921,-97,9188,0;176,2921,-86,2688,0;166,2029,-80,4438,0;146,0123,-68,8133,0;146,0123,-57,1898,0; C16H15N C1=CC=C(C=C1)* Ph,C* Me,C(#N)* CN CDK 04212619522D 0 0 0 0 0 999 V3000 M V30 BEGIN CTAB M V30 COUNTS 17 18 0 0 0 M V30 BEGIN ATOM M V30 1 C 115.7084 -86.26883 0 0 M V30 2 C 115.7084 -97.93283 0 0 M V30 3 C 125.80972 -103.76482 0 0 M V30 4 C 135.91104 -97.93283 0 0 M V30 5 C 135.91104 -86.26883 0 0 M V30 6 C 125.80972 -80.43683 0 0 M V30 7 C 105.60709 -80.43683 0 0 M V30 8 C 105.60709 -103.76482 0 0 M V30 9 C 146.01234 -80.43683 0 0 M V30 10 C 156.11366 -86.26883 0 0 M V30 11 C 156.11366 -97.91882 0 0 M V30 12 C 166.20287 -103.74384 0 0 M V30 13 C 176.29205 -97.91882 0 0 M V30 14 C 176.29205 -86.26883 0 0 M V30 15 C 166.20285 -80.44383 0 0 M V30 16 C 146.01233 -68.81332 0 0 M V30 17 N 146.01233 -57.18982 0 0 M V30 END ATOM M V30 BEGIN BOND M V30 1 2 1 2 M V30 2 1 2 3 M V30 3 2 3 4 M V30 4 1 4 5 M V30 5 2 5 6 M V30 6 1 6 1 M V30 7 1 1 7 M V30 8 1 2 8 M V30 9 1 5 9 M V30 10 2 10 11 M V30 11 1 11 12 M V30 12 2 12 13 M V30 13 1 13 14 M V30 14 2 14 15 M V30 15 1 10 15 M V30 16 1 9 10 M V30 17 3 16 17 M V30 18 1 9 16 M V30 END BOND M V30 END CTAB M END MAGQINDMZBNWLG-UHFFFAOYSA-N InChI=1S/C9H9ClO2/c1-7(11)12-6-8-2-4-9(10)5-3-8/h2-5H,6H2,1H3 CC(=O)OCC1=CC=C(C=C1)Cl C1=C(C=CC(=C1)COC(=O)C)Cl |(49.71,-52.17,;49.71,-63.75,;59.74,-69.53,;69.76,-63.75,;69.76,-52.17,;59.74,-46.38,;79.76,-46.4,;89.75,-52.17,;89.75,-63.71,;99.74,-69.47,;79.76,-69.47,;39.72,-69.51,)| AuxInfo=1/0/N:12,4,6,3,1,8,11,5,2,7,10,9/E:(2,3)(4,5)/rA:12nCCCCCCClCOOCC/rB:d1;s2;d3;s4;s1d5;s2;s5;s8;;s9d10;s11;/rC:49,7115,-52,1680,0;49,7115,-63,7456,0;59,7380,-69,5344,0;69,7645,-63,7456,0;69,7645,-52,1680,0;59,7380,-46,3792,0;39,7198,-69,5143,0;79,7562,-46,3993,0;89,7479,-52,1680,0;99,7395,-69,4741,0;89,7479,-63,7054,0;79,7562,-69,4741,0; C9H9ClO2 CC(=O)O* OAc CDK 04212619522D 0 0 0 0 0 999 V3000 M V30 BEGIN CTAB M V30 COUNTS 12 12 0 0 0 M V30 BEGIN ATOM M V30 1 C 49.71152 -52.16798 0 0 M V30 2 C 49.71152 -63.74559 0 0 M V30 3 C 59.73801 -69.53438 0 0 M V30 4 C 69.7645 -63.74559 0 0 M V30 5 C 69.7645 -52.16798 0 0 M V30 6 C 59.73801 -46.3792 0 0 M V30 7 Cl 39.71983 -69.51428 0 0 M V30 8 C 79.75618 -46.39929 0 0 M V30 9 O 89.74786 -52.16798 0 0 M V30 10 O 99.73953 -69.47409 0 0 M V30 11 C 89.74786 -63.70538 0 0 M V30 12 C 79.75618 -69.47409 0 0 M V30 END ATOM M V30 BEGIN BOND M V30 1 2 1 2 M V30 2 1 2 3 M V30 3 2 3 4 M V30 4 1 4 5 M V30 5 2 5 6 M V30 6 1 6 1 M V30 7 1 2 7 M V30 8 1 5 8 M V30 9 1 9 11 M V30 10 2 10 11 M V30 11 1 11 12 M V30 12 1 8 9 M V30 END BOND M V30 END CTAB M END XODFNGVRVLEWJI-UHFFFAOYSA-N InChI=1S/C13H18O3/c1-4-13(3,12(14)15-5-2)16-11-9-7-6-8-10-11/h6-10H,4-5H2,1-3H3 CCC(C)(C(=O)OCC)OC1=CC=CC=C1 C1=CC=C(C=C1)OC(C(=O)OCC)(C)CC |(113.63,-52.17,;113.63,-63.75,;123.66,-69.53,;133.68,-63.75,;133.68,-52.17,;123.66,-46.38,;143.67,-69.51,;153.67,-63.75,;163.66,-69.51,;173.65,-63.75,;163.66,-81.05,;173.65,-86.82,;183.64,-81.05,;147.88,-53.72,;159.45,-53.72,;153.68,-43.72,)| AuxInfo=1/0/N:15,12,14,16,13,1,2,6,3,5,4,9,8,10,11,7/E:(7,8)(9,10)/rA:16nCCCCCCOCCOOCCCCC/rB:d1;s2;d3;s4;s1d5;s4;s7;s8;d9;s9;;s11s12;s8;;s8s15;/rC:113,6295,-52,1680,0;113,6295,-63,7456,0;123,6560,-69,5344,0;133,6825,-63,7456,0;133,6825,-52,1680,0;123,6560,-46,3792,0;143,6742,-69,5143,0;153,6659,-63,7456,0;163,6575,-69,5143,0;173,6492,-63,7456,0;163,6575,-81,0517,0;183,6409,-81,0517,0;173,6492,-86,8204,0;147,8771,-53,7191,0;153,6797,-43,7165,0;159,4547,-53,7191,0; C13H18O3 C* Me,CC* Et,CCOC(=O)* CO2Et CDK 04212619522D 0 0 0 0 0 999 V3000 M V30 BEGIN CTAB M V30 COUNTS 16 16 0 0 0 M V30 BEGIN ATOM M V30 1 C 113.62952 -52.16798 0 0 M V30 2 C 113.62952 -63.74559 0 0 M V30 3 C 123.65601 -69.53438 0 0 M V30 4 C 133.6825 -63.74559 0 0 M V30 5 C 133.6825 -52.16798 0 0 M V30 6 C 123.65601 -46.3792 0 0 M V30 7 O 143.67418 -69.51428 0 0 M V30 8 C 153.66586 -63.74559 0 0 M V30 9 C 163.65753 -69.51428 0 0 M V30 10 O 173.64923 -63.74559 0 0 M V30 11 O 163.65753 -81.05168 0 0 M V30 12 C 183.6409 -81.05168 0 0 M V30 13 C 173.64923 -86.82039 0 0 M V30 14 C 147.87706 -53.71909 0 0 M V30 15 C 153.67966 -43.71649 0 0 M V30 16 C 159.45465 -53.71909 0 0 M V30 END ATOM M V30 BEGIN BOND M V30 1 2 1 2 M V30 2 1 2 3 M V30 3 2 3 4 M V30 4 1 4 5 M V30 5 2 5 6 M V30 6 1 6 1 M V30 7 1 4 7 M V30 8 1 7 8 M V30 9 2 9 10 M V30 10 1 9 11 M V30 11 1 11 13 M V30 12 1 12 13 M V30 13 1 8 9 M V30 14 1 8 14 M V30 15 1 15 16 M V30 16 1 8 16 M V30 END BOND M V30 END CTAB M END DQDAYGNAKTZFIW-UHFFFAOYSA-N InChI=1S/C18H16O3/c1-2-13(12-8-4-3-5-9-12)16-17(19)14-10-6-7-11-15(14)21-18(16)20/h3-11,13,19H,2H2,1H3 CCC(C1=CC=CC=C1)C2=C(C3=C(C=CC=C3)OC2=O)O C1=CC=C2C(=C1)C(=C(C(O2)=O)C(CC)C3=CC=CC=C3)O |(165.06,-54.54,;165.06,-66.38,;175.31,-72.3,;185.56,-66.38,;185.56,-54.54,;175.31,-48.62,;195.81,-48.62,;206.06,-54.54,;206.06,-66.38,;195.81,-72.3,;216.28,-72.28,;216.28,-48.65,;216.28,-36.85,;226.5,-30.95,;226.5,-54.54,;226.5,-66.34,;236.71,-72.24,;246.93,-66.34,;246.93,-54.54,;236.71,-48.64,;195.81,-36.83,)| AuxInfo=1/0/N:21,14,18,17,19,1,2,16,20,6,3,15,13,5,4,9,10,8,12,11,7/E:(4,5)(8,9)/rA:21nCCCCCCOCCCOOCCCCCCCCC/rB:d1;s2;d3;s4;s1d5;s4;s7;s8;s5d9;d8;s10;s9;s13;s13;d15;s16;d17;s18;s15d19;s14;/rC:165,0606,-54,5429,0;165,0606,-66,3797,0;175,3116,-72,2981,0;185,5625,-66,3797,0;185,5625,-54,5429,0;175,3116,-48,6245,0;195,8135,-72,2981,0;206,0645,-66,3797,0;206,0645,-54,5429,0;195,8135,-48,6245,0;216,2798,-72,2776,0;195,8135,-36,8288,0;216,2798,-48,6451,0;216,2798,-36,8494,0;226,4952,-54,5429,0;226,4952,-66,3429,0;236,7143,-72,2429,0;246,9334,-66,3429,0;246,9334,-54,5429,0;236,7143,-48,6429,0;226,4952,-30,9515,0; C18H16O3 C1=CC=C(C=C1)* Ph,C* Me CDK 04212619522D 0 0 0 0 0 999 V3000 M V30 BEGIN CTAB M V30 COUNTS 21 23 0 0 0 M V30 BEGIN ATOM M V30 1 C 165.06061 -54.54292 0 0 M V30 2 C 165.06061 -66.37971 0 0 M V30 3 C 175.31157 -72.29811 0 0 M V30 4 C 185.56253 -66.37971 0 0 M V30 5 C 185.56253 -54.54292 0 0 M V30 6 C 175.31157 -48.62453 0 0 M V30 7 O 195.81349 -72.29811 0 0 M V30 8 C 206.06447 -66.37971 0 0 M V30 9 C 206.06447 -54.54292 0 0 M V30 10 C 195.81349 -48.62453 0 0 M V30 11 O 216.27983 -72.27756 0 0 M V30 12 O 195.81349 -36.82883 0 0 M V30 13 C 216.27983 -48.64507 0 0 M V30 14 C 216.27983 -36.84937 0 0 M V30 15 C 226.49521 -54.54291 0 0 M V30 16 C 226.49521 -66.34291 0 0 M V30 17 C 236.71432 -72.2429 0 0 M V30 18 C 246.93341 -66.3429 0 0 M V30 19 C 246.93341 -54.54289 0 0 M V30 20 C 236.71431 -48.6429 0 0 M V30 21 C 226.49521 -30.95151 0 0 M V30 END ATOM M V30 BEGIN BOND M V30 1 2 1 2 M V30 2 1 2 3 M V30 3 2 3 4 M V30 4 1 4 5 M V30 5 2 5 6 M V30 6 1 6 1 M V30 7 1 4 7 M V30 8 1 7 8 M V30 9 1 8 9 M V30 10 2 9 10 M V30 11 1 10 5 M V30 12 2 8 11 M V30 13 1 10 12 M V30 14 1 9 13 M V30 15 1 13 14 M V30 16 2 15 16 M V30 17 1 16 17 M V30 18 2 17 18 M V30 19 1 18 19 M V30 20 2 19 20 M V30 21 1 15 20 M V30 22 1 13 15 M V30 23 1 14 21 M V30 END BOND M V30 END CTAB M END DYUQAZSOFZSPHD-UHFFFAOYSA-N InChI=1S/C9H12O/c1-2-9(10)8-6-4-3-5-7-8/h3-7,9-10H,2H2,1H3 CCC(C1=CC=CC=C1)O OC(C1=CC=CC=C1)CC |(71.14,-72.09,;81.39,-66.17,;91.61,-72.07,;91.61,-83.87,;101.83,-89.77,;112.05,-83.87,;112.05,-72.07,;101.83,-66.17,;81.39,-54.38,;91.61,-48.48,)| AuxInfo=1/0/N:10,9,6,5,7,4,8,3,2,1/E:(4,5)(6,7)/rA:10nOCCCCCCCCC/rB:s1;s2;d3;s4;d5;s6;s3d7;s2;s9;/rC:71,1426,-72,0923,0;81,3935,-66,1739,0;91,6089,-72,0718,0;91,6089,-83,8718,0;101,8280,-89,7718,0;112,0471,-83,8717,0;112,0471,-72,0717,0;101,8280,-66,1718,0;81,3935,-54,3782,0;91,6089,-48,4804,0; C9H12O C1=CC=C(C=C1)* Ph,C* Me CDK 04212619522D 0 0 0 0 0 999 V3000 M V30 BEGIN CTAB M V30 COUNTS 10 10 0 0 0 M V30 BEGIN ATOM M V30 1 O 71.14258 -72.09232 0 0 M V30 2 C 81.39352 -66.17392 0 0 M V30 3 C 91.60892 -72.07176 0 0 M V30 4 C 91.60893 -83.87177 0 0 M V30 5 C 101.82803 -89.77176 0 0 M V30 6 C 112.04712 -83.87173 0 0 M V30 7 C 112.04712 -72.07175 0 0 M V30 8 C 101.828 -66.17175 0 0 M V30 9 C 81.39352 -54.37822 0 0 M V30 10 C 91.60892 -48.48036 0 0 M V30 END ATOM M V30 BEGIN BOND M V30 1 1 1 2 M V30 2 2 3 4 M V30 3 1 4 5 M V30 4 2 5 6 M V30 5 1 6 7 M V30 6 2 7 8 M V30 7 1 3 8 M V30 8 1 2 3 M V30 9 1 2 9 M V30 10 1 9 10 M V30 END BOND M V30 END CTAB M END VXIXUWQIVKSKSA-UHFFFAOYSA-N InChI=1S/C9H6O3/c10-7-5-9(11)12-8-4-2-1-3-6(7)8/h1-5,10H C1=CC2=C(C=C1)OC(=O)C=C2O C1=CC=C2C(=C1)C(=CC(O2)=O)O |(0.25,-53.79,;0.25,-65.63,;10.5,-71.55,;20.75,-65.63,;20.75,-53.79,;10.5,-47.87,;31,-47.87,;41.25,-53.79,;41.25,-65.63,;31,-71.55,;51.47,-71.53,;31,-36.08,)| AuxInfo=1/0/N:1,2,6,3,9,5,10,4,8,12,11,7/rA:12nCCCCCCOCCCOO/rB:d1;s2;d3;s4;s1d5;s4;s7;s8;s5d9;d8;s10;/rC:,2466,-53,7929,0;,2466,-65,6297,0;10,4976,-71,5481,0;20,7485,-65,6297,0;20,7485,-53,7929,0;10,4976,-47,8745,0;30,9995,-71,5481,0;41,2505,-65,6297,0;41,2505,-53,7929,0;30,9995,-47,8745,0;51,4658,-71,5276,0;30,9995,-36,0788,0; C9H6O3 CDK 04212619522D 0 0 0 0 0 999 V3000 M V30 BEGIN CTAB M V30 COUNTS 12 13 0 0 0 M V30 BEGIN ATOM M V30 1 C 0.2466 -53.79292 0 0 M V30 2 C 0.2466 -65.62971 0 0 M V30 3 C 10.49757 -71.54811 0 0 M V30 4 C 20.74854 -65.62971 0 0 M V30 5 C 20.74854 -53.79292 0 0 M V30 6 C 10.49757 -47.87453 0 0 M V30 7 O 30.9995 -71.54811 0 0 M V30 8 C 41.25046 -65.62971 0 0 M V30 9 C 41.25046 -53.79292 0 0 M V30 10 C 30.9995 -47.87453 0 0 M V30 11 O 51.46584 -71.52756 0 0 M V30 12 O 30.9995 -36.07883 0 0 M V30 END ATOM M V30 BEGIN BOND M V30 1 2 1 2 M V30 2 1 2 3 M V30 3 2 3 4 M V30 4 1 4 5 M V30 5 2 5 6 M V30 6 1 6 1 M V30 7 1 4 7 M V30 8 1 7 8 M V30 9 1 8 9 M V30 10 2 9 10 M V30 11 1 10 5 M V30 12 2 8 11 M V30 13 1 10 12 M V30 END BOND M V30 END CTAB M END COKXHQZECAFVPL-UHFFFAOYSA-N InChI=1S/C13H14S/c1-10-8-9-13(14-10)11(2)12-6-4-3-5-7-12/h3-9,11H,1-2H3 CC1=CC=C(C(C)C2=CC=CC=C2)S1 C1(=CC=C(S1)C)C(C2=CC=CC=C2)C |(324.68,-81.97,;320.95,-70.78,;309.15,-70.88,;305.6,-82.12,;315.2,-88.98,;294.42,-85.86,;335.89,-85.51,;338.43,-96.98,;329.76,-104.92,;332.3,-116.4,;343.5,-119.94,;352.17,-112,;349.63,-100.53,;344.56,-77.57,)| AuxInfo=1/0/N:13,14,10,9,11,8,12,3,2,4,6,7,1,5/E:(4,5)(6,7)/rA:14nCCCCSCCCCCCCCC/rB:d1;s2;d3;s1s4;s1;s6;d7;s8;d9;s10;s7d11;s4;s6;/rC:324,6833,-81,9677,0;320,9474,-70,7815,0;309,1542,-70,8777,0;305,6015,-82,1235,0;315,1990,-88,9775,0;335,8908,-85,5084,0;338,4283,-96,9847,0;329,7588,-104,9198,0;332,2961,-116,3953,0;343,5028,-119,9357,0;352,1722,-112,0006,0;349,6349,-100,5251,0;294,4204,-85,8576,0;344,5609,-77,5728,0; C13H14S C1=CC=C(C=C1)* Ph CDK 04212619522D 0 0 0 0 0 999 V3000 M V30 BEGIN CTAB M V30 COUNTS 14 15 0 0 0 M V30 BEGIN ATOM M V30 1 C 324.68332 -81.96771 0 0 M V30 2 C 320.94745 -70.78148 0 0 M V30 3 C 309.15424 -70.87772 0 0 M V30 4 C 305.6015 -82.1235 0 0 M V30 5 S 315.19901 -88.97749 0 0 M V30 6 C 335.89081 -85.50839 0 0 M V30 7 C 338.42828 -96.98468 0 0 M V30 8 C 329.75882 -104.91975 0 0 M V30 9 C 332.29608 -116.39526 0 0 M V30 10 C 343.50281 -119.93568 0 0 M V30 11 C 352.17224 -112.0006 0 0 M V30 12 C 349.63495 -100.5251 0 0 M V30 13 C 294.42041 -85.85762 0 0 M V30 14 C 344.56085 -77.57275 0 0 M V30 END ATOM M V30 BEGIN BOND M V30 1 2 1 2 M V30 2 1 2 3 M V30 3 2 3 4 M V30 4 1 4 5 M V30 5 1 5 1 M V30 6 1 1 6 M V30 7 2 7 8 M V30 8 1 8 9 M V30 9 2 9 10 M V30 10 1 10 11 M V30 11 2 11 12 M V30 12 1 7 12 M V30 13 1 6 7 M V30 14 1 4 13 M V30 15 1 6 14 M V30 END BOND M V30 END CTAB M END GJFQJZPOIMBEEG-UHFFFAOYSA-N InChI=1S/C19H18/c1-14-12-13-18(19-11-7-6-10-17(14)19)15(2)16-8-4-3-5-9-16/h3-13,15H,1-2H3 CC1=CC=C(C(C)C2=CC=CC=C2)C3=C1C=CC=C3 C12=C(C=CC(=C1C=CC=C2)C(C)C3=CC=CC=C3)C |(47.77,-75.83,;47.77,-87.62,;57.98,-93.52,;68.2,-87.62,;68.2,-75.83,;57.98,-69.93,;57.98,-58.14,;47.77,-52.24,;37.55,-58.14,;37.55,-69.93,;78.41,-69.93,;78.41,-58.14,;88.62,-75.83,;88.62,-87.58,;98.8,-93.46,;108.98,-87.58,;108.98,-75.83,;98.8,-69.95,;37.59,-93.49,)| AuxInfo=1/0/N:19,8,12,11,13,17,16,10,14,18,15,3,4,2,7,9,1,5,6/E:(4,5)(8,9)/rA:19nCCCCCCCCCCCCCCCCCCC/rB:d1;s2;d3;s4;s1d5;s5;s7;s7;d9;s10;d11;s12;s9d13;s6;d15;s16;s1d17;s2;/rC:47,7681,-75,8275,0;47,7681,-87,6211,0;57,9816,-93,5179,0;68,1952,-87,6211,0;68,1952,-75,8275,0;57,9816,-69,9307,0;78,4088,-69,9307,0;78,4088,-58,1371,0;88,6223,-75,8275,0;88,6223,-87,5801,0;98,8004,-93,4565,0;108,9785,-87,5801,0;108,9785,-75,8275,0;98,8004,-69,9511,0;57,9816,-58,1371,0;47,7681,-52,2402,0;37,5545,-58,1371,0;37,5545,-69,9307,0;37,5947,-93,4947,0; C19H18 C1=CC=C(C=C1)* Ph CDK 04212619522D 0 0 0 0 0 999 V3000 M V30 BEGIN CTAB M V30 COUNTS 19 21 0 0 0 M V30 BEGIN ATOM M V30 1 C 47.76807 -75.82747 0 0 M V30 2 C 47.76807 -87.62106 0 0 M V30 3 C 57.98163 -93.51785 0 0 M V30 4 C 68.19522 -87.62106 0 0 M V30 5 C 68.19522 -75.82747 0 0 M V30 6 C 57.98163 -69.93066 0 0 M V30 7 C 78.40877 -69.93066 0 0 M V30 8 C 78.40877 -58.13705 0 0 M V30 9 C 88.6223 -75.82747 0 0 M V30 10 C 88.62228 -87.58011 0 0 M V30 11 C 98.80037 -93.45645 0 0 M V30 12 C 108.97847 -87.58014 0 0 M V30 13 C 108.97849 -75.82748 0 0 M V30 14 C 98.8004 -69.95114 0 0 M V30 15 C 57.98163 -58.13705 0 0 M V30 16 C 47.76807 -52.24023 0 0 M V30 17 C 37.5545 -58.13705 0 0 M V30 18 C 37.5545 -69.93066 0 0 M V30 19 C 37.59468 -93.49466 0 0 M V30 END ATOM M V30 BEGIN BOND M V30 1 2 1 2 M V30 2 1 2 3 M V30 3 2 3 4 M V30 4 1 4 5 M V30 5 2 5 6 M V30 6 1 6 1 M V30 7 1 5 7 M V30 8 1 7 8 M V30 9 2 9 10 M V30 10 1 10 11 M V30 11 2 11 12 M V30 12 1 12 13 M V30 13 2 13 14 M V30 14 1 9 14 M V30 15 1 7 9 M V30 16 1 6 15 M V30 17 2 15 16 M V30 18 1 16 17 M V30 19 2 17 18 M V30 20 1 18 1 M V30 21 1 2 19 M V30 END BOND M V30 END CTAB M END JMOKUPRAECXBIE-UHFFFAOYSA-N InChI=1S/C15H16O/c1-12(13-6-4-3-5-7-13)14-8-10-15(16-2)11-9-14/h3-12H,1-2H3 CC(C1=CC=CC=C1)C2=CC=C(C=C2)OC C1=C(C=CC(=C1)C(C)C2=CC=CC=C2)OC |(110.01,-75.77,;109.99,-87.56,;120.19,-93.48,;130.42,-87.6,;130.44,-75.81,;120.24,-69.89,;140.67,-69.93,;140.69,-58.14,;150.87,-75.85,;150.84,-87.6,;161.01,-93.5,;171.2,-87.64,;171.22,-75.89,;161.06,-69.99,;102.13,-92.07,;91.97,-86.18,)| AuxInfo=1/0/N:10,8,14,13,15,12,16,4,6,3,1,9,11,5,2,7/E:(4,5)(6,7)(8,9)(10,11)/rA:16nCCCCCCOCCCCCCCCC/rB:d1;s2;d3;s4;s1d5;s2;s7;s5;s9;s9;d11;s12;d13;s14;s11d15;/rC:110,0137,-75,7658,0;109,9898,-87,5594,0;120,1914,-93,4769,0;130,4169,-87,6008,0;130,4408,-75,8072,0;120,2392,-69,8897,0;102,1333,-92,0741,0;91,9672,-86,1771,0;140,6663,-69,9311,0;140,6902,-58,1375,0;150,8679,-75,8486,0;150,8441,-87,6013,0;161,0102,-93,4982,0;171,2002,-87,6425,0;171,2240,-75,8899,0;161,0579,-69,9930,0; C15H16O C1=CC=C(C=C1)* Ph,CO* OMe CDK 04212619522D 0 0 0 0 0 999 V3000 M V30 BEGIN CTAB M V30 COUNTS 16 17 0 0 0 M V30 BEGIN ATOM M V30 1 C 110.01372 -75.76579 0 0 M V30 2 C 109.98979 -87.55937 0 0 M V30 3 C 120.19138 -93.47685 0 0 M V30 4 C 130.4169 -87.60083 0 0 M V30 5 C 130.44081 -75.80722 0 0 M V30 6 C 120.23923 -69.88972 0 0 M V30 7 O 102.13332 -92.07408 0 0 M V30 8 C 91.96716 -86.17714 0 0 M V30 9 C 140.66631 -69.93114 0 0 M V30 10 C 140.69023 -58.13754 0 0 M V30 11 C 150.8679 -75.84865 0 0 M V30 12 C 150.84407 -87.60126 0 0 M V30 13 C 161.01022 -93.49821 0 0 M V30 14 C 171.20021 -87.64255 0 0 M V30 15 C 171.22404 -75.88991 0 0 M V30 16 C 161.05789 -69.99297 0 0 M V30 END ATOM M V30 BEGIN BOND M V30 1 2 1 2 M V30 2 1 2 3 M V30 3 2 3 4 M V30 4 1 4 5 M V30 5 2 5 6 M V30 6 1 6 1 M V30 7 1 7 8 M V30 8 1 2 7 M V30 9 1 5 9 M V30 10 1 9 10 M V30 11 2 11 12 M V30 12 1 12 13 M V30 13 2 13 14 M V30 14 1 14 15 M V30 15 2 15 16 M V30 16 1 11 16 M V30 17 1 9 11 M V30 END BOND M V30 END CTAB M END SWDWXLKNYLWSFA-UHFFFAOYSA-N InChI=1S/C17H17N/c1-12(14-8-4-3-5-9-14)17-13(2)15-10-6-7-11-16(15)18-17/h3-12,18H,1-2H3 CC(C1=CC=CC=C1)C2=C(C)C3=C(C=CC=C3)N2 C1=CC=C2C(=C1)C(=C(N2)C(C)C3=CC=CC=C3)C |(224.33,-77.07,;224.33,-88.82,;234.5,-94.69,;244.68,-88.82,;244.68,-77.07,;234.5,-71.2,;255.85,-73.44,;262.75,-82.94,;255.85,-92.45,;274.5,-82.94,;280.37,-72.77,;280.37,-93.12,;274.5,-103.3,;280.37,-113.47,;292.13,-113.47,;298,-103.29,;292.13,-93.12,;259.48,-62.27,)| AuxInfo=1/0/N:12,10,16,15,17,1,2,14,18,6,3,11,9,13,5,4,8,7/E:(4,5)(8,9)/rA:18nCCCCCCNCCCCCCCCCCC/rB:d1;s2;d3;s4;s1d5;s4;s7;s5d8;s9;s8;s11;s11;d13;s14;d15;s16;s13d17;/rC:224,3290,-77,0699,0;224,3290,-88,8172,0;234,5023,-94,6908,0;244,6758,-88,8172,0;244,6758,-77,0699,0;234,5023,-71,1964,0;255,8480,-92,4473,0;262,7529,-82,9436,0;255,8480,-73,4399,0;259,4781,-62,2676,0;274,5001,-82,9436,0;280,3737,-72,7702,0;280,3737,-93,1169,0;274,4973,-103,2950,0;280,3737,-113,4731,0;292,1263,-113,4731,0;298,0027,-103,2950,0;292,1263,-93,1169,0; C17H17N C1=CC=C(C=C1)* Ph CDK 04212619522D 0 0 0 0 0 999 V3000 M V30 BEGIN CTAB M V30 COUNTS 18 20 0 0 0 M V30 BEGIN ATOM M V30 1 C 224.32896 -77.06995 0 0 M V30 2 C 224.32896 -88.81717 0 0 M V30 3 C 234.50235 -94.69077 0 0 M V30 4 C 244.67575 -88.81715 0 0 M V30 5 C 244.67575 -77.06995 0 0 M V30 6 C 234.50235 -71.19635 0 0 M V30 7 N 255.84802 -92.44725 0 0 M V30 8 C 262.75287 -82.94356 0 0 M V30 9 C 255.84802 -73.43987 0 0 M V30 10 C 259.47809 -62.26759 0 0 M V30 11 C 274.50006 -82.94356 0 0 M V30 12 C 280.37366 -72.77016 0 0 M V30 13 C 280.37366 -93.11693 0 0 M V30 14 C 274.49734 -103.29501 0 0 M V30 15 C 280.37369 -113.47311 0 0 M V30 16 C 292.12634 -113.4731 0 0 M V30 17 C 298.00266 -103.295 0 0 M V30 18 C 292.12634 -93.11691 0 0 M V30 END ATOM M V30 BEGIN BOND M V30 1 2 1 2 M V30 2 1 2 3 M V30 3 2 3 4 M V30 4 1 4 5 M V30 5 2 5 6 M V30 6 1 6 1 M V30 7 1 4 7 M V30 8 2 8 9 M V30 9 1 9 5 M V30 10 1 9 10 M V30 11 1 7 8 M V30 12 1 8 11 M V30 13 1 11 12 M V30 14 2 13 14 M V30 15 1 14 15 M V30 16 2 15 16 M V30 17 1 16 17 M V30 18 2 17 18 M V30 19 1 13 18 M V30 20 1 11 13 M V30 END BOND M V30 END CTAB M END WYZIVNCBUWDCOZ-UHFFFAOYSA-N InChI=1S/C14H14O/c1-11(12-7-3-2-4-8-12)13-9-5-6-10-14(13)15/h2-11,15H,1H3 CC(C1=CC=CC=C1)C2=C(C=CC=C2)O C1=CC=C(C(=C1)C(C)C2=CC=CC=C2)O |(163.88,-75.77,;163.85,-87.56,;174.06,-93.48,;184.28,-87.6,;184.3,-75.81,;174.1,-69.89,;194.53,-69.93,;194.55,-58.14,;204.73,-75.85,;204.71,-87.6,;214.87,-93.5,;225.06,-87.64,;225.09,-75.89,;214.92,-69.99,;194.48,-93.52,)| AuxInfo=1/0/N:8,12,11,13,1,2,10,14,6,3,7,9,5,4,15/E:(3,4)(7,8)/rA:15nCCCCCCCCCCCCCCO/rB:d1;s2;d3;s4;s1d5;s5;s7;s7;d9;s10;d11;s12;s9d13;s4;/rC:163,8777,-75,7658,0;163,8538,-87,5594,0;174,0554,-93,4769,0;184,2809,-87,6008,0;184,3048,-75,8072,0;174,1032,-69,8897,0;194,5303,-69,9311,0;194,5542,-58,1375,0;204,7319,-75,8486,0;204,7080,-87,6012,0;214,8742,-93,4982,0;225,0642,-87,6425,0;225,0880,-75,8899,0;214,9219,-69,9929,0;194,4825,-93,5183,0; C14H14O C1=CC=C(C=C1)* Ph CDK 04212619522D 0 0 0 0 0 999 V3000 M V30 BEGIN CTAB M V30 COUNTS 15 16 0 0 0 M V30 BEGIN ATOM M V30 1 C 163.87772 -75.76579 0 0 M V30 2 C 163.85378 -87.55937 0 0 M V30 3 C 174.05536 -93.47685 0 0 M V30 4 C 184.28087 -87.60081 0 0 M V30 5 C 184.30478 -75.80721 0 0 M V30 6 C 174.10321 -69.88971 0 0 M V30 7 C 194.53027 -69.93112 0 0 M V30 8 C 194.5542 -58.13754 0 0 M V30 9 C 204.73187 -75.84862 0 0 M V30 10 C 204.70804 -87.60124 0 0 M V30 11 C 214.87419 -93.49818 0 0 M V30 12 C 225.06418 -87.64252 0 0 M V30 13 C 225.08801 -75.88989 0 0 M V30 14 C 214.92186 -69.99294 0 0 M V30 15 O 194.48245 -93.51831 0 0 M V30 END ATOM M V30 BEGIN BOND M V30 1 2 1 2 M V30 2 1 2 3 M V30 3 2 3 4 M V30 4 1 4 5 M V30 5 2 5 6 M V30 6 1 6 1 M V30 7 1 5 7 M V30 8 1 7 8 M V30 9 2 9 10 M V30 10 1 10 11 M V30 11 2 11 12 M V30 12 1 12 13 M V30 13 2 13 14 M V30 14 1 9 14 M V30 15 1 7 9 M V30 16 1 4 15 M V30 END BOND M V30 END CTAB M END GTKWHQWJTVWORA-UHFFFAOYSA-N InChI=1S/C14H14O/c15-11-14-9-5-4-8-13(14)10-12-6-2-1-3-7-12/h1-9,15H,10-11H2 C1=CC=C(C=C1)CC2=C(C=CC=C2)CO C1=CC=CC(=C1)CC2=C(C=CC=C2)CO |(8.78,-106.21,;8.78,-117.83,;18.84,-123.64,;28.91,-117.83,;28.91,-106.21,;18.84,-100.4,;38.93,-100.42,;48.96,-106.21,;48.96,-117.83,;59.03,-123.64,;69.09,-117.83,;69.09,-106.21,;59.03,-100.4,;38.93,-123.62,;38.93,-135.2,)| AuxInfo=1/0/N:2,1,3,12,11,6,4,13,10,7,14,5,8,9,15/E:(2,3)(6,7)/rA:15nCCCCCCCCCCCCCCO/rB:d1;s2;d3;s4;s1d5;s5;s7;d8;s9;d10;s11;s8d12;s9;s14;/rC:8,7776,-106,2076,0;8,7776,-117,8284,0;18,8415,-123,6388,0;28,9054,-117,8284,0;28,9054,-106,2076,0;18,8415,-100,3972,0;38,9344,-100,4174,0;48,9633,-106,2076,0;48,9633,-117,8284,0;59,0272,-123,6388,0;69,0911,-117,8284,0;69,0911,-106,2076,0;59,0272,-100,3972,0;38,9344,-123,6187,0;38,9344,-135,1991,0; C14H14O CDK 04212619522D 0 0 0 0 0 999 V3000 M V30 BEGIN CTAB M V30 COUNTS 15 16 0 0 0 M V30 BEGIN ATOM M V30 1 C 8.7776 -106.20764 0 0 M V30 2 C 8.7776 -117.82843 0 0 M V30 3 C 18.84151 -123.63884 0 0 M V30 4 C 28.9054 -117.82843 0 0 M V30 5 C 28.9054 -106.20764 0 0 M V30 6 C 18.84151 -100.39725 0 0 M V30 7 C 38.93437 -100.41742 0 0 M V30 8 C 48.96333 -106.20764 0 0 M V30 9 C 48.96333 -117.82843 0 0 M V30 10 C 59.02724 -123.63884 0 0 M V30 11 C 69.09114 -117.82843 0 0 M V30 12 C 69.09114 -106.20764 0 0 M V30 13 C 59.02724 -100.39725 0 0 M V30 14 C 38.93437 -123.61865 0 0 M V30 15 O 38.93437 -135.19911 0 0 M V30 END ATOM M V30 BEGIN BOND M V30 1 2 1 2 M V30 2 1 2 3 M V30 3 2 3 4 M V30 4 1 4 5 M V30 5 2 5 6 M V30 6 1 6 1 M V30 7 1 5 7 M V30 8 1 7 8 M V30 9 2 8 9 M V30 10 1 9 10 M V30 11 2 10 11 M V30 12 1 11 12 M V30 13 2 12 13 M V30 14 1 13 8 M V30 15 1 9 14 M V30 16 1 14 15 M V30 END BOND M V30 END CTAB M END NIHNNTQXNPWCJQ-UHFFFAOYSA-N InChI=1S/C13H10/c1-3-7-12-10(5-1)9-11-6-2-4-8-13(11)12/h1-8H,9H2 C1=CC2=C(C=C1)C3=C(C=CC=C3)C2 C1=CC=C2C(=C1)C3=C(C=CC=C3)C2 |(29.72,-161.29,;29.72,-172.91,;39.79,-178.72,;49.85,-172.91,;49.85,-161.29,;39.79,-155.47,;69.91,-161.29,;69.91,-172.91,;79.97,-178.72,;90.04,-172.91,;90.04,-161.29,;79.97,-155.47,;59.88,-178.7,)| AuxInfo=1/0/N:2,10,1,11,3,9,6,12,13,4,8,5,7/E:(1,2)(3,4)(5,6)(7,8)(10,11)(12,13)/rA:13nCCCCCCCCCCCCC/rB:d1;s2;d3;s4;s1d5;s5;d7;s8;d9;s10;s7d11;s4s8;/rC:29,7243,-161,2854,0;29,7243,-172,9062,0;39,7883,-178,7166,0;49,8522,-172,9062,0;49,8522,-161,2854,0;39,7883,-155,4750,0;69,9101,-161,2854,0;69,9101,-172,9062,0;79,9740,-178,7166,0;90,0379,-172,9062,0;90,0379,-161,2854,0;79,9740,-155,4750,0;59,8811,-178,6964,0; C13H10 CDK 04212619522D 0 0 0 0 0 999 V3000 M V30 BEGIN CTAB M V30 COUNTS 13 15 0 0 0 M V30 BEGIN ATOM M V30 1 C 29.72435 -161.28539 0 0 M V30 2 C 29.72435 -172.90619 0 0 M V30 3 C 39.78825 -178.71658 0 0 M V30 4 C 49.85216 -172.90619 0 0 M V30 5 C 49.85216 -161.28539 0 0 M V30 6 C 39.78825 -155.47499 0 0 M V30 7 C 69.91008 -161.28539 0 0 M V30 8 C 69.91008 -172.90619 0 0 M V30 9 C 79.97398 -178.71658 0 0 M V30 10 C 90.03789 -172.90619 0 0 M V30 11 C 90.03789 -161.28539 0 0 M V30 12 C 79.97398 -155.47499 0 0 M V30 13 C 59.88112 -178.6964 0 0 M V30 END ATOM M V30 BEGIN BOND M V30 1 2 1 2 M V30 2 1 2 3 M V30 3 2 3 4 M V30 4 1 4 5 M V30 5 2 5 6 M V30 6 1 6 1 M V30 7 2 7 8 M V30 8 1 8 9 M V30 9 2 9 10 M V30 10 1 10 11 M V30 11 2 11 12 M V30 12 1 12 7 M V30 13 1 8 13 M V30 14 1 4 13 M V30 15 1 5 7 M V30 END BOND M V30 END CTAB M END PJQCANLCUDUPRF-UHFFFAOYSA-N InChI=1S/C15H14/c1-3-7-14-11-15-8-4-2-6-13(15)10-9-12(14)5-1/h1-8H,9-11H2 C1=CC2=C(C=C1)CC3=C(C=CC=C3)CC2 C1=CC=C2C(=C1)CCC3=C(C=CC=C3)C2 |(168.15,-164.38,;170.73,-175.67,;181.8,-179.08,;190.29,-171.2,;187.71,-159.91,;176.64,-156.5,;194.93,-150.86,;206.51,-150.86,;213.73,-159.91,;211.15,-171.2,;219.64,-179.08,;230.71,-175.67,;233.29,-164.38,;224.8,-156.5,;200.72,-176.23,)| AuxInfo=1/0/N:1,11,2,10,6,12,3,9,14,15,13,5,7,4,8/E:(1,2)(3,4)(5,6)(7,8)(9,10)(12,13)(14,15)/rA:15nCCCCCCCCCCCCCCC/rB:d1;s2;d3;s4;s1d5;;d7;s8;d9;s10;s7d11;s4s8;s5;s7s14;/rC:168,1543,-164,3759,0;170,7312,-175,6660,0;181,7972,-179,0794,0;190,2862,-171,2027,0;187,7093,-159,9126,0;176,6434,-156,4992,0;213,7304,-159,9126,0;211,1535,-171,2027,0;219,6426,-179,0794,0;230,7085,-175,6660,0;233,2854,-164,3759,0;224,7963,-156,4992,0;200,7199,-176,2273,0;194,9296,-150,8586,0;206,5101,-150,8586,0; C15H14 CDK 04212619522D 0 0 0 0 0 999 V3000 M V30 BEGIN CTAB M V30 COUNTS 15 17 0 0 0 M V30 BEGIN ATOM M V30 1 C 168.15431 -164.37592 0 0 M V30 2 C 170.73122 -175.66602 0 0 M V30 3 C 181.79716 -179.07941 0 0 M V30 4 C 190.28624 -171.20271 0 0 M V30 5 C 187.70934 -159.91261 0 0 M V30 6 C 176.64339 -156.49921 0 0 M V30 7 C 213.73039 -159.91261 0 0 M V30 8 C 211.15349 -171.20271 0 0 M V30 9 C 219.64256 -179.07941 0 0 M V30 10 C 230.70851 -175.66602 0 0 M V30 11 C 233.2854 -164.37592 0 0 M V30 12 C 224.79634 -156.49921 0 0 M V30 13 C 200.71986 -176.22728 0 0 M V30 14 C 194.92964 -150.85864 0 0 M V30 15 C 206.51009 -150.85864 0 0 M V30 END ATOM M V30 BEGIN BOND M V30 1 2 1 2 M V30 2 1 2 3 M V30 3 2 3 4 M V30 4 1 4 5 M V30 5 2 5 6 M V30 6 1 6 1 M V30 7 2 7 8 M V30 8 1 8 9 M V30 9 2 9 10 M V30 10 1 10 11 M V30 11 2 11 12 M V30 12 1 12 7 M V30 13 1 8 13 M V30 14 1 4 13 M V30 15 1 5 14 M V30 16 1 14 15 M V30 17 1 15 7 M V30 END BOND M V30 END CTAB M END WPDAVTSOEQEGMS-UHFFFAOYSA-N InChI=1S/C14H12/c1-2-6-12-10-14-8-4-3-7-13(14)9-11(12)5-1/h1-8H,9-10H2 C1=CC2=C(C=C1)CC3=C(C=CC=C3)C2 C1=CC=C2C(=C1)CC3=C(C=CC=C3)C2 |(98.63,-161.89,;98.63,-173.51,;108.69,-179.32,;118.76,-173.51,;118.76,-161.89,;108.69,-156.08,;128.79,-156.1,;138.82,-161.89,;138.82,-173.51,;148.88,-179.32,;158.94,-173.51,;158.94,-161.89,;148.88,-156.08,;128.79,-179.3,)| AuxInfo=1/0/N:1,2,12,11,6,3,13,10,7,14,5,4,8,9/E:(1,2,3,4)(5,6,7,8)(9,10)(11,12,13,14)/rA:14nCCCCCCCCCCCCCC/rB:d1;s2;d3;s4;s1d5;s5;s7;d8;s9;d10;s11;s8d12;s4s9;/rC:98,6306,-161,8906,0;98,6306,-173,5114,0;108,6945,-179,3218,0;118,7584,-173,5114,0;118,7584,-161,8906,0;108,6945,-156,0802,0;128,7874,-156,1004,0;138,8163,-161,8906,0;138,8163,-173,5114,0;148,8802,-179,3218,0;158,9441,-173,5114,0;158,9441,-161,8906,0;148,8802,-156,0802,0;128,7874,-179,3017,0; C14H12 CDK 04212619522D 0 0 0 0 0 999 V3000 M V30 BEGIN CTAB M V30 COUNTS 14 16 0 0 0 M V30 BEGIN ATOM M V30 1 C 98.6306 -161.89064 0 0 M V30 2 C 98.6306 -173.51144 0 0 M V30 3 C 108.6945 -179.32184 0 0 M V30 4 C 118.75841 -173.51144 0 0 M V30 5 C 118.75841 -161.89064 0 0 M V30 6 C 108.6945 -156.08025 0 0 M V30 7 C 128.78737 -156.10042 0 0 M V30 8 C 138.81633 -161.89064 0 0 M V30 9 C 138.81633 -173.51144 0 0 M V30 10 C 148.88023 -179.32184 0 0 M V30 11 C 158.94414 -173.51144 0 0 M V30 12 C 158.94414 -161.89064 0 0 M V30 13 C 148.88023 -156.08025 0 0 M V30 14 C 128.78737 -179.30165 0 0 M V30 END ATOM M V30 BEGIN BOND M V30 1 2 1 2 M V30 2 1 2 3 M V30 3 2 3 4 M V30 4 1 4 5 M V30 5 2 5 6 M V30 6 1 6 1 M V30 7 1 5 7 M V30 8 1 7 8 M V30 9 2 8 9 M V30 10 1 9 10 M V30 11 2 10 11 M V30 12 1 11 12 M V30 13 2 12 13 M V30 14 1 13 8 M V30 15 1 9 14 M V30 16 1 4 14 M V30 END BOND M V30 END CTAB M END BJMUOUXGBFNLSN-UHFFFAOYSA-N InChI=1S/C10H11N/c1-8-7-9-5-3-4-6-10(9)11(8)2/h3-7H,1-2H3 CC1=CC2=C(C=CC=C2)N1C C=1C2=C(N(C1C)C)C=CC=C2 |(85.88,-94.35,;95.27,-87.53,;91.68,-76.49,;80.07,-76.49,;76.49,-87.53,;67.9,-90.5,;73.27,-67.13,;99.45,-67.87,;110.8,-70.28,;114.39,-81.32,;106.62,-89.94,)| AuxInfo=1/0/N:10,11,7,8,6,9,1,5,2,3,4/rA:11nCCCNCCCCCCC/rB:s1;d2;s3;d1s4;s2;d6;s7;s3d8;s5;s4;/rC:85,8765,-94,3507,0;95,2663,-87,5287,0;91,6797,-76,4903,0;80,0733,-76,4903,0;76,4868,-87,5287,0;106,6191,-89,9418,0;114,3853,-81,3165,0;110,7987,-70,2782,0;99,4459,-67,8651,0;67,9047,-90,4983,0;73,2750,-67,1331,0; C10H11N C* Me CDK 04212619522D 0 0 0 0 0 999 V3000 M V30 BEGIN CTAB M V30 COUNTS 11 12 0 0 0 M V30 BEGIN ATOM M V30 1 C 85.87654 -94.35072 0 0 M V30 2 C 95.2663 -87.52866 0 0 M V30 3 C 91.67973 -76.49031 0 0 M V30 4 N 80.07333 -76.49031 0 0 M V30 5 C 76.48677 -87.52866 0 0 M V30 6 C 106.61908 -89.94176 0 0 M V30 7 C 114.38527 -81.31653 0 0 M V30 8 C 110.79871 -70.27818 0 0 M V30 9 C 99.44592 -67.86508 0 0 M V30 10 C 67.90474 -90.49826 0 0 M V30 11 C 73.27496 -67.13315 0 0 M V30 END ATOM M V30 BEGIN BOND M V30 1 1 1 2 M V30 2 2 2 3 M V30 3 1 3 4 M V30 4 1 4 5 M V30 5 2 5 1 M V30 6 1 2 6 M V30 7 2 6 7 M V30 8 1 7 8 M V30 9 2 8 9 M V30 10 1 9 3 M V30 11 1 5 10 M V30 12 1 4 11 M V30 END BOND M V30 END CTAB M END LKUDPHPHKOZXCD-UHFFFAOYSA-N InChI=1S/C9H12O3/c1-10-7-4-8(11-2)6-9(5-7)12-3/h4-6H,1-3H3 COC1=CC(=CC(=C1)OC)OC C1=C(C=C(C=C1OC)OC)OC |(162.04,-94.35,;172.09,-88.55,;172.09,-76.94,;162.04,-71.14,;151.99,-76.94,;151.99,-88.55,;141.98,-94.33,;131.96,-88.55,;162.04,-59.57,;172.06,-53.79,;182.11,-94.33,;192.13,-88.55,)| AuxInfo=1/0/N:8,10,12,1,3,5,2,6,4,7,9,11/E:(1,2,3)(4,5,6)(7,8,9)(10,11,12)/rA:12nCCCCCCOCOCOC/rB:d1;s2;d3;s4;s1d5;s2;s7;s6;s9;s4;s11;/rC:162,0435,-94,3507,0;172,0950,-88,5475,0;172,0950,-76,9411,0;162,0435,-71,1379,0;151,9921,-76,9411,0;151,9921,-88,5475,0;182,1115,-94,3306,0;192,1280,-88,5475,0;141,9756,-94,3306,0;131,9590,-88,5475,0;162,0435,-59,5718,0;172,0601,-53,7888,0; C9H12O3 CO* OMe CDK 04212619522D 0 0 0 0 0 999 V3000 M V30 BEGIN CTAB M V30 COUNTS 12 12 0 0 0 M V30 BEGIN ATOM M V30 1 C 162.04355 -94.35072 0 0 M V30 2 C 172.09497 -88.54753 0 0 M V30 3 C 172.09497 -76.94113 0 0 M V30 4 C 162.04355 -71.13794 0 0 M V30 5 C 151.99211 -76.94113 0 0 M V30 6 C 151.99211 -88.54753 0 0 M V30 7 O 182.11151 -94.33057 0 0 M V30 8 C 192.12804 -88.54753 0 0 M V30 9 O 141.97556 -94.33057 0 0 M V30 10 C 131.95903 -88.54753 0 0 M V30 11 O 162.04355 -59.57182 0 0 M V30 12 C 172.06007 -53.78877 0 0 M V30 END ATOM M V30 BEGIN BOND M V30 1 2 1 2 M V30 2 1 2 3 M V30 3 2 3 4 M V30 4 1 4 5 M V30 5 2 5 6 M V30 6 1 6 1 M V30 7 1 7 8 M V30 8 1 2 7 M V30 9 1 9 10 M V30 10 1 6 9 M V30 11 1 11 12 M V30 12 1 4 11 M V30 END BOND M V30 END CTAB M END IWNPWQRBFNOGHM-UHFFFAOYSA-N InChI=1S/C13H10OS/c14-13-9-5-1-3-7-11(9)15-12-8-4-2-6-10(12)13/h1-8,13-14H C1=CC2=C(C=C1)SC3=C(C=CC=C3)C2O C1=CC=C2C(=C1)C(C3=C(S2)C=CC=C3)O |(109.1,-93.57,;109.1,-105.24,;119.22,-111.08,;129.33,-105.24,;129.33,-93.57,;119.22,-87.73,;139.44,-87.73,;149.56,-93.57,;149.56,-105.24,;139.44,-111.08,;159.67,-111.08,;169.79,-105.24,;169.79,-93.57,;159.67,-87.73,;139.44,-76.09,)| AuxInfo=1/0/N:1,13,2,12,6,14,3,11,5,9,4,8,10,15,7/E:(1,2)(3,4)(5,6)(7,8)(9,10)(11,12)/rA:15nCCCCCCSCCCCCCCO/rB:d1;s2;d3;s4;s1d5;s4;s7;d8;s5s9;s8;d11;s12;s9d13;s10;/rC:109,1032,-93,5650,0;109,1032,-105,2434,0;119,2170,-111,0826,0;129,3308,-105,2434,0;129,3308,-93,5650,0;119,2170,-87,7258,0;139,4446,-111,0826,0;149,5584,-105,2434,0;149,5584,-93,5650,0;139,4446,-87,7258,0;159,6721,-111,0826,0;169,7859,-105,2434,0;169,7859,-93,5650,0;159,6721,-87,7258,0;139,4446,-76,0880,0; C13H10OS CDK 04212619522D 0 0 0 0 0 999 V3000 M V30 BEGIN CTAB M V30 COUNTS 15 17 0 0 0 M V30 BEGIN ATOM M V30 1 C 109.10321 -93.56505 0 0 M V30 2 C 109.10321 -105.24344 0 0 M V30 3 C 119.21701 -111.08264 0 0 M V30 4 C 129.33078 -105.24344 0 0 M V30 5 C 129.33078 -93.56505 0 0 M V30 6 C 119.21701 -87.72585 0 0 M V30 7 S 139.44458 -111.08264 0 0 M V30 8 C 149.55836 -105.24344 0 0 M V30 9 C 149.55836 -93.56505 0 0 M V30 10 C 139.44458 -87.72585 0 0 M V30 11 C 159.67215 -111.08264 0 0 M V30 12 C 169.78593 -105.24344 0 0 M V30 13 C 169.78593 -93.56505 0 0 M V30 14 C 159.67215 -87.72585 0 0 M V30 15 O 139.44458 -76.088 0 0 M V30 END ATOM M V30 BEGIN BOND M V30 1 2 1 2 M V30 2 1 2 3 M V30 3 2 3 4 M V30 4 1 4 5 M V30 5 2 5 6 M V30 6 1 6 1 M V30 7 1 4 7 M V30 8 1 7 8 M V30 9 2 8 9 M V30 10 1 9 10 M V30 11 1 10 5 M V30 12 1 8 11 M V30 13 2 11 12 M V30 14 1 12 13 M V30 15 2 13 14 M V30 16 1 14 9 M V30 17 1 10 15 M V30 END BOND M V30 END CTAB M END JFRMYMMIJXLMBB-UHFFFAOYSA-N InChI=1S/C13H10O2/c14-13-9-5-1-3-7-11(9)15-12-8-4-2-6-10(12)13/h1-8,13-14H C1=CC2=C(C=C1)OC3=C(C=CC=C3)C2O C1=CC=C2C(=C1)C(C3=C(O2)C=CC=C3)O |(188.78,-93.57,;188.78,-105.24,;198.9,-111.08,;209.01,-105.24,;209.01,-93.57,;198.9,-87.73,;219.13,-87.73,;229.24,-93.57,;229.24,-105.24,;219.13,-111.08,;239.35,-111.08,;249.47,-105.24,;249.47,-93.57,;239.35,-87.73,;219.13,-76.09,)| AuxInfo=1/0/N:1,13,2,12,6,14,3,11,5,9,4,8,10,15,7/E:(1,2)(3,4)(5,6)(7,8)(9,10)(11,12)/rA:15nCCCCCCOCCCCCCCO/rB:d1;s2;d3;s4;s1d5;s4;s7;d8;s5s9;s8;d11;s12;s9d13;s10;/rC:188,7840,-93,5650,0;188,7840,-105,2434,0;198,8978,-111,0826,0;209,0115,-105,2434,0;209,0115,-93,5650,0;198,8978,-87,7258,0;219,1253,-111,0826,0;229,2391,-105,2434,0;229,2391,-93,5650,0;219,1253,-87,7258,0;239,3529,-111,0826,0;249,4667,-105,2434,0;249,4667,-93,5650,0;239,3529,-87,7258,0;219,1253,-76,0880,0; C13H10O2 CDK 04212619522D 0 0 0 0 0 999 V3000 M V30 BEGIN CTAB M V30 COUNTS 15 17 0 0 0 M V30 BEGIN ATOM M V30 1 C 188.78397 -93.56505 0 0 M V30 2 C 188.78397 -105.24344 0 0 M V30 3 C 198.89775 -111.08264 0 0 M V30 4 C 209.01154 -105.24344 0 0 M V30 5 C 209.01154 -93.56505 0 0 M V30 6 C 198.89775 -87.72585 0 0 M V30 7 O 219.12532 -111.08264 0 0 M V30 8 C 229.23912 -105.24344 0 0 M V30 9 C 229.23912 -93.56505 0 0 M V30 10 C 219.12532 -87.72585 0 0 M V30 11 C 239.35291 -111.08264 0 0 M V30 12 C 249.46667 -105.24344 0 0 M V30 13 C 249.46667 -93.56505 0 0 M V30 14 C 239.35291 -87.72585 0 0 M V30 15 O 219.12532 -76.088 0 0 M V30 END ATOM M V30 BEGIN BOND M V30 1 2 1 2 M V30 2 1 2 3 M V30 3 2 3 4 M V30 4 1 4 5 M V30 5 2 5 6 M V30 6 1 6 1 M V30 7 1 4 7 M V30 8 1 7 8 M V30 9 2 8 9 M V30 10 1 9 10 M V30 11 1 10 5 M V30 12 1 8 11 M V30 13 2 11 12 M V30 14 1 12 13 M V30 15 2 13 14 M V30 16 1 14 9 M V30 17 1 10 15 M V30 END BOND M V30 END CTAB M END SIKJAQJRHWYJAI-UHFFFAOYSA-N InChI=1S/C8H7N/c1-2-4-8-7(3-1)5-6-9-8/h1-6,9H C1=CC2=C(C=C1)NC=C2 C1=CC=C2C(=C1)C=CN2 |(137.08,-28.48,;137.08,-40.16,;147.2,-46,;157.31,-40.16,;157.31,-28.48,;147.2,-22.64,;168.42,-24.87,;175.28,-34.32,;168.42,-43.77,)| AuxInfo=1/0/N:1,2,6,3,9,8,5,4,7/rA:9nCCCCCCNCC/rB:d1;s2;d3;s4;s1d5;s4;s7;s5d8;/rC:137,0827,-28,4823,0;137,0827,-40,1607,0;147,1965,-45,9999,0;157,3103,-40,1607,0;157,3103,-28,4823,0;147,1965,-22,6431,0;168,4171,-43,7695,0;175,2815,-34,3215,0;168,4171,-24,8735,0; C8H7N CDK 04212619522D 0 0 0 0 0 999 V3000 M V30 BEGIN CTAB M V30 COUNTS 9 10 0 0 0 M V30 BEGIN ATOM M V30 1 C 137.08272 -28.4823 0 0 M V30 2 C 137.08272 -40.16069 0 0 M V30 3 C 147.1965 -45.99988 0 0 M V30 4 C 157.31029 -40.16069 0 0 M V30 5 C 157.31029 -28.4823 0 0 M V30 6 C 147.1965 -22.6431 0 0 M V30 7 N 168.4171 -43.7695 0 0 M V30 8 C 175.28149 -34.32149 0 0 M V30 9 C 168.4171 -24.87347 0 0 M V30 END ATOM M V30 BEGIN BOND M V30 1 2 1 2 M V30 2 1 2 3 M V30 3 2 3 4 M V30 4 1 4 5 M V30 5 2 5 6 M V30 6 1 6 1 M V30 7 1 4 7 M V30 8 1 7 8 M V30 9 2 8 9 M V30 10 1 9 5 M V30 END BOND M V30 END CTAB M END YLZSIUVOIFJGQZ-UHFFFAOYSA-N InChI=1S/C17H22N2O/c1-18(2)15-9-5-13(6-10-15)17(20)14-7-11-16(12-8-14)19(3)4/h5-12,17,20H,1-4H3 CN(C)C1=CC=C(C=C1)C(C2=CC=C(C=C2)N(C)C)O C1=C(C=CC(=C1)C(C2=CC=C(C=C2)N(C)C)O)N(C)C |(286.1,-92.35,;286.1,-104.03,;296.22,-109.87,;306.33,-104.03,;306.33,-92.35,;296.22,-86.51,;316.41,-86.53,;326.49,-92.35,;326.49,-104.03,;336.6,-109.87,;346.72,-104.03,;346.72,-92.35,;336.6,-86.51,;356.8,-109.85,;356.8,-121.48,;366.87,-104.03,;316.41,-74.89,;276.03,-109.85,;276.03,-121.48,;265.95,-104.03,)| AuxInfo=1/0/N:15,16,18,19,9,13,4,6,10,12,3,1,8,5,11,2,7,14,17,20/E:(1,2,3,4)(5,6,7,8)(9,10,11,12)(13,14)(15,16)(18,19)/rA:20nCCCCCCCCCCCCCNCCNCCO/rB:d1;s2;d3;s4;s1d5;s5;s7;d8;s9;d10;s11;s8d12;s11;s14;s14;s2;s17;s17;s7;/rC:286,1040,-92,3485,0;286,1040,-104,0269,0;296,2178,-109,8661,0;306,3315,-104,0269,0;306,3315,-92,3485,0;296,2178,-86,5093,0;316,4102,-86,5296,0;326,4889,-92,3485,0;326,4889,-104,0269,0;336,6027,-109,8661,0;346,7165,-104,0269,0;346,7165,-92,3485,0;336,6027,-86,5093,0;356,7951,-109,8459,0;356,7951,-121,4837,0;366,8738,-104,0269,0;276,0253,-109,8459,0;276,0253,-121,4837,0;265,9466,-104,0269,0;316,4102,-74,8918,0; C17H22N2O CN(C)* NMe2 CDK 04212619522D 0 0 0 0 0 999 V3000 M V30 BEGIN CTAB M V30 COUNTS 20 21 0 0 0 M V30 BEGIN ATOM M V30 1 C 286.10397 -92.34854 0 0 M V30 2 C 286.10397 -104.02693 0 0 M V30 3 C 296.21777 -109.86613 0 0 M V30 4 C 306.33154 -104.02693 0 0 M V30 5 C 306.33154 -92.34854 0 0 M V30 6 C 296.21777 -86.50934 0 0 M V30 7 C 316.41022 -86.52962 0 0 M V30 8 C 326.48889 -92.34854 0 0 M V30 9 C 326.48889 -104.02693 0 0 M V30 10 C 336.60266 -109.86613 0 0 M V30 11 C 346.71646 -104.02693 0 0 M V30 12 C 346.71646 -92.34854 0 0 M V30 13 C 336.60266 -86.50934 0 0 M V30 14 N 356.79514 -109.84586 0 0 M V30 15 C 356.79514 -121.4837 0 0 M V30 16 C 366.87381 -104.02693 0 0 M V30 17 N 276.02527 -109.84586 0 0 M V30 18 C 276.02527 -121.4837 0 0 M V30 19 C 265.94659 -104.02693 0 0 M V30 20 O 316.41022 -74.89175 0 0 M V30 END ATOM M V30 BEGIN BOND M V30 1 2 1 2 M V30 2 1 2 3 M V30 3 2 3 4 M V30 4 1 4 5 M V30 5 2 5 6 M V30 6 1 6 1 M V30 7 1 5 7 M V30 8 1 7 8 M V30 9 2 8 9 M V30 10 1 9 10 M V30 11 2 10 11 M V30 12 1 11 12 M V30 13 2 12 13 M V30 14 1 13 8 M V30 15 1 14 15 M V30 16 1 14 16 M V30 17 1 11 14 M V30 18 1 17 18 M V30 19 1 17 19 M V30 20 1 2 17 M V30 21 1 7 20 M V30 END BOND M V30 END CTAB M END KFZMGEQAYNKOFK-UHFFFAOYSA-N InChI=1S/C3H8O/c1-3(2)4/h3-4H,1-2H3 CC([H])(C)O C(C)(O)(C)[H] |(190.59,-91.52,;200.79,-85.63,;190.59,-103.3,;180.39,-85.63,;190.59,-79.78,)| AuxInfo=1/0/N:2,4,1,3/E:(1,2)/rA:5nCCOCH/rB:s1;s1;s1;s1;/rC:190,5872,-91,5182,0;200,7883,-85,6286,0;190,5872,-103,2973,0;180,3861,-85,6286,0;190,5872,-79,7798,0; C3H8O CDK 04212619522D 0 0 0 0 0 999 V3000 M V30 BEGIN CTAB M V30 COUNTS 5 4 0 0 0 M V30 BEGIN ATOM M V30 1 C 190.58723 -91.51816 0 0 M V30 2 C 200.78831 -85.62856 0 0 M V30 3 O 190.58723 -103.29735 0 0 M V30 4 C 180.38614 -85.62856 0 0 M V30 5 H 190.58722 -79.77985 0 0 M V30 END ATOM M V30 BEGIN BOND M V30 1 1 1 2 M V30 2 1 1 3 M V30 3 1 1 4 M V30 4 1 1 5 M V30 END BOND M V30 END CTAB M END RDOXTESZEPMUJZ-UHFFFAOYSA-N InChI=1S/C7H8O/c1-8-7-5-3-2-4-6-7/h2-6H,1H3 COC1=CC=CC=C1 C1=CC=C(C=C1)OC |(116.28,-55.01,;116.28,-66.79,;126.48,-72.68,;136.68,-66.79,;136.68,-55.01,;126.48,-49.12,;146.88,-72.68,;146.88,-84.42,)| AuxInfo=1/0/N:8,1,2,6,3,5,4,7/E:(3,4)(5,6)/rA:8nCCCCCCOC/rB:d1;s2;d3;s4;s1d5;s4;s7;/rC:116,2800,-55,0107,0;116,2800,-66,7899,0;126,4811,-72,6795,0;136,6822,-66,7899,0;136,6822,-55,0107,0;126,4811,-49,1211,0;146,8833,-72,6795,0;146,8833,-84,4178,0; C7H8O CO* OMe CDK 04212619522D 0 0 0 0 0 999 V3000 M V30 BEGIN CTAB M V30 COUNTS 8 8 0 0 0 M V30 BEGIN ATOM M V30 1 C 116.28001 -55.01068 0 0 M V30 2 C 116.28001 -66.78989 0 0 M V30 3 C 126.48109 -72.67947 0 0 M V30 4 C 136.68217 -66.78989 0 0 M V30 5 C 136.68217 -55.01068 0 0 M V30 6 C 126.48109 -49.12109 0 0 M V30 7 O 146.88326 -72.67947 0 0 M V30 8 C 146.88326 -84.41777 0 0 M V30 END ATOM M V30 BEGIN BOND M V30 1 2 1 2 M V30 2 1 2 3 M V30 3 2 3 4 M V30 4 1 4 5 M V30 5 2 5 6 M V30 6 1 6 1 M V30 7 1 7 8 M V30 8 1 4 7 M V30 END BOND M V30 END CTAB M END KWXALPWYYHGXCM-UHFFFAOYSA-N InChI=1S/C17H20O/c1-13-5-7-14(8-6-13)17(2,3)15-9-11-16(18-4)12-10-15/h5-12H,1-4H3 CC1=CC=C(C=C1)C(C)(C)C2=CC=C(C=C2)OC C1=C(C=CC(=C1)C(C2=CC=C(C=C2)C)(C)C)OC |(269.74,-113.04,;269.74,-124.81,;279.93,-130.69,;290.12,-124.81,;290.12,-113.04,;279.93,-107.16,;300.31,-107.16,;310.49,-113.04,;310.49,-124.81,;320.68,-130.69,;330.87,-124.81,;330.87,-113.04,;320.68,-107.16,;341.06,-130.69,;294.42,-96.97,;306.19,-96.97,;259.55,-130.69,;259.55,-142.42,)| AuxInfo=1/0/N:16,17,18,8,12,14,11,15,4,6,3,1,13,10,5,2,9,7/E:(2,3)(5,6)(7,8)(9,10)(11,12)/rA:18nCCCCCCOCCCCCCCCCCC/rB:d1;s2;d3;s4;s1d5;s2;s7;s5;s9;d10;s11;d12;s13;s10d14;s13;s9;s9;/rC:269,7397,-113,0446,0;269,7397,-124,8094,0;279,9283,-130,6918,0;290,1170,-124,8094,0;290,1170,-113,0446,0;279,9283,-107,1622,0;259,5511,-130,6918,0;259,5511,-142,4158,0;300,3056,-107,1622,0;310,4942,-113,0446,0;310,4942,-124,8094,0;320,6828,-130,6918,0;330,8714,-124,8094,0;330,8714,-113,0446,0;320,6828,-107,1622,0;341,0600,-130,6918,0;294,4232,-96,9736,0;306,1880,-96,9736,0; C17H20O C* Me,CO* OMe CDK 04212619522D 0 0 0 0 0 999 V3000 M V30 BEGIN CTAB M V30 COUNTS 18 19 0 0 0 M V30 BEGIN ATOM M V30 1 C 269.73975 -113.04463 0 0 M V30 2 C 269.73975 -124.80942 0 0 M V30 3 C 279.92834 -130.69182 0 0 M V30 4 C 290.11697 -124.80942 0 0 M V30 5 C 290.11697 -113.04463 0 0 M V30 6 C 279.92834 -107.16223 0 0 M V30 7 O 259.55115 -130.69182 0 0 M V30 8 C 259.55115 -142.41577 0 0 M V30 9 C 300.3056 -107.16223 0 0 M V30 10 C 310.4942 -113.04463 0 0 M V30 11 C 310.4942 -124.80942 0 0 M V30 12 C 320.6828 -130.69182 0 0 M V30 13 C 330.8714 -124.80942 0 0 M V30 14 C 330.8714 -113.04463 0 0 M V30 15 C 320.6828 -107.16223 0 0 M V30 16 C 341.06003 -130.69182 0 0 M V30 17 C 294.42319 -96.97363 0 0 M V30 18 C 306.18799 -96.97363 0 0 M V30 END ATOM M V30 BEGIN BOND M V30 1 2 1 2 M V30 2 1 2 3 M V30 3 2 3 4 M V30 4 1 4 5 M V30 5 2 5 6 M V30 6 1 6 1 M V30 7 1 7 8 M V30 8 1 2 7 M V30 9 1 5 9 M V30 10 1 9 10 M V30 11 2 10 11 M V30 12 1 11 12 M V30 13 2 12 13 M V30 14 1 13 14 M V30 15 2 14 15 M V30 16 1 15 10 M V30 17 1 13 16 M V30 18 1 9 17 M V30 19 1 9 18 M V30 END BOND M V30 END CTAB M END WTEVQBCEXWBHNA-JXMROGBWSA-N InChI=1S/C10H16O/c1-9(2)5-4-6-10(3)7-8-11/h5,7-8H,4,6H2,1-3H3/b10-7+ CC(=CCC/C(=C/C=O)/C)C CC(C)=CCCC(=CC=O)C |(75.83,-108.55,;75.83,-120.31,;65.64,-126.2,;86.01,-126.2,;96.2,-120.31,;106.39,-126.2,;116.58,-120.31,;126.77,-126.2,;136.96,-120.31,;136.96,-108.59,;116.58,-108.55,)| AuxInfo=1/0/N:1,3,9,5,4,6,8,10,2,7,11/E:(1,2)/rA:11nCCCCCCCCCCO/rB:s1;s2;d2;s4;s5;s6;d+7;s7;s8;d10;/rC:75,8256,-108,5489,0;75,8256,-120,3137,0;65,6370,-126,1961,0;86,0142,-126,1961,0;96,2028,-120,3137,0;106,3914,-126,1961,0;116,5800,-120,3137,0;126,7687,-126,1961,0;116,5800,-108,5489,0;136,9573,-120,3137,0;136,9573,-108,5898,0; C10H16O C* Me,C(=O)* CHO + CDK 04212619522D 0 0 0 0 0 999 V3000 M V30 BEGIN CTAB M V30 COUNTS 11 10 0 0 0 M V30 BEGIN ATOM M V30 1 C 75.82561 -108.54893 0 0 M V30 2 C 75.82561 -120.31374 0 0 M V30 3 C 65.63699 -126.19612 0 0 M V30 4 C 86.01422 -126.19612 0 0 M V30 5 C 96.20284 -120.31374 0 0 M V30 6 C 106.39143 -126.19612 0 0 M V30 7 C 116.58005 -120.31374 0 0 M V30 8 C 126.76866 -126.19612 0 0 M V30 9 C 116.58005 -108.54893 0 0 M V30 10 C 136.95728 -120.31374 0 0 M V30 11 O 136.95726 -108.58978 0 0 M V30 END ATOM M V30 BEGIN BOND M V30 1 1 1 2 M V30 2 1 2 3 M V30 3 2 2 4 M V30 4 1 4 5 M V30 5 1 5 6 M V30 6 1 6 7 M V30 7 2 7 8 M V30 8 1 7 9 M V30 9 2 10 11 M V30 10 1 8 10 M V30 END BOND M V30 END CTAB M END DQUHBUPSCAWERK-UHFFFAOYSA-N InChI=1S/C17H18O/c1-18-15-11-9-14(10-12-15)17-8-4-6-13-5-2-3-7-16(13)17/h2-3,5,7,9-12,17H,4,6,8H2,1H3 COC1=CC=C(C=C1)C2CCCC3=C2C=CC=C3 C=1C=CC2=C(C1)C(CCC2)C3=CC=C(C=C3)OC |(308.87,-90.53,;303.5,-80.03,;309.9,-70.13,;321.68,-70.72,;327.05,-81.22,;320.65,-91.12,;338.83,-81.81,;345.24,-71.91,;339.86,-61.41,;328.08,-60.82,;344.19,-92.27,;355.97,-92.87,;361.34,-103.36,;354.94,-113.27,;343.16,-112.67,;337.79,-102.18,;360.3,-123.73,;372.03,-124.32,)| AuxInfo=1/0/N:18,2,1,8,3,7,6,9,12,16,13,15,4,11,14,5,10,17/E:(9,10)(11,12)/rA:18nCCCCCCCCCCCCCCCCOC/rB:s1;d2;s3;d4;d1s5;s4;s7;s8;s5s9;s10;d11;s12;d13;s14;s11d15;s14;s17;/rC:308,8729,-90,5275,0;303,4977,-80,0301,0;309,9011,-70,1263,0;321,6797,-70,7200,0;327,0549,-81,2174,0;320,6515,-91,1212,0;328,0832,-60,8162,0;339,8619,-61,4099,0;345,2371,-71,9073,0;338,8336,-81,8111,0;344,1901,-92,2721,0;355,9688,-92,8657,0;361,3440,-103,3632,0;354,9405,-113,2669,0;343,1619,-112,6733,0;337,7867,-102,1758,0;360,2971,-123,7279,0;372,0348,-124,3195,0; C17H18O CO* OMe CDK 04212619522D 0 0 0 0 0 999 V3000 M V30 BEGIN CTAB M V30 COUNTS 18 20 0 0 0 M V30 BEGIN ATOM M V30 1 C 308.87286 -90.52754 0 0 M V30 2 C 303.49768 -80.03011 0 0 M V30 3 C 309.90112 -70.12633 0 0 M V30 4 C 321.67975 -70.72 0 0 M V30 5 C 327.05493 -81.21742 0 0 M V30 6 C 320.65149 -91.12119 0 0 M V30 7 C 328.08319 -60.81622 0 0 M V30 8 C 339.86188 -61.40988 0 0 M V30 9 C 345.23706 -71.90732 0 0 M V30 10 C 338.83359 -81.81108 0 0 M V30 11 C 344.19012 -92.27206 0 0 M V30 12 C 355.96875 -92.86572 0 0 M V30 13 C 361.34399 -103.36316 0 0 M V30 14 C 354.94052 -113.26694 0 0 M V30 15 C 343.16187 -112.67326 0 0 M V30 16 C 337.78668 -102.17583 0 0 M V30 17 O 360.29706 -123.72792 0 0 M V30 18 C 372.03479 -124.31952 0 0 M V30 END ATOM M V30 BEGIN BOND M V30 1 1 1 2 M V30 2 2 2 3 M V30 3 1 3 4 M V30 4 2 4 5 M V30 5 1 5 6 M V30 6 2 6 1 M V30 7 1 4 7 M V30 8 1 7 8 M V30 9 1 8 9 M V30 10 1 10 5 M V30 11 1 10 9 M V30 12 1 10 11 M V30 13 2 11 12 M V30 14 1 12 13 M V30 15 2 13 14 M V30 16 1 14 15 M V30 17 2 15 16 M V30 18 1 16 11 M V30 19 1 17 18 M V30 20 1 14 17 M V30 END BOND M V30 END CTAB M END FLWSNJAEMMOZJG-UHFFFAOYSA-N InChI=1S/C16H18/c1-12-9-10-16(11-13(12)2)14(3)15-7-5-4-6-8-15/h4-11,14H,1-3H3 CC1=CC=C(C=C1C)C(C)C2=CC=CC=C2 CC1=C(C=C(C=C1)C(C)C2=CC=CC=C2)C |(44.8,-107.73,;55.17,-101.74,;55.17,-89.73,;65.58,-83.72,;75.98,-89.73,;75.98,-101.74,;65.58,-107.75,;86.35,-83.74,;86.35,-71.77,;96.72,-89.73,;96.72,-101.48,;106.9,-107.35,;117.07,-101.48,;117.07,-89.73,;106.9,-83.85,;45,-83.85,)| AuxInfo=1/0/N:1,16,9,13,12,14,11,15,4,5,7,3,2,8,10,6/E:(5,6)(7,8)/rA:16nCCCCCCCCCCCCCCCC/rB:;s1d2;s3;d4;s5;s2d6;s6;s8;s8;d10;s11;d12;s13;s10d14;s2;/rC:44,8042,-107,7316,0;55,1735,-89,7298,0;55,1735,-101,7449,0;65,5790,-107,7525,0;75,9844,-101,7449,0;75,9844,-89,7298,0;65,5790,-83,7222,0;86,3537,-83,7431,0;86,3537,-71,7696,0;96,7230,-89,7298,0;96,7230,-101,4798,0;106,8988,-107,3548,0;117,0746,-101,4798,0;117,0746,-89,7298,0;106,8988,-83,8548,0;44,9955,-83,8535,0; C16H18 C1=CC=C(C=C1)* Ph,C* Me CDK 04212619522D 0 0 0 0 0 999 V3000 M V30 BEGIN CTAB M V30 COUNTS 16 17 0 0 0 M V30 BEGIN ATOM M V30 1 C 44.80423 -107.73164 0 0 M V30 2 C 55.17354 -89.72978 0 0 M V30 3 C 55.17354 -101.74493 0 0 M V30 4 C 65.57898 -107.75252 0 0 M V30 5 C 75.98442 -101.74493 0 0 M V30 6 C 75.98442 -89.72978 0 0 M V30 7 C 65.57898 -83.72221 0 0 M V30 8 C 86.35371 -83.74309 0 0 M V30 9 C 86.35371 -71.76964 0 0 M V30 10 C 96.72301 -89.72978 0 0 M V30 11 C 96.72302 -101.47978 0 0 M V30 12 C 106.89882 -107.35478 0 0 M V30 13 C 117.07462 -101.47977 0 0 M V30 14 C 117.0746 -89.72977 0 0 M V30 15 C 106.8988 -83.85478 0 0 M V30 16 C 44.99545 -83.85347 0 0 M V30 END ATOM M V30 BEGIN BOND M V30 1 2 2 3 M V30 2 1 3 4 M V30 3 2 4 5 M V30 4 1 5 6 M V30 5 2 6 7 M V30 6 1 7 2 M V30 7 1 6 8 M V30 8 1 8 9 M V30 9 2 10 11 M V30 10 1 11 12 M V30 11 2 12 13 M V30 12 1 13 14 M V30 13 2 14 15 M V30 14 1 10 15 M V30 15 1 8 10 M V30 16 1 3 1 M V30 17 1 2 16 M V30 END BOND M V30 END CTAB M END QFRZPXZJXKYCIW-UHFFFAOYSA-N InChI=1S/C16H18O/c1-16(2,13-7-5-4-6-8-13)14-9-11-15(17-3)12-10-14/h4-12H,1-3H3 CC(C)(C1=CC=CC=C1)C2=CC=C(C=C2)OC C1=CC=CC(=C1)C(C)(C)C2=CC=C(C=C2)OC |(406.95,-60.28,;415.44,-68.4,;412.65,-79.82,;401.37,-83.11,;392.88,-74.99,;395.67,-63.57,;381.59,-78.28,;370.31,-81.57,;378.3,-67,;384.88,-89.56,;396.3,-92.35,;399.59,-103.63,;391.47,-112.13,;380.05,-109.34,;376.76,-98.05,;394.76,-123.41,;386.63,-131.9,)| AuxInfo=1/0/N:8,9,17,2,1,3,6,4,11,15,12,14,5,10,13,7,16/E:(1,2)(5,6)(7,8)(9,10)(11,12)/rA:17nCCCCCCCCCCCCCCCOC/rB:d1;s2;d3;s4;s1d5;s5;s7;s7;s7;d10;s11;d12;s13;s10d14;s13;s16;/rC:406,9490,-60,2796,0;415,4405,-68,4048,0;412,6497,-79,8213,0;401,3673,-83,1126,0;392,8757,-74,9874,0;395,6666,-63,5710,0;381,5934,-78,2787,0;370,3110,-81,5701,0;378,3021,-66,9964,0;384,8847,-89,5611,0;396,3011,-92,3519,0;399,5925,-103,6343,0;391,4673,-112,1259,0;380,0508,-109,3350,0;376,7595,-98,0527,0;394,7586,-123,4082,0;386,6334,-131,8998,0; C16H18O C* Me,CO* OMe CDK 04212619522D 0 0 0 0 0 999 V3000 M V30 BEGIN CTAB M V30 COUNTS 17 18 0 0 0 M V30 BEGIN ATOM M V30 1 C 406.94897 -60.27963 0 0 M V30 2 C 415.44049 -68.4048 0 0 M V30 3 C 412.64966 -79.82127 0 0 M V30 4 C 401.36731 -83.11259 0 0 M V30 5 C 392.87573 -74.98743 0 0 M V30 6 C 395.6666 -63.57095 0 0 M V30 7 C 381.59338 -78.27875 0 0 M V30 8 C 370.31104 -81.57005 0 0 M V30 9 C 378.30206 -66.99637 0 0 M V30 10 C 384.8847 -89.5611 0 0 M V30 11 C 396.30115 -92.35193 0 0 M V30 12 C 399.59247 -103.63431 0 0 M V30 13 C 391.46729 -112.12585 0 0 M V30 14 C 380.05084 -109.33501 0 0 M V30 15 C 376.75952 -98.05266 0 0 M V30 16 O 394.75861 -123.40823 0 0 M V30 17 C 386.63342 -131.89978 0 0 M V30 END ATOM M V30 BEGIN BOND M V30 1 2 1 2 M V30 2 1 2 3 M V30 3 2 3 4 M V30 4 1 4 5 M V30 5 2 5 6 M V30 6 1 6 1 M V30 7 1 5 7 M V30 8 1 7 8 M V30 9 1 7 9 M V30 10 1 7 10 M V30 11 2 10 11 M V30 12 1 11 12 M V30 13 2 12 13 M V30 14 1 13 14 M V30 15 2 14 15 M V30 16 1 15 10 M V30 17 1 16 17 M V30 18 1 13 16 M V30 END BOND M V30 END CTAB M END QVLVXKKHSCUSCZ-UHFFFAOYSA-N InChI=1S/C12H12S/c1-10(12-8-5-9-13-12)11-6-3-2-4-7-11/h2-10H,1H3 CC(C1=CC=CC=C1)C2=CC=CS2 C1(=CC=CS1)C(C)C2=CC=CC=C2 |(190.45,-90.27,;186.42,-78.95,;174.41,-79.29,;171.02,-90.81,;180.94,-97.6,;201.95,-93.66,;210.62,-85.4,;204.76,-105.3,;196.25,-113.41,;199.01,-124.83,;210.28,-128.15,;218.79,-120.05,;216.03,-108.62,)| AuxInfo=1/0/N:7,11,10,12,3,9,13,2,4,6,8,1,5/E:(3,4)(6,7)/rA:13nCCCCSCCCCCCCC/rB:d1;s2;d3;s1s4;s1;s6;s6;d8;s9;d10;s11;s8d12;/rC:190,4516,-90,2733,0;186,4205,-78,9465,0;174,4102,-79,2854,0;171,0210,-90,8126,0;180,9368,-97,5980,0;201,9453,-93,6584,0;210,6237,-85,3970,0;204,7607,-105,3047,0;196,2502,-113,4062,0;199,0111,-124,8273,0;210,2824,-128,1468,0;218,7929,-120,0453,0;216,0320,-108,6243,0; C12H12S C1=CC=C(C=C1)* Ph,C* Me CDK 04212619522D 0 0 0 0 0 999 V3000 M V30 BEGIN CTAB M V30 COUNTS 13 14 0 0 0 M V30 BEGIN ATOM M V30 1 C 190.45157 -90.27335 0 0 M V30 2 C 186.42055 -78.94653 0 0 M V30 3 C 174.41019 -79.28537 0 0 M V30 4 C 171.02104 -90.81259 0 0 M V30 5 S 180.93681 -97.59796 0 0 M V30 6 C 201.94528 -93.65836 0 0 M V30 7 C 210.62366 -85.39702 0 0 M V30 8 C 204.76065 -105.30473 0 0 M V30 9 C 196.25018 -113.40625 0 0 M V30 10 C 199.01108 -124.82729 0 0 M V30 11 C 210.28242 -128.14679 0 0 M V30 12 C 218.79289 -120.04527 0 0 M V30 13 C 216.032 -108.62425 0 0 M V30 END ATOM M V30 BEGIN BOND M V30 1 2 1 2 M V30 2 1 2 3 M V30 3 2 3 4 M V30 4 1 4 5 M V30 5 1 5 1 M V30 6 1 1 6 M V30 7 1 6 7 M V30 8 2 8 9 M V30 9 1 9 10 M V30 10 2 10 11 M V30 11 1 11 12 M V30 12 2 12 13 M V30 13 1 8 13 M V30 14 1 6 8 M V30 END BOND M V30 END CTAB M END XHRCGFHNGRHIHG-UHFFFAOYSA-N InChI=1S/C15H15FO/c1-11(14-5-3-4-6-15(14)16)12-7-9-13(17-2)10-8-12/h3-11H,1-2H3 CC(C1=CC=C(C=C1)OC)C2=C(C=CC=C2)F C1(C(C)C2=CC=C(C=C2)OC)=CC=CC=C1F |(243.12,-87.55,;253.34,-81.65,;253.34,-69.85,;263.56,-87.55,;263.56,-99.34,;273.77,-105.24,;283.98,-99.34,;283.98,-87.55,;273.77,-81.65,;294.16,-105.22,;294.16,-116.97,;232.91,-81.65,;222.69,-87.55,;222.69,-99.34,;232.91,-105.24,;243.12,-99.34,;253.3,-105.22,)| AuxInfo=1/0/N:3,16,6,7,5,8,10,14,11,13,2,4,12,1,9,17,15/E:(7,8)(9,10)/rA:17nCCCCCCCCCCCCCCOCF/rB:s1;s2;s2;d1;s5;d6;s7;s1d8;d4;s10;d11;s12;s4d13;s12;s15;s9;/rC:243,1197,-87,5475,0;253,3380,-81,6480,0;253,3380,-69,8489,0;263,5562,-87,5475,0;232,9061,-81,6507,0;222,6926,-87,5475,0;222,6926,-99,3411,0;232,9061,-105,2379,0;243,1197,-99,3411,0;263,5562,-99,3411,0;273,7697,-105,2379,0;283,9832,-99,3411,0;283,9832,-87,5475,0;273,7697,-81,6507,0;294,1613,-105,2174,0;294,1613,-116,9700,0;253,2977,-105,2174,0; C15H15FO C* Me,CO* OMe CDK 04212619522D 0 0 0 0 0 999 V3000 M V30 BEGIN CTAB M V30 COUNTS 17 18 0 0 0 M V30 BEGIN ATOM M V30 1 C 243.11966 -87.54749 0 0 M V30 2 C 253.33795 -81.64796 0 0 M V30 3 C 253.33795 -69.84889 0 0 M V30 4 C 263.55618 -87.54749 0 0 M V30 5 C 232.90611 -81.6507 0 0 M V30 6 C 222.69255 -87.54749 0 0 M V30 7 C 222.69255 -99.34106 0 0 M V30 8 C 232.90611 -105.23785 0 0 M V30 9 C 243.11966 -99.34106 0 0 M V30 10 C 263.55615 -99.34106 0 0 M V30 11 C 273.76968 -105.23788 0 0 M V30 12 C 283.98325 -99.34106 0 0 M V30 13 C 283.98325 -87.54749 0 0 M V30 14 C 273.76968 -81.65065 0 0 M V30 15 O 294.16132 -105.21736 0 0 M V30 16 C 294.16135 -116.97002 0 0 M V30 17 F 253.29774 -105.21736 0 0 M V30 END ATOM M V30 BEGIN BOND M V30 1 1 1 2 M V30 2 1 2 3 M V30 3 1 2 4 M V30 4 2 1 5 M V30 5 1 5 6 M V30 6 2 6 7 M V30 7 1 7 8 M V30 8 2 8 9 M V30 9 1 9 1 M V30 10 2 4 10 M V30 11 1 10 11 M V30 12 2 11 12 M V30 13 1 12 13 M V30 14 2 13 14 M V30 15 1 14 4 M V30 16 1 15 16 M V30 17 1 12 15 M V30 18 1 9 17 M V30 END BOND M V30 END CTAB M END ICLPNZMYHDVKKI-UHFFFAOYSA-N InChI=1S/C18H20/c1-17(2)13-18(3,14-9-5-4-6-10-14)16-12-8-7-11-15(16)17/h4-12H,13H2,1-3H3 CC1(C)CC(C)(C2=CC=CC=C2)C3=C1C=CC=C3 C1=CC=C2C(=C1)C(CC2(C3=CC=CC=C3)C)(C)C |(17.02,-209.93,;17.02,-221.7,;27.21,-227.58,;37.39,-221.7,;37.39,-209.93,;27.21,-204.05,;48.58,-206.3,;55.5,-215.82,;48.58,-225.33,;58.74,-231.2,;58.74,-242.95,;68.91,-248.82,;79.09,-242.95,;79.09,-231.2,;68.91,-225.32,;43.82,-236.05,;43.82,-195.59,;58.74,-200.44,)| AuxInfo=1/0/N:17,18,16,13,12,14,1,2,11,15,6,3,8,10,5,4,9,7/E:(1,2)(5,6)(9,10)/rA:18nCCCCCCCCCCCCCCCCCC/rB:d1;s2;d3;s4;s1d5;s4;s7;s5s8;s7;d10;s11;d12;s13;s10d14;s7;s9;s9;/rC:17,0176,-209,9345,0;17,0176,-221,6993,0;27,2063,-227,5817,0;37,3949,-221,6993,0;37,3949,-209,9345,0;27,2063,-204,0521,0;48,5838,-225,3348,0;55,4990,-215,8169,0;48,5838,-206,2990,0;58,7371,-231,1967,0;58,7371,-242,9467,0;68,9129,-248,8217,0;79,0887,-242,9467,0;79,0887,-231,1967,0;68,9129,-225,3217,0;43,8153,-236,0452,0;43,8153,-195,5886,0;58,7371,-200,4370,0; C18H20 C1=CC=C(C=C1)* Ph,C* Me CDK 04212619522D 0 0 0 0 0 999 V3000 M V30 BEGIN CTAB M V30 COUNTS 18 20 0 0 0 M V30 BEGIN ATOM M V30 1 C 17.01764 -209.93448 0 0 M V30 2 C 17.01764 -221.69928 0 0 M V30 3 C 27.20625 -227.58167 0 0 M V30 4 C 37.39487 -221.69928 0 0 M V30 5 C 37.39487 -209.93448 0 0 M V30 6 C 27.20625 -204.05208 0 0 M V30 7 C 48.58383 -225.33478 0 0 M V30 8 C 55.49902 -215.81688 0 0 M V30 9 C 48.58383 -206.29895 0 0 M V30 10 C 58.73708 -231.19675 0 0 M V30 11 C 58.73709 -242.94675 0 0 M V30 12 C 68.91289 -248.82173 0 0 M V30 13 C 79.08868 -242.94673 0 0 M V30 14 C 79.08867 -231.19673 0 0 M V30 15 C 68.91287 -225.32173 0 0 M V30 16 C 43.81528 -236.04515 0 0 M V30 17 C 43.81528 -195.58858 0 0 M V30 18 C 58.73708 -200.43698 0 0 M V30 END ATOM M V30 BEGIN BOND M V30 1 2 1 2 M V30 2 1 2 3 M V30 3 2 3 4 M V30 4 1 4 5 M V30 5 2 5 6 M V30 6 1 6 1 M V30 7 1 4 7 M V30 8 1 7 8 M V30 9 1 8 9 M V30 10 1 9 5 M V30 11 2 10 11 M V30 12 1 11 12 M V30 13 2 12 13 M V30 14 1 13 14 M V30 15 2 14 15 M V30 16 1 10 15 M V30 17 1 7 10 M V30 18 1 7 16 M V30 19 1 9 17 M V30 20 1 9 18 M V30 END BOND M V30 END CTAB M END NHZVDEWMDVTVLX-UHFFFAOYSA-N InChI=1S/C28H24/c1-27(22-13-5-2-6-14-22)21-28(23-15-7-3-8-16-23,24-17-9-4-10-18-24)26-20-12-11-19-25(26)27/h2-20H,21H2,1H3 CC1(CC(C2=CC=CC=C2)(C3=CC=CC=C3)C4=C1C=CC=C4)C5=CC=CC=C5 C1=CC=C2C(=C1)C(CC2(C3=CC=CC=C3)C4=CC=CC=C4)(C5=CC=CC=C5)C |(71.55,-208.71,;71.55,-220.47,;81.74,-226.36,;91.93,-220.47,;91.93,-208.71,;81.74,-202.83,;103.12,-205.07,;110.03,-214.59,;103.12,-224.11,;113.27,-229.97,;113.27,-241.72,;123.45,-247.6,;133.62,-241.72,;133.62,-229.97,;123.45,-224.1,;98.35,-234.82,;86.66,-236.05,;81.89,-246.78,;88.79,-256.29,;100.48,-255.06,;105.26,-244.33,;98.35,-194.36,;105.26,-184.86,;100.48,-174.12,;88.79,-172.89,;81.89,-182.4,;86.66,-193.13,;113.27,-199.21,)| AuxInfo=1/0/N:28,25,13,19,24,26,12,14,18,20,1,2,23,27,11,15,17,21,6,3,8,22,10,16,5,4,9,7/E:(3,4)(5,6)(7,8,9,10)(13,14)(15,16,17,18)(23,24)/rA:28nCCCCCCCCCCCCCCCCCCCCCCCCCCCC/rB:d1;s2;d3;s4;s1d5;s4;s7;s5s8;s7;d10;s11;d12;s13;s10d14;s7;d16;s17;d18;s19;s16d20;s9;d22;s23;d24;s25;s22d26;s9;/rC:71,5524,-208,7090,0;71,5524,-220,4738,0;81,7410,-226,3562,0;91,9296,-220,4738,0;91,9296,-208,7090,0;81,7410,-202,8266,0;103,1186,-224,1093,0;110,0338,-214,5914,0;103,1186,-205,0734,0;113,2718,-229,9713,0;113,2718,-241,7213,0;123,4476,-247,5962,0;133,6234,-241,7212,0;133,6234,-229,9712,0;123,4476,-224,0962,0;98,3500,-234,8196,0;86,6644,-236,0479,0;81,8853,-246,7820,0;88,7917,-256,2880,0;100,4774,-255,0598,0;105,2565,-244,3256,0;98,3500,-194,3631,0;105,2565,-184,8571,0;100,4773,-174,1230,0;88,7917,-172,8948,0;81,8852,-182,4007,0;86,6644,-193,1349,0;113,2718,-199,2115,0; C28H24 C1=CC=C(C=C1)* Ph,C* Me CDK 04212619522D 0 0 0 0 0 999 V3000 M V30 BEGIN CTAB M V30 COUNTS 28 32 0 0 0 M V30 BEGIN ATOM M V30 1 C 71.5524 -208.70898 0 0 M V30 2 C 71.5524 -220.47377 0 0 M V30 3 C 81.74101 -226.35617 0 0 M V30 4 C 91.92961 -220.47377 0 0 M V30 5 C 91.92961 -208.70898 0 0 M V30 6 C 81.74101 -202.82658 0 0 M V30 7 C 103.11858 -224.10928 0 0 M V30 8 C 110.03377 -214.59137 0 0 M V30 9 C 103.11858 -205.07344 0 0 M V30 10 C 113.27182 -229.97125 0 0 M V30 11 C 113.27184 -241.72125 0 0 M V30 12 C 123.44765 -247.59624 0 0 M V30 13 C 133.62344 -241.72122 0 0 M V30 14 C 133.62343 -229.97122 0 0 M V30 15 C 123.44762 -224.09624 0 0 M V30 16 C 98.35004 -234.81964 0 0 M V30 17 C 86.6644 -236.04787 0 0 M V30 18 C 81.88525 -246.78203 0 0 M V30 19 C 88.79175 -256.28796 0 0 M V30 20 C 100.47737 -255.05975 0 0 M V30 21 C 105.25652 -244.32559 0 0 M V30 22 C 98.35002 -194.36308 0 0 M V30 23 C 105.2565 -184.85713 0 0 M V30 24 C 100.47734 -174.12297 0 0 M V30 25 C 88.7917 -172.89476 0 0 M V30 26 C 81.88524 -182.40071 0 0 M V30 27 C 86.66438 -193.13487 0 0 M V30 28 C 113.27182 -199.21147 0 0 M V30 END ATOM M V30 BEGIN BOND M V30 1 2 1 2 M V30 2 1 2 3 M V30 3 2 3 4 M V30 4 1 4 5 M V30 5 2 5 6 M V30 6 1 6 1 M V30 7 1 4 7 M V30 8 1 7 8 M V30 9 1 8 9 M V30 10 1 9 5 M V30 11 2 10 11 M V30 12 1 11 12 M V30 13 2 12 13 M V30 14 1 13 14 M V30 15 2 14 15 M V30 16 1 10 15 M V30 17 1 7 10 M V30 18 2 16 17 M V30 19 1 17 18 M V30 20 2 18 19 M V30 21 1 19 20 M V30 22 2 20 21 M V30 23 1 16 21 M V30 24 1 7 16 M V30 25 2 22 23 M V30 26 1 23 24 M V30 27 2 24 25 M V30 28 1 25 26 M V30 29 2 26 27 M V30 30 1 22 27 M V30 31 1 9 22 M V30 32 1 9 28 M V30 END BOND M V30 END CTAB M END OOPJSOXFEJURNP-UHFFFAOYSA-N InChI=1S/C20H24/c1-14-6-9-16(10-7-14)20(5)13-19(3,4)17-11-8-15(2)12-18(17)20/h6-12H,13H2,1-5H3 CC1=CC=C(C=C1)C2(C)CC(C)(C)C3=CC=C(C)C=C32 C1=C(C=C2C(=C1)C(CC2(C3=CC=C(C=C3)C)C)(C)C)C |(143.24,-208.1,;143.24,-219.86,;153.43,-225.74,;163.62,-219.86,;163.62,-208.1,;153.43,-202.21,;174.81,-204.46,;181.73,-213.98,;174.81,-223.5,;184.96,-229.36,;184.96,-241.12,;195.15,-247.01,;205.34,-241.12,;205.34,-229.36,;195.15,-223.48,;215.49,-246.99,;170.04,-234.21,;170.04,-193.75,;184.96,-198.6,;133.09,-225.72,)| AuxInfo=1/0/N:19,20,12,13,11,15,17,1,14,18,6,3,8,16,2,10,5,4,9,7/E:(3,4)(6,7)(9,10)/rA:20nCCCCCCCCCCCCCCCCCCCC/rB:d1;s2;d3;s4;s1d5;s4;s7;s5s8;s7;s7;s9;s9;d10;s14;d15;s16;s10d17;s16;s2;/rC:143,2441,-208,0962,0;143,2441,-219,8610,0;153,4328,-225,7434,0;163,6214,-219,8610,0;163,6214,-208,0962,0;153,4328,-202,2138,0;174,8103,-223,4965,0;181,7255,-213,9786,0;174,8103,-204,4607,0;184,9636,-229,3585,0;170,0418,-234,2069,0;170,0418,-193,7503,0;184,9636,-198,5987,0;184,9636,-241,1233,0;195,1522,-247,0057,0;205,3408,-241,1233,0;205,3408,-229,3585,0;195,1522,-223,4761,0;215,4940,-246,9853,0;133,0909,-225,7230,0; C20H24 C* Me CDK 04212619522D 0 0 0 0 0 999 V3000 M V30 BEGIN CTAB M V30 COUNTS 20 22 0 0 0 M V30 BEGIN ATOM M V30 1 C 143.24414 -208.09622 0 0 M V30 2 C 143.24414 -219.86102 0 0 M V30 3 C 153.43275 -225.74342 0 0 M V30 4 C 163.62135 -219.86102 0 0 M V30 5 C 163.62135 -208.09622 0 0 M V30 6 C 153.43275 -202.21384 0 0 M V30 7 C 174.81033 -223.49654 0 0 M V30 8 C 181.72552 -213.97862 0 0 M V30 9 C 174.81033 -204.46069 0 0 M V30 10 C 184.96358 -229.35851 0 0 M V30 11 C 170.04178 -234.20689 0 0 M V30 12 C 170.04176 -193.75034 0 0 M V30 13 C 184.96358 -198.59872 0 0 M V30 14 C 184.96359 -241.12328 0 0 M V30 15 C 195.15222 -247.00566 0 0 M V30 16 C 205.34082 -241.12328 0 0 M V30 17 C 205.34082 -229.35851 0 0 M V30 18 C 195.15222 -223.47612 0 0 M V30 19 C 215.49405 -246.98528 0 0 M V30 20 C 133.0909 -225.72299 0 0 M V30 END ATOM M V30 BEGIN BOND M V30 1 2 1 2 M V30 2 1 2 3 M V30 3 2 3 4 M V30 4 1 4 5 M V30 5 2 5 6 M V30 6 1 6 1 M V30 7 1 4 7 M V30 8 1 7 8 M V30 9 1 8 9 M V30 10 1 9 5 M V30 11 1 7 10 M V30 12 1 7 11 M V30 13 1 9 12 M V30 14 1 9 13 M V30 15 2 10 14 M V30 16 1 14 15 M V30 17 2 15 16 M V30 18 1 16 17 M V30 19 2 17 18 M V30 20 1 18 10 M V30 21 1 16 19 M V30 22 1 2 20 M V30 END BOND M V30 END CTAB M END WSYIQSUNZBDCFA-UHFFFAOYSA-N InChI=1S/C18H18Cl2/c1-17(2)11-18(3,12-4-6-13(19)7-5-12)16-10-14(20)8-9-15(16)17/h4-10H,11H2,1-3H3 CC1(C)CC(C)(C2=CC=C(C=C2)Cl)C3=CC(=CC=C31)Cl C1=C(C=C2C(=C1)C(CC2(C3=CC=C(C=C3)Cl)C)(C)C)Cl |(223.51,-205.03,;223.51,-216.8,;233.7,-222.68,;243.89,-216.8,;243.89,-205.03,;233.7,-199.15,;255.08,-201.4,;262,-210.91,;255.08,-220.43,;265.23,-226.29,;265.23,-238.06,;275.42,-243.94,;285.61,-238.06,;285.61,-226.29,;275.42,-220.41,;295.76,-243.92,;250.31,-231.14,;250.31,-190.69,;265.23,-195.53,;213.36,-222.66,)| AuxInfo=1/0/N:12,13,11,14,18,15,17,1,6,3,8,10,16,2,5,4,9,7,19,20/E:(1,2)(4,5)(6,7)/rA:20nCCCCCCCCCCCCCCCCCCClCl/rB:d1;s2;d3;s4;s1d5;s4;s7;s5s8;s7;s7;s9;s9;d10;s14;d15;s16;s10d17;s16;s2;/rC:223,5144,-205,0325,0;223,5144,-216,7973,0;233,7030,-222,6797,0;243,8916,-216,7973,0;243,8916,-205,0325,0;233,7030,-199,1501,0;255,0806,-220,4328,0;261,9958,-210,9149,0;255,0806,-201,3969,0;265,2338,-226,2948,0;250,3120,-231,1431,0;250,3120,-190,6866,0;265,2338,-195,5350,0;265,2338,-238,0595,0;275,4225,-243,9419,0;285,6111,-238,0595,0;285,6111,-226,2948,0;275,4225,-220,4124,0;295,7643,-243,9215,0;213,3611,-222,6592,0; C18H18Cl2 C* Me CDK 04212619522D 0 0 0 0 0 999 V3000 M V30 BEGIN CTAB M V30 COUNTS 20 22 0 0 0 M V30 BEGIN ATOM M V30 1 C 223.51439 -205.03249 0 0 M V30 2 C 223.51439 -216.79727 0 0 M V30 3 C 233.703 -222.67967 0 0 M V30 4 C 243.89162 -216.79727 0 0 M V30 5 C 243.89162 -205.03249 0 0 M V30 6 C 233.703 -199.15009 0 0 M V30 7 C 255.08058 -220.43279 0 0 M V30 8 C 261.99579 -210.91487 0 0 M V30 9 C 255.08058 -201.39694 0 0 M V30 10 C 265.23383 -226.29475 0 0 M V30 11 C 250.31203 -231.14314 0 0 M V30 12 C 250.31203 -190.68658 0 0 M V30 13 C 265.23383 -195.53497 0 0 M V30 14 C 265.23383 -238.05952 0 0 M V30 15 C 275.42249 -243.94191 0 0 M V30 16 C 285.61108 -238.05952 0 0 M V30 17 C 285.61108 -226.29475 0 0 M V30 18 C 275.42249 -220.41237 0 0 M V30 19 Cl 295.76428 -243.92152 0 0 M V30 20 Cl 213.36115 -222.65924 0 0 M V30 END ATOM M V30 BEGIN BOND M V30 1 2 1 2 M V30 2 1 2 3 M V30 3 2 3 4 M V30 4 1 4 5 M V30 5 2 5 6 M V30 6 1 6 1 M V30 7 1 4 7 M V30 8 1 7 8 M V30 9 1 8 9 M V30 10 1 9 5 M V30 11 1 7 10 M V30 12 1 7 11 M V30 13 1 9 12 M V30 14 1 9 13 M V30 15 2 10 14 M V30 16 1 14 15 M V30 17 2 15 16 M V30 18 1 16 17 M V30 19 2 17 18 M V30 20 1 18 10 M V30 21 1 16 19 M V30 22 1 2 20 M V30 END BOND M V30 END CTAB M END DPOQNDBYDWROPT-UHFFFAOYSA-N InChI=1S/C24H23N/c1-3-21(19-9-5-4-6-10-19)23-17-25(20-15-13-18(2)14-16-20)24-12-8-7-11-22(23)24/h4-17,21H,3H2,1-2H3 CCC(C1=CC=CC=C1)C2=CN(C3=CC=C(C)C=C3)C4=C2C=CC=C4 AuxInfo=1/0/N:18,25,11,15,14,16,1,2,13,17,6,3,21,23,20,24,8,22,12,19,10,5,9,4,7/E:(5,6)(9,10)(13,14)(15,16)/rA:25nCCCCCCNCCCCCCCCCCCCCCCCCC/rB:d1;s2;d3;s4;s1d5;s4;s7;s5d8;s9;s10;s10;d12;s13;d14;s15;s12d16;s11;s7;d19;s20;d21;s22;s19d23;s22;/rC:288,6702,-209,0041,0;288,6702,-220,8826,0;298,9572,-226,8218,0;309,2443,-220,8826,0;309,2443,-209,0041,0;298,9572,-203,0649,0;320,5414,-224,5532,0;327,5234,-214,9433,0;320,5414,-205,3335,0;324,1993,-194,0756,0;316,2786,-185,2788,0;335,7779,-191,6144,0;343,7261,-200,4419,0;355,3450,-197,9722,0;359,0157,-186,6751,0;351,0674,-177,8477,0;339,4485,-180,3173,0;319,9365,-174,0209,0;324,1993,-235,8111,0;324,1993,-235,8111,0;324,1993,-235,8111,0;324,1993,-235,8111,0;324,1993,-235,8111,0;324,1993,-235,8111,0;324,1993,-235,8111,0; C24H23N *C1=CC=C(C=C1)C p-tol,C* Me CDK 04212619522D 0 0 0 0 0 999 V3000 M V30 BEGIN CTAB M V30 COUNTS 25 28 0 0 0 M V30 BEGIN ATOM M V30 1 C 288.67017 -209.0041 0 0 M V30 2 C 288.67017 -220.88258 0 0 M V30 3 C 298.95721 -226.82182 0 0 M V30 4 C 309.24429 -220.88258 0 0 M V30 5 C 309.24429 -209.0041 0 0 M V30 6 C 298.95721 -203.06487 0 0 M V30 7 N 320.54138 -224.55324 0 0 M V30 8 C 327.52338 -214.94334 0 0 M V30 9 C 320.54138 -205.33345 0 0 M V30 10 C 324.19928 -194.07556 0 0 M V30 11 C 316.27863 -185.27876 0 0 M V30 12 C 335.77786 -191.61444 0 0 M V30 13 C 343.72614 -200.44188 0 0 M V30 14 C 355.34503 -197.9722 0 0 M V30 15 C 359.01569 -186.67509 0 0 M V30 16 C 351.06741 -177.84766 0 0 M V30 17 C 339.44852 -180.31734 0 0 M V30 18 C 319.93652 -174.02087 0 0 M V30 19 C 324.19928 -235.81113 0 0 M V30 20 C 324.19928 -235.81113 0 0 M V30 21 C 324.19928 -235.81113 0 0 M V30 22 C 324.19928 -235.81113 0 0 M V30 23 C 324.19928 -235.81113 0 0 M V30 24 C 324.19928 -235.81113 0 0 M V30 25 C 324.19928 -235.81113 0 0 M V30 END ATOM M V30 BEGIN BOND M V30 1 2 1 2 M V30 2 1 2 3 M V30 3 2 3 4 M V30 4 1 4 5 M V30 5 2 5 6 M V30 6 1 6 1 M V30 7 1 4 7 M V30 8 1 7 8 M V30 9 2 8 9 M V30 10 1 9 5 M V30 11 1 9 10 M V30 12 1 10 11 M V30 13 1 10 12 M V30 14 2 12 13 M V30 15 1 13 14 M V30 16 2 14 15 M V30 17 1 15 16 M V30 18 2 16 17 M V30 19 1 17 12 M V30 20 1 11 18 M V30 21 2 19 20 M V30 22 1 20 21 M V30 23 2 21 22 M V30 24 1 22 23 M V30 25 2 23 24 M V30 26 1 19 24 M V30 27 1 22 25 M V30 28 1 7 19 M V30 END BOND M V30 END CTAB M END GMIQCBHIOJWVKM-UHFFFAOYSA-N InChI=1S/C21H25N/c1-15(2)21(4,5)19-14-22(17-12-10-16(3)11-13-17)20-9-7-6-8-18(19)20/h6-15H,1-5H3 CC(C)C(C)(C)C1=CN(C2=CC=C(C)C=C2)C3=C1C=CC=C3 AuxInfo=1/0/N:14,15,22,11,12,1,2,6,3,18,20,17,21,8,13,19,16,5,9,4,10,7/E:(1,2)(4,5)(10,11)(12,13)/rA:22nCCCCCCNCCCCCCCCCCCCCCC/rB:d1;s2;d3;s4;s1d5;s4;s7;s5d8;s9;s10;s10;s10;s13;s13;s7;d16;s17;d18;s19;s16d20;s19;/rC:210,0989,-126,7208,0;210,0989,-138,5993,0;220,3860,-144,5385,0;230,6730,-138,5993,0;230,6730,-126,7208,0;220,3860,-120,7816,0;241,9701,-142,2700,0;248,9521,-132,6601,0;241,9701,-123,0502,0;245,6281,-111,7923,0;234,3702,-108,1344,0;243,1670,-100,2137,0;257,2066,-109,3312,0;260,8645,-98,0733,0;265,1273,-118,1280,0;245,6281,-153,5278,0;245,6281,-153,5278,0;245,6281,-153,5278,0;245,6281,-153,5278,0;245,6281,-153,5278,0;245,6281,-153,5278,0;245,6281,-153,5278,0; C21H25N *C1=CC=C(C=C1)C p-tol,C* Me CDK 04212619522D 0 0 0 0 0 999 V3000 M V30 BEGIN CTAB M V30 COUNTS 22 24 0 0 0 M V30 BEGIN ATOM M V30 1 C 210.09889 -126.72083 0 0 M V30 2 C 210.09889 -138.5993 0 0 M V30 3 C 220.38597 -144.53854 0 0 M V30 4 C 230.67303 -138.5993 0 0 M V30 5 C 230.67303 -126.72083 0 0 M V30 6 C 220.38597 -120.78159 0 0 M V30 7 N 241.97014 -142.26996 0 0 M V30 8 C 248.95213 -132.66006 0 0 M V30 9 C 241.97014 -123.05017 0 0 M V30 10 C 245.62805 -111.79228 0 0 M V30 11 C 234.37016 -108.13437 0 0 M V30 12 C 243.16696 -100.21371 0 0 M V30 13 C 257.2066 -109.33118 0 0 M V30 14 C 260.86453 -98.07329 0 0 M V30 15 C 265.12729 -118.12796 0 0 M V30 16 C 245.62805 -153.52785 0 0 M V30 17 C 245.62805 -153.52785 0 0 M V30 18 C 245.62805 -153.52785 0 0 M V30 19 C 245.62805 -153.52785 0 0 M V30 20 C 245.62805 -153.52785 0 0 M V30 21 C 245.62805 -153.52785 0 0 M V30 22 C 245.62805 -153.52785 0 0 M V30 END ATOM M V30 BEGIN BOND M V30 1 2 1 2 M V30 2 1 2 3 M V30 3 2 3 4 M V30 4 1 4 5 M V30 5 2 5 6 M V30 6 1 6 1 M V30 7 1 4 7 M V30 8 1 7 8 M V30 9 2 8 9 M V30 10 1 9 5 M V30 11 1 9 10 M V30 12 1 10 11 M V30 13 1 10 12 M V30 14 1 10 13 M V30 15 1 13 14 M V30 16 1 13 15 M V30 17 2 16 17 M V30 18 1 17 18 M V30 19 2 18 19 M V30 20 1 19 20 M V30 21 2 20 21 M V30 22 1 16 21 M V30 23 1 19 22 M V30 24 1 7 16 M V30 END BOND M V30 END CTAB M END KPTSJQCZBHYFRT-UHFFFAOYSA-N InChI=1S/C14H14N2O2/c17-16(18)13-8-4-7-11-12(9-15-14(11)13)10-5-2-1-3-6-10/h1-2,4,7-10,15H,3,5-6H2 C1=CCC(CC1)C2=CNC3=C2C=CC=C3[N+](=O)[O-] C1=CC(=C2C(=C1)C(=CN2)C3CC=CCC3)[N+](=O)[O-] |(206.39,-202.82,;206.39,-214.7,;216.67,-220.64,;226.96,-214.7,;226.96,-202.82,;216.67,-196.88,;238.26,-199.15,;245.24,-208.76,;238.26,-218.37,;241.92,-187.89,;253.53,-185.42,;257.21,-174.12,;249.26,-165.29,;237.64,-167.76,;233.97,-179.06,;216.67,-232.47,;206.42,-238.39,;226.93,-238.39,)| AuxInfo=1/0/N:16,15,17,1,14,18,6,2,8,10,5,9,3,4,7,11,12,13/E:(17,18)/CRV:16.5/rA:18nCCCCCCNCCCN+OO-CCCCC/rB:d1;s2;d3;s4;s1d5;s4;s7;s5d8;s9;s3;d11;s11;s10;s14;d15;s16;s10s17;/rC:206,3869,-202,8174,0;206,3869,-214,6959,0;216,6739,-220,6351,0;226,9610,-214,6959,0;226,9610,-202,8174,0;216,6739,-196,8781,0;238,2581,-218,3665,0;245,2401,-208,7566,0;238,2581,-199,1467,0;241,9160,-187,8889,0;216,6739,-232,4724,0;206,4226,-238,3910,0;226,9253,-238,3910,0;253,5349,-185,4192,0;257,2056,-174,1221,0;249,2573,-165,2946,0;237,6384,-167,7643,0;233,9678,-179,0614,0; C14H14N2O2 [N+](=O)([O-])* NO2 CDK 04212619522D 0 0 0 0 0 999 V3000 M V30 BEGIN CTAB M V30 COUNTS 18 20 0 0 0 M V30 BEGIN ATOM M V30 1 C 206.38687 -202.81738 0 0 M V30 2 C 206.38687 -214.69588 0 0 M V30 3 C 216.67393 -220.63512 0 0 M V30 4 C 226.96101 -214.69588 0 0 M V30 5 C 226.96101 -202.81738 0 0 M V30 6 C 216.67393 -196.87814 0 0 M V30 7 N 238.25812 -218.36653 0 0 M V30 8 C 245.24011 -208.75662 0 0 M V30 9 C 238.25812 -199.14673 0 0 M V30 10 C 241.91602 -187.88885 0 0 M V30 11 N 216.67393 -232.47235 0 0 CHG=1 M V30 12 O 206.42258 -238.39098 0 0 M V30 13 O 226.92529 -238.39098 0 0 CHG=-1 M V30 14 C 253.53493 -185.41916 0 0 M V30 15 C 257.20557 -174.12206 0 0 M V30 16 C 249.25732 -165.29462 0 0 M V30 17 C 237.6384 -167.7643 0 0 M V30 18 C 233.96776 -179.06142 0 0 M V30 END ATOM M V30 BEGIN BOND M V30 1 2 1 2 M V30 2 1 2 3 M V30 3 2 3 4 M V30 4 1 4 5 M V30 5 2 5 6 M V30 6 1 6 1 M V30 7 1 4 7 M V30 8 1 7 8 M V30 9 2 8 9 M V30 10 1 9 5 M V30 11 1 9 10 M V30 12 2 11 12 M V30 13 1 11 13 M V30 14 1 3 11 M V30 15 1 10 14 M V30 16 1 14 15 M V30 17 2 15 16 M V30 18 1 16 17 M V30 19 1 17 18 M V30 20 1 18 10 M V30 END BOND M V30 END CTAB M END LZKTZILXOJUTIW-UHFFFAOYSA-N InChI=1S/C19H22N2/c1-14(15-9-11-16(12-10-15)20(2)3)18-13-21(4)19-8-6-5-7-17(18)19/h5-14H,1-4H3 CC(C1=CC=C(C=C1)N(C)C)C2=CN(C)C3=C2C=CC=C3 C1=CC=C2C(=C1)C(=CN2C)C(C)C3=CC=C(C=C3)N(C)C |(289.91,-132.91,;289.91,-144.79,;300.19,-150.73,;310.48,-144.79,;310.48,-132.91,;300.19,-126.97,;321.78,-129.24,;328.76,-138.85,;321.78,-148.46,;325.44,-159.71,;325.44,-117.98,;317.52,-109.18,;337.02,-115.52,;344.96,-124.35,;356.58,-121.88,;360.25,-110.58,;352.3,-101.75,;340.69,-104.22,;371.83,-108.12,;379.75,-116.91,;375.49,-96.86,)| AuxInfo=1/0/N:11,19,20,21,1,2,6,3,13,17,14,16,8,10,12,15,5,9,4,18,7/E:(2,3)(9,10)(11,12)/rA:21nCCCCCCNCCCCCCCCCCNCCC/rB:d1;s2;d3;s4;s1d5;s4;s7;s5d8;s9;s10;s10;d12;s13;d14;s15;s12d16;s15;s18;s18;s7;/rC:289,9075,-132,9075,0;289,9075,-144,7860,0;300,1946,-150,7253,0;310,4816,-144,7860,0;310,4816,-132,9075,0;300,1946,-126,9683,0;321,7787,-148,4567,0;328,7607,-138,8468,0;321,7787,-129,2369,0;325,4366,-117,9790,0;317,5160,-109,1822,0;337,0152,-115,5179,0;344,9635,-124,3453,0;356,5824,-121,8756,0;360,2530,-110,5785,0;352,3047,-101,7511,0;340,6859,-104,2208,0;371,8316,-108,1174,0;379,7523,-116,9142,0;375,4895,-96,8595,0;325,4366,-159,7146,0; C19H22N2 CN(C)* NMe2,C* Me CDK 04212619522D 0 0 0 0 0 999 V3000 M V30 BEGIN CTAB M V30 COUNTS 21 23 0 0 0 M V30 BEGIN ATOM M V30 1 C 289.90747 -132.90753 0 0 M V30 2 C 289.90747 -144.78603 0 0 M V30 3 C 300.19458 -150.72527 0 0 M V30 4 C 310.48163 -144.78603 0 0 M V30 5 C 310.48163 -132.90753 0 0 M V30 6 C 300.19458 -126.96829 0 0 M V30 7 N 321.77875 -148.45668 0 0 M V30 8 C 328.76074 -138.84677 0 0 M V30 9 C 321.77875 -129.23688 0 0 M V30 10 C 325.43665 -117.979 0 0 M V30 11 C 317.51599 -109.18221 0 0 M V30 12 C 337.0152 -115.51788 0 0 M V30 13 C 344.96347 -124.34531 0 0 M V30 14 C 356.58237 -121.87564 0 0 M V30 15 C 360.25302 -110.57852 0 0 M V30 16 C 352.30475 -101.7511 0 0 M V30 17 C 340.68585 -104.22078 0 0 M V30 18 N 371.8316 -108.11742 0 0 M V30 19 C 379.75226 -116.9142 0 0 M V30 20 C 375.4895 -96.85953 0 0 M V30 21 C 325.43665 -159.71455 0 0 M V30 END ATOM M V30 BEGIN BOND M V30 1 2 1 2 M V30 2 1 2 3 M V30 3 2 3 4 M V30 4 1 4 5 M V30 5 2 5 6 M V30 6 1 6 1 M V30 7 1 4 7 M V30 8 1 7 8 M V30 9 2 8 9 M V30 10 1 9 5 M V30 11 1 9 10 M V30 12 1 10 11 M V30 13 1 10 12 M V30 14 2 12 13 M V30 15 1 13 14 M V30 16 2 14 15 M V30 17 1 15 16 M V30 18 2 16 17 M V30 19 1 17 12 M V30 20 1 18 19 M V30 21 1 18 20 M V30 22 1 15 18 M V30 23 1 7 21 M V30 END BOND M V30 END CTAB M END XARNLPONIIMPPO-UHFFFAOYSA-N InChI=1S/C26H33NO2/c1-5-29-25(28)18-20(2)12-11-17-26(3,4)23-19-27(21-13-7-6-8-14-21)24-16-10-9-15-22(23)24/h6-10,13-16,19-20H,5,11-12,17-18H2,1-4H3 CCOC(=O)CC(C)CCCC(C)(C)C1=CN(C2=CC=CC=C2)C3=C1C=CC=C3 C1=CC=C2C(=C1)C(=CN2C3=CC=CC=C3)C(C)(C)CCCC(CC(OCC)=O)C |(70.37,-202.82,;70.37,-214.7,;80.66,-220.64,;90.94,-214.7,;90.94,-202.82,;80.66,-196.88,;102.24,-199.15,;109.22,-208.76,;102.24,-218.37,;105.9,-229.63,;97.97,-238.44,;101.63,-249.71,;113.22,-252.17,;121.15,-243.36,;117.49,-232.09,;105.9,-187.9,;95.61,-193.83,;105.9,-176.02,;116.19,-193.83,;126.47,-187.9,;136.76,-193.83,;147.05,-187.9,;157.33,-193.83,;167.62,-187.9,;177.91,-193.83,;177.91,-205.67,;188.16,-211.59,;167.62,-176.06,;147.05,-176.06,)| AuxInfo=1/0/N:20,22,11,12,21,26,25,27,1,2,14,15,24,28,6,3,13,17,8,16,23,5,9,4,18,10,7,29,19/E:(3,4)(7,8)(13,14)/rA:29nCCCCCCNCCCCCCCCCCCOCCCCCCCCCO/rB:d1;s2;d3;s4;s1d5;s4;s7;s5d8;s9;s10;s10;s10;s13;s14;s15;s16;s17;s18;;s19s20;s16;s7;d23;s24;d25;s26;s23d27;d18;/rC:70,3705,-202,8242,0;70,3705,-214,7027,0;80,6576,-220,6419,0;90,9446,-214,7027,0;90,9446,-202,8242,0;80,6576,-196,8849,0;102,2417,-218,3733,0;109,2237,-208,7634,0;102,2417,-199,1535,0;105,8996,-187,8956,0;95,6126,-193,8349,0;105,8996,-176,0172,0;116,1867,-193,8349,0;126,4738,-187,8956,0;136,7608,-193,8349,0;147,0479,-187,8956,0;157,3350,-193,8349,0;167,6220,-187,8956,0;177,9091,-193,8349,0;188,1605,-211,5907,0;177,9091,-205,6721,0;147,0479,-176,0584,0;105,8996,-229,6312,0;97,9704,-238,4375,0;101,6323,-249,7075,0;113,2233,-252,1712,0;121,1525,-243,3650,0;117,4907,-232,0950,0;167,6220,-176,0584,0; C26H33NO2 C1=CC=C(C=C1)* Ph,CCO* OEt,C* Me CDK 04212619522D 0 0 0 0 0 999 V3000 M V30 BEGIN CTAB M V30 COUNTS 29 31 0 0 0 M V30 BEGIN ATOM M V30 1 C 70.37048 -202.82419 0 0 M V30 2 C 70.37048 -214.70267 0 0 M V30 3 C 80.65756 -220.64191 0 0 M V30 4 C 90.94461 -214.70267 0 0 M V30 5 C 90.94461 -202.82419 0 0 M V30 6 C 80.65756 -196.88495 0 0 M V30 7 N 102.24173 -218.37331 0 0 M V30 8 C 109.22372 -208.76343 0 0 M V30 9 C 102.24173 -199.15353 0 0 M V30 10 C 105.89964 -187.89563 0 0 M V30 11 C 95.61256 -193.83487 0 0 M V30 12 C 105.89964 -176.01715 0 0 M V30 13 C 116.18671 -193.83487 0 0 M V30 14 C 126.47377 -187.89563 0 0 M V30 15 C 136.76083 -193.83487 0 0 M V30 16 C 147.04791 -187.89563 0 0 M V30 17 C 157.33498 -193.83487 0 0 M V30 18 C 167.62204 -187.89563 0 0 M V30 19 O 177.9091 -193.83487 0 0 M V30 20 C 188.16046 -211.59073 0 0 M V30 21 C 177.9091 -205.6721 0 0 M V30 22 C 147.04791 -176.0584 0 0 M V30 23 C 105.89963 -229.6312 0 0 M V30 24 C 97.97043 -238.43745 0 0 M V30 25 C 101.63228 -249.70747 0 0 M V30 26 C 113.22331 -252.17123 0 0 M V30 27 C 121.15253 -243.36497 0 0 M V30 28 C 117.49068 -232.09496 0 0 M V30 29 O 167.62204 -176.05838 0 0 M V30 END ATOM M V30 BEGIN BOND M V30 1 2 1 2 M V30 2 1 2 3 M V30 3 2 3 4 M V30 4 1 4 5 M V30 5 2 5 6 M V30 6 1 6 1 M V30 7 1 4 7 M V30 8 1 7 8 M V30 9 2 8 9 M V30 10 1 9 5 M V30 11 1 9 10 M V30 12 1 10 11 M V30 13 1 10 12 M V30 14 1 10 13 M V30 15 1 13 14 M V30 16 1 14 15 M V30 17 1 15 16 M V30 18 1 16 17 M V30 19 1 17 18 M V30 20 1 19 21 M V30 21 1 20 21 M V30 22 1 18 19 M V30 23 1 16 22 M V30 24 2 23 24 M V30 25 1 24 25 M V30 26 2 25 26 M V30 27 1 26 27 M V30 28 2 27 28 M V30 29 1 23 28 M V30 30 1 7 23 M V30 31 2 18 29 M V30 END BOND M V30 END CTAB M END ZQEWNUFTQGQGLN-UHFFFAOYSA-N InChI=1S/C25H30N2O4/c1-18(13-15-31-24(28)19-9-5-4-6-10-19)8-7-14-25(2,3)22-17-26-23-16-20(27(29)30)11-12-21(22)23/h4-6,9-12,16-18,26H,7-8,13-15H2,1-3H3 CC(CCCC(C)(C)C1=CNC2=C1C=CC(=C2)[N+](=O)[O-])CCOC(=O)C3=CC=CC=C3 C1=C(C=C2C(=C1)C(=CN2)C(C)(C)CCCC(CCOC(C=3C=CC=CC3)=O)C)[N+](=O)[O-] |(76.51,-132.91,;76.51,-144.79,;86.8,-150.73,;97.09,-144.79,;97.09,-132.91,;86.8,-126.98,;108.39,-129.24,;115.37,-138.85,;108.39,-148.46,;112.04,-117.99,;101.76,-123.93,;112.04,-106.11,;122.33,-123.93,;132.62,-117.99,;142.9,-123.93,;153.19,-117.99,;163.48,-123.93,;173.77,-117.99,;184.05,-123.93,;184.05,-135.76,;184.05,-147.6,;204.31,-159.29,;204.3,-182.72,;184.03,-194.4,;163.78,-182.71,;163.76,-159.32,;172.22,-135.76,;153.19,-106.15,;66.26,-150.71,;56.01,-144.79,;66.26,-162.55,)| AuxInfo=1/0/N:31,14,15,24,25,29,17,18,26,28,1,6,20,16,21,3,8,19,27,2,5,9,4,23,13,7,10,30,11,12,22/E:(2,3)(5,6)(9,10)(29,30)/CRV:27.5/rA:31nCCCCCCNCCN+OO-CCCCCCCCCOCCCCCCCOC/rB:d1;s2;d3;s4;s1d5;s4;s7;s5d8;s2;d10;s10;s9;s13;s13;s13;s16;s17;s18;s19;s20;s21;s22;;s24;d25;s23s26;d27;d24s28;d23;s19;/rC:76,5144,-132,9143,0;76,5144,-144,7928,0;86,8015,-150,7321,0;97,0885,-144,7928,0;97,0885,-132,9143,0;86,8015,-126,9751,0;108,3856,-148,4635,0;115,3676,-138,8536,0;108,3856,-129,2437,0;66,2630,-150,7114,0;56,0117,-144,7928,0;66,2630,-162,5487,0;112,0435,-117,9858,0;101,7565,-123,9250,0;112,0435,-106,1073,0;122,3306,-123,9250,0;132,6177,-117,9858,0;142,9047,-123,9250,0;153,1918,-117,9858,0;163,4789,-123,9250,0;173,7660,-117,9858,0;184,0530,-123,9250,0;184,0530,-135,7623,0;184,0319,-194,4042,0;204,3022,-182,7238,0;204,3052,-159,2933,0;184,0530,-147,5995,0;163,7621,-159,3156,0;163,7797,-182,7104,0;172,2158,-135,7623,0;153,1918,-106,1485,0; C25H30N2O4 [N+](=O)([O-])* NO2,C1=CC=C(C=C1)C(=O)O* OBz,C* Me CDK 04212619522D 0 0 0 0 0 999 V3000 M V30 BEGIN CTAB M V30 COUNTS 31 33 0 0 0 M V30 BEGIN ATOM M V30 1 C 76.51439 -132.91434 0 0 M V30 2 C 76.51439 -144.79282 0 0 M V30 3 C 86.80147 -150.73206 0 0 M V30 4 C 97.08852 -144.79282 0 0 M V30 5 C 97.08852 -132.91434 0 0 M V30 6 C 86.80147 -126.9751 0 0 M V30 7 N 108.38564 -148.46346 0 0 M V30 8 C 115.36763 -138.85358 0 0 M V30 9 C 108.38564 -129.24368 0 0 M V30 10 N 66.26305 -150.71143 0 0 CHG=1 M V30 11 O 56.01167 -144.79282 0 0 M V30 12 O 66.26305 -162.54868 0 0 CHG=-1 M V30 13 C 112.04355 -117.98578 0 0 M V30 14 C 101.75647 -123.92502 0 0 M V30 15 C 112.04355 -106.1073 0 0 M V30 16 C 122.33061 -123.92502 0 0 M V30 17 C 132.61769 -117.98578 0 0 M V30 18 C 142.90474 -123.92502 0 0 M V30 19 C 153.19182 -117.98578 0 0 M V30 20 C 163.47888 -123.92502 0 0 M V30 21 C 173.76596 -117.98578 0 0 M V30 22 O 184.05301 -123.92502 0 0 M V30 23 C 184.05301 -135.76227 0 0 M V30 24 C 184.03189 -194.40417 0 0 M V30 25 C 204.30217 -182.72377 0 0 M V30 26 C 204.30519 -159.29327 0 0 M V30 27 C 184.05301 -147.59952 0 0 M V30 28 C 163.76212 -159.31564 0 0 M V30 29 C 163.77971 -182.71042 0 0 M V30 30 O 172.21577 -135.76227 0 0 M V30 31 C 153.19182 -106.14854 0 0 M V30 END ATOM M V30 BEGIN BOND M V30 1 2 1 2 M V30 2 1 2 3 M V30 3 2 3 4 M V30 4 1 4 5 M V30 5 2 5 6 M V30 6 1 6 1 M V30 7 1 4 7 M V30 8 1 7 8 M V30 9 2 8 9 M V30 10 1 9 5 M V30 11 2 10 11 M V30 12 1 10 12 M V30 13 1 2 10 M V30 14 1 9 13 M V30 15 1 13 14 M V30 16 1 13 15 M V30 17 1 13 16 M V30 18 1 16 17 M V30 19 1 17 18 M V30 20 1 18 19 M V30 21 1 19 20 M V30 22 1 20 21 M V30 23 1 22 23 M V30 24 2 29 24 M V30 25 1 24 25 M V30 26 2 25 26 M V30 27 1 26 27 M V30 28 2 27 28 M V30 29 1 29 28 M V30 30 1 27 23 M V30 31 2 23 30 M V30 32 1 21 22 M V30 33 1 19 31 M V30 END BOND M V30 END CTAB M END PPBRXRYQALVLMV-UHFFFAOYSA-N InChI=1S/C8H8/c1-2-8-6-4-3-5-7-8/h2-7H,1H2 C=CC1=CC=CC=C1 C1(=CC=CC=C1)C=C |(72.67,-80.83,;72.67,-92.43,;82.72,-98.23,;92.77,-92.43,;92.77,-80.83,;82.72,-75.03,;62.62,-75.02,;52.57,-80.83,)| AuxInfo=1/0/N:8,7,4,3,5,2,6,1/E:(4,5)(6,7)/rA:8nCCCCCCCC/rB:d1;s2;d3;s4;s1d5;s1;d7;/rC:72,6737,-80,8277,0;72,6737,-92,4277,0;82,7196,-98,2277,0;92,7655,-92,4277,0;92,7655,-80,8277,0;82,7196,-75,0277,0;62,6198,-75,0231,0;52,5660,-80,8277,0; C8H8 C1=CC=C(C=C1)* Ph CDK 04212619522D 0 0 0 0 0 999 V3000 M V30 BEGIN CTAB M V30 COUNTS 8 8 0 0 0 M V30 BEGIN ATOM M V30 1 C 72.67368 -80.8277 0 0 M V30 2 C 72.67368 -92.42769 0 0 M V30 3 C 82.71957 -98.22769 0 0 M V30 4 C 92.76546 -92.42769 0 0 M V30 5 C 92.76546 -80.82768 0 0 M V30 6 C 82.71956 -75.02769 0 0 M V30 7 C 62.61984 -75.02312 0 0 M V30 8 C 52.56602 -80.8277 0 0 M V30 END ATOM M V30 BEGIN BOND M V30 1 2 1 2 M V30 2 1 2 3 M V30 3 2 3 4 M V30 4 1 4 5 M V30 5 2 5 6 M V30 6 1 1 6 M V30 7 1 1 7 M V30 8 2 7 8 M V30 END BOND M V30 END CTAB M END BZTULADAHKFTMV-UHFFFAOYSA-N InChI=1S/C14H14ClN/c1-10(11-5-3-2-4-6-11)13-9-12(15)7-8-14(13)16/h2-10H,16H2,1H3 CC(C1=CC=CC=C1)C2=CC(=CC=C2N)Cl C1=CC(=CC(=C1N)C(C)C2=CC=CC=C2)Cl |(286.01,-105.14,;286.01,-117.03,;296.31,-122.98,;306.61,-117.03,;306.61,-105.14,;296.31,-99.19,;296.31,-87.34,;316.87,-99.21,;316.87,-87.36,;327.14,-105.14,;327.14,-116.99,;337.4,-122.91,;347.66,-116.99,;347.66,-105.14,;337.4,-99.21,;296.31,-134.83,)| AuxInfo=1/0/N:10,14,13,15,12,16,2,1,4,9,11,3,5,6,7,8/E:(3,4)(5,6)/rA:16nCCCCCCClNCCCCCCCC/rB:d1;s2;d3;s4;s1d5;s3;s6;P5;s9;s9;d11;s12;d13;s14;s11d15;/rC:286,0072,-105,1375,0;286,0072,-117,0319,0;296,3080,-122,9791,0;306,6089,-117,0319,0;306,6089,-105,1375,0;296,3080,-99,1903,0;296,3080,-134,8322,0;296,3080,-87,3372,0;316,8740,-99,2110,0;316,8740,-87,3579,0;327,1390,-105,1375,0;327,1390,-116,9875,0;337,4015,-122,9125,0;347,6639,-116,9875,0;347,6639,-105,1375,0;337,4015,-99,2125,0; C14H14ClN C1=CC=C(C=C1)* Ph,C* Me CDK 04212619522D 0 0 0 0 0 999 V3000 M V30 BEGIN CTAB M V30 COUNTS 16 17 0 0 0 M V30 BEGIN ATOM M V30 1 C 286.0072 -105.13753 0 0 M V30 2 C 286.0072 -117.03192 0 0 M V30 3 C 296.30804 -122.97913 0 0 M V30 4 C 306.60889 -117.03192 0 0 M V30 5 C 306.60889 -105.13753 0 0 M V30 6 C 296.30804 -99.19034 0 0 M V30 7 Cl 296.30804 -134.83221 0 0 M V30 8 N 296.30804 -87.33723 0 0 M V30 9 C 316.87396 -99.21098 0 0 M V30 10 C 316.87396 -87.35789 0 0 M V30 11 C 327.13904 -105.13753 0 0 M V30 12 C 327.13904 -116.98753 0 0 M V30 13 C 337.40146 -122.91254 0 0 M V30 14 C 347.66388 -116.98753 0 0 M V30 15 C 347.66388 -105.13754 0 0 M V30 16 C 337.40146 -99.21254 0 0 M V30 END ATOM M V30 BEGIN BOND M V30 1 2 1 2 M V30 2 1 2 3 M V30 3 2 3 4 M V30 4 1 4 5 M V30 5 2 5 6 M V30 6 1 6 1 M V30 7 1 3 7 M V30 8 1 6 8 M V30 9 1 5 9 CFG=1 M V30 10 1 9 10 M V30 11 2 11 12 M V30 12 1 12 13 M V30 13 2 13 14 M V30 14 1 14 15 M V30 15 2 15 16 M V30 16 1 11 16 M V30 17 1 9 11 M V30 END BOND M V30 END CTAB M END LURKEPOVOHKECE-UHFFFAOYSA-N InChI=1S/C14H14ClN/c1-11(12-5-3-2-4-6-12)16-14-9-7-13(15)8-10-14/h2-11,16H,1H3 CC(C1=CC=CC=C1)NC2=CC=C(C=C2)Cl C1=CC(=CC=C1NC(C2=CC=CC=C2)C)Cl |(141.04,-105.14,;141.04,-117.03,;151.35,-122.98,;161.65,-117.03,;161.65,-105.14,;151.35,-99.19,;151.35,-87.34,;161.61,-81.41,;171.88,-87.34,;171.88,-99.19,;182.14,-105.11,;192.4,-99.19,;192.4,-87.34,;182.14,-81.41,;161.61,-69.56,;151.35,-134.83,)| AuxInfo=1/0/N:16,13,12,14,11,15,2,4,1,5,9,10,3,6,7,8/E:(3,4)(5,6)(7,8)(9,10)/rA:16nCCCCCCClNCCCCCCCC/rB:d1;s2;d3;s4;s1d5;s3;s6;P8;s9;d10;s11;d12;s13;s10d14;s9;/rC:141,0442,-105,1375,0;141,0442,-117,0319,0;151,3451,-122,9791,0;161,6459,-117,0319,0;161,6459,-105,1375,0;151,3451,-99,1903,0;151,3451,-134,8322,0;151,3451,-87,3372,0;161,6101,-81,4107,0;171,8752,-87,3372,0;171,8752,-99,1872,0;182,1376,-105,1122,0;192,4000,-99,1872,0;192,4000,-87,3372,0;182,1376,-81,4122,0;161,6101,-69,5576,0; C14H14ClN C1=CC=C(C=C1)* Ph,C* Me CDK 04212619522D 0 0 0 0 0 999 V3000 M V30 BEGIN CTAB M V30 COUNTS 16 17 0 0 0 M V30 BEGIN ATOM M V30 1 C 141.0442 -105.13753 0 0 M V30 2 C 141.0442 -117.03192 0 0 M V30 3 C 151.34506 -122.97913 0 0 M V30 4 C 161.64589 -117.03192 0 0 M V30 5 C 161.64589 -105.13753 0 0 M V30 6 C 151.34506 -99.19034 0 0 M V30 7 Cl 151.34506 -134.83221 0 0 M V30 8 N 151.34506 -87.33723 0 0 M V30 9 C 161.61014 -81.41068 0 0 M V30 10 C 171.87523 -87.33723 0 0 M V30 11 C 171.87521 -99.18723 0 0 M V30 12 C 182.13762 -105.11223 0 0 M V30 13 C 192.40002 -99.18724 0 0 M V30 14 C 192.40002 -87.33723 0 0 M V30 15 C 182.13762 -81.41223 0 0 M V30 16 C 161.61014 -69.55759 0 0 M V30 END ATOM M V30 BEGIN BOND M V30 1 2 1 2 M V30 2 1 2 3 M V30 3 2 3 4 M V30 4 1 4 5 M V30 5 2 5 6 M V30 6 1 6 1 M V30 7 1 3 7 M V30 8 1 6 8 M V30 9 1 8 9 CFG=1 M V30 10 2 10 11 M V30 11 1 11 12 M V30 12 2 12 13 M V30 13 1 13 14 M V30 14 2 14 15 M V30 15 1 10 15 M V30 16 1 9 10 M V30 17 1 9 16 M V30 END BOND M V30 END CTAB M END DKBNATUIDTYKOR-HDICACEKSA-N InChI=1S/C23H25N/c1-16-14-21(17(2)19-10-6-4-7-11-19)23(24)22(15-16)18(3)20-12-8-5-9-13-20/h4-15,17-18H,24H2,1-3H3/t17-,18+ CC1=CC(=C(C(=C1)[C@@H](C)C2=CC=CC=C2)N)[C@H](C)C3=CC=CC=C3 C1(=CC(=CC(=C1N)[C@@H](C2=CC=CC=C2)C)C)[C@H](C3=CC=CC=C3)C |(204.85,-81.32,;204.85,-93.1,;215.05,-98.99,;225.25,-93.1,;225.25,-81.32,;215.05,-75.43,;215.05,-63.69,;235.42,-75.45,;245.58,-81.32,;245.58,-93.07,;255.76,-98.95,;265.93,-93.07,;265.93,-81.32,;255.76,-75.45,;235.42,-63.71,;215.05,-110.73,;194.68,-75.45,;184.52,-81.32,;174.34,-75.45,;164.16,-81.32,;164.16,-93.07,;174.34,-98.95,;184.52,-93.07,;194.68,-63.71,)| AuxInfo=1/0/N:24,22,23,13,19,12,14,18,20,11,15,17,21,2,4,3,9,8,10,16,1,5,6,7/E:(2,3)(4,5)(6,7,8,9)(10,11,12,13)(14,15)(17,18)(19,20)(21,22)/rA:24nCCCCCCNC.oC.eCCCCCCCCCCCCCCC/rB:d1;s2;d3;s4;s1d5;s6;s5;s1;s9;d10;s11;d12;s13;s10d14;s8;d16;s17;d18;s19;s16d20;N9;N8;s3;/rC:204,8476,-81,3217,0;204,8476,-93,1009,0;215,0487,-98,9905,0;225,2498,-93,1009,0;225,2498,-81,3217,0;215,0487,-75,4321,0;215,0487,-63,6938,0;235,4155,-75,4525,0;194,6820,-75,4525,0;184,5163,-81,3217,0;174,3405,-75,4467,0;164,1647,-81,3217,0;164,1647,-93,0717,0;174,3405,-98,9467,0;184,5163,-93,0717,0;245,5811,-81,3217,0;245,5811,-93,0717,0;255,7569,-98,9467,0;265,9327,-93,0717,0;265,9327,-81,3217,0;255,7569,-75,4467,0;194,6820,-63,7142,0;235,4155,-63,7142,0;215,0487,-110,7288,0; C23H25N C1=CC=C(C=C1)* Ph,C* Me CDK 04212619522D 0 0 0 0 0 999 V3000 M V30 BEGIN CTAB M V30 COUNTS 24 26 0 0 1 M V30 BEGIN ATOM M V30 1 C 204.84764 -81.32169 0 0 M V30 2 C 204.84764 -93.10088 0 0 M V30 3 C 215.04874 -98.99048 0 0 M V30 4 C 225.2498 -93.10088 0 0 M V30 5 C 225.2498 -81.32169 0 0 M V30 6 C 215.04874 -75.43208 0 0 M V30 7 N 215.04874 -63.69379 0 0 M V30 8 C 235.41547 -75.45253 0 0 CFG=2 M V30 9 C 194.68198 -75.45253 0 0 CFG=1 M V30 10 C 184.51631 -81.32167 0 0 M V30 11 C 174.34052 -75.44667 0 0 M V30 12 C 164.16472 -81.32167 0 0 M V30 13 C 164.1647 -93.07167 0 0 M V30 14 C 174.3405 -98.94667 0 0 M V30 15 C 184.5163 -93.07167 0 0 M V30 16 C 245.58113 -81.32169 0 0 M V30 17 C 245.58113 -93.07169 0 0 M V30 18 C 255.75693 -98.94669 0 0 M V30 19 C 265.93274 -93.0717 0 0 M V30 20 C 265.93274 -81.3217 0 0 M V30 21 C 255.75693 -75.44669 0 0 M V30 22 C 194.68198 -63.71423 0 0 M V30 23 C 235.41547 -63.71423 0 0 M V30 24 C 215.04874 -110.72879 0 0 M V30 END ATOM M V30 BEGIN BOND M V30 1 2 1 2 M V30 2 1 2 3 M V30 3 2 3 4 M V30 4 1 4 5 M V30 5 2 5 6 M V30 6 1 6 1 M V30 7 1 6 7 M V30 8 1 5 8 M V30 9 1 1 9 M V30 10 2 10 11 M V30 11 1 11 12 M V30 12 2 12 13 M V30 13 1 13 14 M V30 14 2 14 15 M V30 15 1 10 15 M V30 16 1 9 10 M V30 17 2 16 17 M V30 18 1 17 18 M V30 19 2 18 19 M V30 20 1 19 20 M V30 21 2 20 21 M V30 22 1 16 21 M V30 23 1 8 16 M V30 24 1 9 22 CFG=3 M V30 25 1 8 23 CFG=3 M V30 26 1 3 24 M V30 END BOND M V30 END CTAB M END DKBNATUIDTYKOR-QZTJIDSGSA-N InChI=1S/C23H25N/c1-16-14-21(17(2)19-10-6-4-7-11-19)23(24)22(15-16)18(3)20-12-8-5-9-13-20/h4-15,17-18H,24H2,1-3H3/t17-,18-/m1/s1 CC1=CC(=C(C(=C1)[C@H](C)C2=CC=CC=C2)N)[C@H](C)C3=CC=CC=C3 C1(=CC(=CC(=C1N)[C@@H](C2=CC=CC=C2)C)C)[C@@H](C3=CC=CC=C3)C |(296.26,-80.64,;296.26,-92.42,;306.46,-98.31,;316.66,-92.42,;316.66,-80.64,;306.46,-74.75,;306.46,-63.01,;326.83,-74.77,;336.99,-80.64,;336.99,-92.39,;347.17,-98.26,;357.34,-92.39,;357.34,-80.64,;347.17,-74.76,;326.83,-63.03,;306.46,-110.05,;286.09,-74.77,;275.93,-80.64,;265.75,-74.76,;255.58,-80.64,;255.58,-92.39,;265.75,-98.26,;275.93,-92.39,;286.09,-63.03,)| AuxInfo=1/0/N:24,22,23,13,19,12,14,18,20,11,15,17,21,2,4,3,9,8,10,16,1,5,6,7/E:(2,3)(4,5)(6,7,8,9)(10,11,12,13)(14,15)(17,18)(19,20)(21,22)/it:im/rA:24nCCCCCCNC.oC.oCCCCCCCCCCCCCCC/rB:d1;s2;d3;s4;s1d5;s6;s5;s1;s9;d10;s11;d12;s13;s10d14;s8;d16;s17;d18;s19;s16d20;P9;N8;s3;/rC:296,2592,-80,6382,0;296,2592,-92,4174,0;306,4602,-98,3070,0;316,6613,-92,4174,0;316,6613,-80,6382,0;306,4602,-74,7486,0;306,4602,-63,0103,0;326,8270,-74,7691,0;286,0935,-74,7691,0;275,9278,-80,6382,0;265,7520,-74,7632,0;255,5762,-80,6382,0;255,5762,-92,3882,0;265,7520,-98,2632,0;275,9278,-92,3882,0;336,9926,-80,6382,0;336,9926,-92,3882,0;347,1684,-98,2632,0;357,3442,-92,3882,0;357,3442,-80,6382,0;347,1684,-74,7632,0;286,0935,-63,0308,0;326,8270,-63,0308,0;306,4602,-110,0453,0; C23H25N C1=CC=C(C=C1)* Ph,C* Me CDK 04212619522D 0 0 0 0 0 999 V3000 M V30 BEGIN CTAB M V30 COUNTS 24 26 0 0 1 M V30 BEGIN ATOM M V30 1 C 296.25916 -80.63821 0 0 M V30 2 C 296.25916 -92.4174 0 0 M V30 3 C 306.46021 -98.30701 0 0 M V30 4 C 316.66129 -92.4174 0 0 M V30 5 C 316.66129 -80.63821 0 0 M V30 6 C 306.46021 -74.74861 0 0 M V30 7 N 306.46021 -63.01031 0 0 M V30 8 C 326.82697 -74.76906 0 0 CFG=2 M V30 9 C 286.09348 -74.76906 0 0 CFG=2 M V30 10 C 275.9278 -80.6382 0 0 M V30 11 C 265.75201 -74.7632 0 0 M V30 12 C 255.57622 -80.63818 0 0 M V30 13 C 255.5762 -92.38818 0 0 M V30 14 C 265.75201 -98.2632 0 0 M V30 15 C 275.9278 -92.3882 0 0 M V30 16 C 336.99261 -80.63821 0 0 M V30 17 C 336.99261 -92.38821 0 0 M V30 18 C 347.16843 -98.26321 0 0 M V30 19 C 357.34424 -92.38823 0 0 M V30 20 C 357.34424 -80.63823 0 0 M V30 21 C 347.16843 -74.76321 0 0 M V30 22 C 286.09348 -63.03076 0 0 M V30 23 C 326.82697 -63.03076 0 0 M V30 24 C 306.46021 -110.0453 0 0 M V30 END ATOM M V30 BEGIN BOND M V30 1 2 1 2 M V30 2 1 2 3 M V30 3 2 3 4 M V30 4 1 4 5 M V30 5 2 5 6 M V30 6 1 6 1 M V30 7 1 6 7 M V30 8 1 5 8 M V30 9 1 1 9 M V30 10 2 10 11 M V30 11 1 11 12 M V30 12 2 12 13 M V30 13 1 13 14 M V30 14 2 14 15 M V30 15 1 10 15 M V30 16 1 9 10 M V30 17 2 16 17 M V30 18 1 17 18 M V30 19 2 18 19 M V30 20 1 19 20 M V30 21 2 20 21 M V30 22 1 16 21 M V30 23 1 8 16 M V30 24 1 9 22 CFG=1 M V30 25 1 8 23 CFG=3 M V30 26 1 3 24 M V30 END BOND M V30 END CTAB M END RZXMPPFPUUCRFN-UHFFFAOYSA-N InChI=1S/C7H9N/c1-6-2-4-7(8)5-3-6/h2-5H,8H2,1H3 CC1=CC=C(C=C1)N C1=CC(=CC=C1N)C |(0.25,-80.71,;0.25,-92.49,;10.45,-98.38,;20.65,-92.49,;20.65,-80.71,;10.45,-74.82,;10.45,-63.08,;10.45,-110.12,)| AuxInfo=1/0/N:8,2,4,1,5,3,6,7/E:(2,3)(4,5)/rA:8nCCCCCCNC/rB:d1;s2;d3;s4;s1d5;s6;s3;/rC:,2454,-80,7082,0;,2454,-92,4874,0;10,4465,-98,3770,0;20,6476,-92,4874,0;20,6476,-80,7082,0;10,4465,-74,8186,0;10,4465,-63,0803,0;10,4465,-110,1153,0; C7H9N C* Me CDK 04212619522D 0 0 0 0 0 999 V3000 M V30 BEGIN CTAB M V30 COUNTS 8 8 0 0 0 M V30 BEGIN ATOM M V30 1 C 0.24539 -80.70819 0 0 M V30 2 C 0.24539 -92.48738 0 0 M V30 3 C 10.44649 -98.37698 0 0 M V30 4 C 20.64755 -92.48738 0 0 M V30 5 C 20.64755 -80.70819 0 0 M V30 6 C 10.44649 -74.81859 0 0 M V30 7 N 10.44649 -63.08029 0 0 M V30 8 C 10.44649 -110.11528 0 0 M V30 END ATOM M V30 BEGIN BOND M V30 1 2 1 2 M V30 2 1 2 3 M V30 3 2 3 4 M V30 4 1 4 5 M V30 5 2 5 6 M V30 6 1 6 1 M V30 7 1 6 7 M V30 8 1 3 8 M V30 END BOND M V30 END CTAB M END ABDKAPXRBAPSQN-UHFFFAOYSA-N InChI=1S/C8H10O2/c1-9-7-5-3-4-6-8(7)10-2/h3-6H,1-2H3 COC1=C(C=CC=C1)OC C1=CC=C(C(=C1)OC)OC |(90.3,-129.14,;90.3,-140.65,;100.26,-146.4,;110.23,-140.65,;110.23,-129.14,;100.26,-123.39,;640.09,-123.41,;650.02,-129.14,;640.09,-146.38,;650.02,-140.65,)| AuxInfo=1/0/N:8,10,1,2,6,3,5,4,7,9/E:(1,2)(3,4)(5,6)(7,8)(9,10)/rA:10nCCCCCCOCOC/rB:d1;s2;d3;s4;s1d5;s5;s7;s4;s9;/rC:90,3009,-129,1397,0;90,3009,-140,6453,0;100,2650,-146,3981,0;110,2291,-140,6453,0;110,2291,-129,1397,0;100,2650,-123,3869,0;640,0933,-123,4069,0;650,0228,-129,1397,0;640,0933,-146,3782,0;650,0228,-140,6453,0; C8H10O2 CO* OMe CDK 04212619522D 0 0 0 0 0 999 V3000 M V30 BEGIN CTAB M V30 COUNTS 10 10 0 0 0 M V30 BEGIN ATOM M V30 1 C 90.30086 -129.13974 0 0 M V30 2 C 90.30086 -140.64534 0 0 M V30 3 C 100.265 -146.39813 0 0 M V30 4 C 110.22913 -140.64534 0 0 M V30 5 C 110.22913 -129.13974 0 0 M V30 6 C 100.265 -123.38695 0 0 M V30 7 O 640.09332 -123.40692 0 0 M V30 8 C 650.02283 -129.13974 0 0 M V30 9 O 640.09332 -146.37816 0 0 M V30 10 C 650.02283 -140.64534 0 0 M V30 END ATOM M V30 BEGIN BOND M V30 1 2 1 2 M V30 2 1 2 3 M V30 3 2 3 4 M V30 4 1 4 5 M V30 5 2 5 6 M V30 6 1 6 1 M V30 7 1 7 8 M V30 8 1 5 7 M V30 9 1 9 10 M V30 10 1 4 9 M V30 END BOND M V30 END CTAB M END URLKBWYHVLBVBO-UHFFFAOYSA-N InChI=1S/C8H10/c1-7-3-5-8(2)6-4-7/h3-6H,1-2H3 CC1=CC=C(C)C=C1 C1=CC(=CC=C1C)C |(94.29,-34.49,;94.29,-45.99,;104.26,-51.74,;114.22,-45.99,;114.22,-34.49,;104.26,-28.73,;104.26,-17.27,;104.26,-63.21,)| AuxInfo=1/0/N:7,8,1,5,2,4,6,3/E:(1,2)(3,4,5,6)(7,8)/rA:8nCCCCCCCC/rB:d1;s2;d3;s4;s1d5;s6;s3;/rC:94,2949,-34,4852,0;94,2949,-45,9908,0;104,2590,-51,7436,0;114,2231,-45,9908,0;114,2231,-34,4852,0;104,2590,-28,7324,0;104,2590,-17,2668,0;104,2590,-63,2093,0; C8H10 C* Me CDK 04212619522D 0 0 0 0 0 999 V3000 M V30 BEGIN CTAB M V30 COUNTS 8 8 0 0 0 M V30 BEGIN ATOM M V30 1 C 94.29486 -34.48521 0 0 M V30 2 C 94.29486 -45.99081 0 0 M V30 3 C 104.259 -51.74361 0 0 M V30 4 C 114.22314 -45.99081 0 0 M V30 5 C 114.22314 -34.48521 0 0 M V30 6 C 104.259 -28.73242 0 0 M V30 7 C 104.259 -17.26677 0 0 M V30 8 C 104.259 -63.20926 0 0 M V30 END ATOM M V30 BEGIN BOND M V30 1 2 1 2 M V30 2 1 2 3 M V30 3 2 3 4 M V30 4 1 4 5 M V30 5 2 5 6 M V30 6 1 6 1 M V30 7 1 6 7 M V30 8 1 3 8 M V30 END BOND M V30 END CTAB M END YHLVIDQQTOMBGN-UHFFFAOYSA-N InChI=1S/C5H8O3/c1-3-4-8-5(6)7-2/h3H,1,4H2,2H3 C=CCOC(=O)OC C=CCOC(=O)OC |(7.6,-141.28,;17.57,-135.53,;27.5,-141.26,;37.43,-135.53,;47.36,-141.26,;41.62,-151.19,;57.29,-147,;57.29,-158.46,)| AuxInfo=1/0/N:1,8,2,3,5,6,7,4/rA:8nCCCOCOOC/rB:d1;s2;s3;s4;d5;s5;s7;/rC:7,6042,-141,2830,0;17,5683,-135,5302,0;27,4979,-141,2630,0;37,4274,-135,5302,0;47,3569,-141,2630,0;41,6241,-151,1925,0;57,2865,-146,9958,0;57,2865,-158,4615,0; C5H8O3 COC(=O)O* OCO2Me CDK 04212619522D 0 0 0 0 0 999 V3000 M V30 BEGIN CTAB M V30 COUNTS 8 7 0 0 0 M V30 BEGIN ATOM M V30 1 C 7.60417 -141.28296 0 0 M V30 2 C 17.56831 -135.53017 0 0 M V30 3 C 27.49786 -141.26297 0 0 M V30 4 O 37.4274 -135.53017 0 0 M V30 5 C 47.35695 -141.26297 0 0 M V30 6 O 41.62413 -151.19254 0 0 M V30 7 O 57.2865 -146.9958 0 0 M V30 8 C 57.2865 -158.46146 0 0 M V30 END ATOM M V30 BEGIN BOND M V30 1 2 1 2 M V30 2 1 2 3 M V30 3 1 4 5 M V30 4 2 5 6 M V30 5 1 5 7 M V30 6 1 7 8 M V30 7 1 3 4 M V30 END BOND M V30 END CTAB M END ZYEMGPIYFIJGTP-UHFFFAOYSA-N InChI=1S/C11H14O2/c1-4-5-9-6-7-10(12-2)11(8-9)13-3/h4,6-8H,1,5H2,2-3H3 C=CCC1=CC=C(C(=C1)OC)OC C1(=CC=C(C(=C1)OC)OC)CC=C |(276.24,-128.34,;276.24,-139.85,;266.28,-145.6,;256.31,-139.85,;256.31,-128.34,;266.28,-122.59,;246.38,-122.61,;236.46,-128.34,;766.32,-145.58,;776.25,-139.85,;286.17,-122.61,;296.1,-128.34,;306.03,-122.61,)| AuxInfo=1/0/N:13,10,8,12,11,2,3,6,1,4,5,9,7/rA:13nCCCCCCOCOCCCC/rB:d1;s2;d3;s4;s1d5;s5;s7;s4;s9;s1;s11;d12;/rC:276,2427,-128,3409,0;276,2427,-139,8465,0;266,2786,-145,5993,0;256,3145,-139,8465,0;256,3145,-128,3409,0;266,2786,-122,5882,0;246,3849,-122,6081,0;236,4554,-128,3409,0;766,3195,-145,5793,0;776,2491,-139,8465,0;286,1723,-122,6081,0;296,1018,-128,3409,0;306,0314,-122,6081,0; C11H14O2 CO* OMe CDK 04212619522D 0 0 0 0 0 999 V3000 M V30 BEGIN CTAB M V30 COUNTS 13 13 0 0 0 M V30 BEGIN ATOM M V30 1 C 276.24274 -128.34094 0 0 M V30 2 C 276.24274 -139.84654 0 0 M V30 3 C 266.27859 -145.59933 0 0 M V30 4 C 256.31445 -139.84654 0 0 M V30 5 C 256.31445 -128.34094 0 0 M V30 6 C 266.27859 -122.58815 0 0 M V30 7 O 246.3849 -122.60811 0 0 M V30 8 C 236.45537 -128.34094 0 0 M V30 9 O 766.31952 -145.57935 0 0 M V30 10 C 776.24908 -139.84654 0 0 M V30 11 C 286.1723 -122.60811 0 0 M V30 12 C 296.10181 -128.34094 0 0 M V30 13 C 306.03137 -122.60811 0 0 M V30 END ATOM M V30 BEGIN BOND M V30 1 2 1 2 M V30 2 1 2 3 M V30 3 2 3 4 M V30 4 1 4 5 M V30 5 2 5 6 M V30 6 1 6 1 M V30 7 1 7 8 M V30 8 1 5 7 M V30 9 1 9 10 M V30 10 1 4 9 M V30 11 1 1 11 M V30 12 1 11 12 M V30 13 2 12 13 M V30 END BOND M V30 END CTAB M END ASUAYTHWZCLXAN-UHFFFAOYSA-N InChI=1S/C5H10O/c1-5(2)3-4-6/h3,6H,4H2,1-2H3 CC(=CCO)C CC(=CCO)C |(0.15,-117.76,;10.53,-111.77,;20.87,-117.74,;31.2,-111.77,;41.54,-117.74,;10.53,-99.83,)| AuxInfo=1/0/N:1,4,3,5,2,6/E:(1,2)/rA:6nCCCCCO/rB:s1;d2;s2;s3;s5;/rC:,1500,-117,7603,0;10,5257,-111,7699,0;20,8653,-117,7395,0;10,5257,-99,8307,0;31,2050,-111,7699,0;41,5446,-117,7395,0; C5H10O CDK 04212619522D 0 0 0 0 0 999 V3000 M V30 BEGIN CTAB M V30 COUNTS 6 5 0 0 0 M V30 BEGIN ATOM M V30 1 C 0.14999 -117.76028 0 0 M V30 2 C 10.52568 -111.7699 0 0 M V30 3 C 20.86533 -117.7395 0 0 M V30 4 C 10.52568 -99.83069 0 0 M V30 5 C 31.20499 -111.7699 0 0 M V30 6 O 41.54463 -117.7395 0 0 M V30 END ATOM M V30 BEGIN BOND M V30 1 1 1 2 M V30 2 2 2 3 M V30 3 1 2 4 M V30 4 1 3 5 M V30 5 1 5 6 M V30 END BOND M V30 END CTAB M END AYYLFIXOSLEFKR-UHFFFAOYSA-N InChI=1S/C12H16O/c1-9(2)4-6-11-8-10(3)5-7-12(11)13/h4-5,7-8,13H,6H2,1-3H3 CC(=CCC1=CC(=CC=C1O)C)C CC(=CCC1=CC(=CC=C1O)C)C |(198.32,-90.31,;208.7,-84.32,;219.04,-90.29,;229.38,-84.32,;239.72,-90.29,;239.72,-102.27,;250.09,-108.26,;260.47,-102.27,;260.47,-90.29,;250.09,-84.3,;250.09,-72.36,;250.09,-120.2,;208.7,-72.38,)| AuxInfo=1/0/N:1,4,13,3,9,5,10,7,2,8,6,11,12/E:(1,2)/rA:13nCCCCCCCCCCCOC/rB:s1;d2;s2;s3;s5;d6;s7;d8;s9;s6d10;s11;s8;/rC:198,3230,-90,3118,0;208,6987,-84,3214,0;219,0383,-90,2910,0;208,6987,-72,3822,0;229,3780,-84,3214,0;239,7177,-90,2910,0;239,7177,-102,2718,0;250,0933,-108,2622,0;260,4690,-102,2718,0;260,4690,-90,2910,0;250,0933,-84,3006,0;250,0933,-72,3614,0;250,0933,-120,2014,0; C12H16O C* Me CDK 04212619522D 0 0 0 0 0 999 V3000 M V30 BEGIN CTAB M V30 COUNTS 13 13 0 0 0 M V30 BEGIN ATOM M V30 1 C 198.32303 -90.31177 0 0 M V30 2 C 208.6987 -84.32137 0 0 M V30 3 C 219.03835 -90.29097 0 0 M V30 4 C 208.6987 -72.38217 0 0 M V30 5 C 229.37801 -84.32137 0 0 M V30 6 C 239.71765 -90.29097 0 0 M V30 7 C 239.71765 -102.27177 0 0 M V30 8 C 250.09332 -108.26218 0 0 M V30 9 C 260.46899 -102.27177 0 0 M V30 10 C 260.46899 -90.29097 0 0 M V30 11 C 250.09332 -84.30058 0 0 M V30 12 O 250.09332 -72.36137 0 0 M V30 13 C 250.09332 -120.20137 0 0 M V30 END ATOM M V30 BEGIN BOND M V30 1 1 1 2 M V30 2 2 2 3 M V30 3 1 2 4 M V30 4 1 3 5 M V30 5 1 5 6 M V30 6 2 6 7 M V30 7 1 7 8 M V30 8 2 8 9 M V30 9 1 9 10 M V30 10 2 10 11 M V30 11 1 11 6 M V30 12 1 11 12 M V30 13 1 8 13 M V30 END BOND M V30 END CTAB M END HNVRRHSXBLFLIG-UHFFFAOYSA-N InChI=1S/C5H10O/c1-4-5(2,3)6/h4,6H,1H2,2-3H3 C=CC(C)(C)O CC(C)(C=C)O |(16.2,-54.02,;22.17,-64.36,;28.14,-54.02,;32.51,-70.33,;42.85,-64.36,;11.83,-70.33,)| AuxInfo=1/0/N:5,1,4,3,2,6/E:(2,3)/rA:6nCCCCCO/rB:s1;s2;s2;d3;s2;/rC:16,2012,-54,0181,0;22,1708,-64,3578,0;32,5104,-70,3273,0;28,1404,-54,0181,0;42,8501,-64,3578,0;11,8311,-70,3273,0; C5H10O CDK 04212619522D 0 0 0 0 0 999 V3000 M V30 BEGIN CTAB M V30 COUNTS 6 5 0 0 0 M V30 BEGIN ATOM M V30 1 C 16.20117 -54.01811 0 0 M V30 2 C 22.17078 -64.35776 0 0 M V30 3 C 32.51042 -70.32735 0 0 M V30 4 C 28.14037 -54.01811 0 0 M V30 5 C 42.85007 -64.35776 0 0 M V30 6 O 11.83112 -70.32735 0 0 M V30 END ATOM M V30 BEGIN BOND M V30 1 1 1 2 M V30 2 1 2 4 M V30 3 2 3 5 M V30 4 1 2 3 M V30 5 1 2 6 M V30 END BOND M V30 END CTAB M END IWDCLRJOBJJRNH-UHFFFAOYSA-N InChI=1S/C7H8O/c1-6-2-4-7(8)5-3-6/h2-5,8H,1H3 CC1=CC=C(C=C1)O C1(=CC=C(C=C1)C)O |(75.45,-82.66,;75.45,-94.64,;85.82,-100.63,;96.2,-94.64,;96.2,-82.66,;85.82,-76.67,;106.54,-100.61,;65.11,-76.69,)| AuxInfo=1/0/N:8,3,5,2,6,4,1,7/E:(2,3)(4,5)/rA:8nCCCCCCOC/rB:d1;s2;d3;s4;s1d5;s1;s4;/rC:75,4489,-82,6572,0;75,4489,-94,6380,0;85,8246,-100,6284,0;96,2003,-94,6380,0;96,2003,-82,6572,0;85,8246,-76,6668,0;65,1093,-76,6876,0;106,5399,-100,6076,0; C7H8O C* Me CDK 04212619522D 0 0 0 0 0 999 V3000 M V30 BEGIN CTAB M V30 COUNTS 8 8 0 0 0 M V30 BEGIN ATOM M V30 1 C 75.44891 -82.65718 0 0 M V30 2 C 75.44891 -94.63797 0 0 M V30 3 C 85.82458 -100.62837 0 0 M V30 4 C 96.20026 -94.63797 0 0 M V30 5 C 96.20026 -82.65718 0 0 M V30 6 C 85.82458 -76.66678 0 0 M V30 7 O 65.10927 -76.68758 0 0 M V30 8 C 106.5399 -100.60756 0 0 M V30 END ATOM M V30 BEGIN BOND M V30 1 2 1 2 M V30 2 1 2 3 M V30 3 2 3 4 M V30 4 1 4 5 M V30 5 2 5 6 M V30 6 1 6 1 M V30 7 1 1 7 M V30 8 1 4 8 M V30 END BOND M V30 END CTAB M END VXXGNQXVRVNCGY-UHFFFAOYSA-N InChI=1S/C12H16O/c1-9-4-5-11-10(8-9)6-7-12(2,3)13-11/h4-5,8H,6-7H2,1-3H3 CC1=CC=C2C(=C1)CCC(C)(C)O2 C12=CC(=CC=C1OC(CC2)(C)C)C |(340.58,-100.16,;330.24,-106.13,;319.9,-100.16,;319.9,-88.22,;330.24,-82.25,;340.58,-88.22,;350.92,-82.25,;361.26,-88.22,;361.26,-100.16,;350.92,-106.13,;367.23,-77.88,;373.2,-88.22,;309.52,-106.15,)| AuxInfo=1/0/N:8,12,13,4,5,9,10,2,3,1,6,11,7/E:(2,3)/rA:13nCCCCCCOCCCCCC/rB:d1;s2;d3;s4;s1d5;s6;s3;s1;s9;s7s10;s11;s11;/rC:340,5770,-100,1616,0;330,2374,-106,1311,0;319,8977,-100,1616,0;319,8977,-88,2224,0;330,2374,-82,2527,0;340,5770,-88,2224,0;350,9167,-82,2527,0;309,5220,-106,1519,0;350,9167,-106,1311,0;361,2563,-100,1616,0;361,2563,-88,2224,0;367,2259,-77,8827,0;373,1955,-88,2224,0; C12H16O C* Me CDK 04212619522D 0 0 0 0 0 999 V3000 M V30 BEGIN CTAB M V30 COUNTS 13 14 0 0 0 M V30 BEGIN ATOM M V30 1 C 340.57703 -100.16156 0 0 M V30 2 C 330.23737 -106.13115 0 0 M V30 3 C 319.89771 -100.16156 0 0 M V30 4 C 319.89771 -88.22235 0 0 M V30 5 C 330.23737 -82.25275 0 0 M V30 6 C 340.57703 -88.22235 0 0 M V30 7 O 350.91669 -82.25275 0 0 M V30 8 C 309.52203 -106.15195 0 0 M V30 9 C 350.91669 -106.13115 0 0 M V30 10 C 361.25632 -100.16156 0 0 M V30 11 C 361.25632 -88.22235 0 0 M V30 12 C 367.22592 -77.88271 0 0 M V30 13 C 373.19553 -88.22235 0 0 M V30 END ATOM M V30 BEGIN BOND M V30 1 2 1 2 M V30 2 1 2 3 M V30 3 2 3 4 M V30 4 1 4 5 M V30 5 2 5 6 M V30 6 1 6 1 M V30 7 1 6 7 M V30 8 1 3 8 M V30 9 1 1 9 M V30 10 1 9 10 M V30 11 1 10 11 M V30 12 1 11 7 M V30 13 1 11 12 M V30 14 1 11 13 M V30 END BOND M V30 END CTAB M END KEVYVLWNCKMXJX-UHFFFAOYSA-N InChI=1S/C20H40O/c1-7-20(6,21)16-10-15-19(5)14-9-13-18(4)12-8-11-17(2)3/h7,17-19,21H,1,8-16H2,2-6H3 C=CC(C)(CCCC(C)CCCC(C)CCCC(C)C)O C=CC(O)(CCCC(CCCC(CCCC(C)C)C)C)C |(85.22,-31.91,;95.45,-37.82,;95.45,-49.61,;85.25,-55.5,;105.66,-55.5,;115.86,-49.61,;126.06,-55.5,;136.27,-49.61,;146.47,-55.5,;156.67,-49.61,;166.87,-55.5,;177.08,-49.61,;187.28,-55.5,;197.48,-49.61,;207.69,-55.5,;217.89,-49.61,;228.09,-55.5,;217.89,-37.82,;177.08,-37.82,;136.27,-37.82,;95.45,-61.43,)| AuxInfo=1/0/N:1,20,21,16,11,6,2,17,12,7,18,15,13,10,8,5,19,14,9,3,4/E:(2,3)/rA:21nCCCOCCCCCCCCCCCCCCCCC/rB:d1;s2;s3;s3;s3;s5;s7;s8;s9;s9;s10;s12;s13;s14;s14;s15;s17;s18;s19;s19;/rC:85,2154,-31,9128,0;95,4539,-37,8240,0;95,4539,-49,6054,0;85,2509,-55,4960,0;105,6568,-55,4960,0;95,4539,-61,4278,0;115,8598,-49,6054,0;126,0627,-55,4960,0;136,2657,-49,6054,0;146,4686,-55,4960,0;136,2657,-37,8240,0;156,6716,-49,6054,0;166,8745,-55,4960,0;177,0775,-49,6054,0;187,2804,-55,4960,0;177,0775,-37,8240,0;197,4834,-49,6054,0;207,6863,-55,4960,0;217,8893,-49,6054,0;228,0922,-55,4960,0;217,8893,-37,8240,0; C20H40O CDK 04212619522D 0 0 0 0 0 999 V3000 M V30 BEGIN CTAB M V30 COUNTS 21 20 0 0 0 M V30 BEGIN ATOM M V30 1 C 85.21538 -31.91281 0 0 M V30 2 C 95.45387 -37.82401 0 0 M V30 3 C 95.45387 -49.60536 0 0 M V30 4 O 85.25093 -55.49603 0 0 M V30 5 C 105.65681 -55.49603 0 0 M V30 6 C 95.45387 -61.42776 0 0 M V30 7 C 115.85977 -49.60536 0 0 M V30 8 C 126.06273 -55.49603 0 0 M V30 9 C 136.26567 -49.60536 0 0 M V30 10 C 146.46861 -55.49603 0 0 M V30 11 C 136.26567 -37.82401 0 0 M V30 12 C 156.67157 -49.60536 0 0 M V30 13 C 166.87451 -55.49603 0 0 M V30 14 C 177.07745 -49.60536 0 0 M V30 15 C 187.28041 -55.49603 0 0 M V30 16 C 177.07745 -37.82401 0 0 M V30 17 C 197.48335 -49.60536 0 0 M V30 18 C 207.68629 -55.49603 0 0 M V30 19 C 217.88925 -49.60536 0 0 M V30 20 C 228.09221 -55.49603 0 0 M V30 21 C 217.88925 -37.82401 0 0 M V30 END ATOM M V30 BEGIN BOND M V30 1 2 1 2 M V30 2 1 2 3 M V30 3 1 3 4 M V30 4 1 3 5 M V30 5 1 3 6 M V30 6 1 5 7 M V30 7 1 7 8 M V30 8 1 8 9 M V30 9 1 9 10 M V30 10 1 9 11 M V30 11 1 10 12 M V30 12 1 12 13 M V30 13 1 13 14 M V30 14 1 14 15 M V30 15 1 14 16 M V30 16 1 15 17 M V30 17 1 17 18 M V30 18 1 18 19 M V30 19 1 19 20 M V30 20 1 19 21 M V30 END BOND M V30 END CTAB M END NXXYKOUNUYWIHA-UHFFFAOYSA-N InChI=1S/C8H10O/c1-6-4-3-5-7(2)8(6)9/h3-5,9H,1-2H3 CC1=CC=CC(=C1O)C C1=CC(=C(C(=C1)C)O)C |(155.4,-57.64,;165.66,-51.72,;165.66,-39.87,;155.4,-33.94,;145.14,-39.87,;145.14,-51.72,;134.91,-33.96,;155.4,-22.13,;175.89,-33.96,)| AuxInfo=1/0/N:8,9,1,6,2,5,3,4,7/E:(1,2)(4,5)(6,7)/rA:9nCCCCCCOCC/rB:d1;s2;d3;s4;s1d5;s4;s5;s3;/rC:155,4005,-57,6426,0;165,6639,-51,7170,0;165,6639,-39,8658,0;155,4005,-33,9402,0;145,1370,-39,8658,0;145,1370,-51,7170,0;155,4005,-22,1301,0;134,9092,-33,9608,0;175,8917,-33,9608,0; C8H10O C* Me CDK 04212619522D 0 0 0 0 0 999 V3000 M V30 BEGIN CTAB M V30 COUNTS 9 9 0 0 0 M V30 BEGIN ATOM M V30 1 C 155.40047 -57.64258 0 0 M V30 2 C 165.66391 -51.71698 0 0 M V30 3 C 165.66391 -39.86578 0 0 M V30 4 C 155.40047 -33.94019 0 0 M V30 5 C 145.13704 -39.86578 0 0 M V30 6 C 145.13704 -51.71698 0 0 M V30 7 O 155.40047 -22.13013 0 0 M V30 8 C 134.90924 -33.96075 0 0 M V30 9 C 175.89171 -33.96075 0 0 M V30 END ATOM M V30 BEGIN BOND M V30 1 2 1 2 M V30 2 1 2 3 M V30 3 2 3 4 M V30 4 1 4 5 M V30 5 2 5 6 M V30 6 1 6 1 M V30 7 1 4 7 M V30 8 1 5 8 M V30 9 1 3 9 M V30 END BOND M V30 END CTAB M END MHHJQVRGRPHIMR-UHFFFAOYSA-N InChI=1S/C9H10O/c1-2-9(10)8-6-4-3-5-7-8/h2-7,9-10H,1H2 C=CC(C1=CC=CC=C1)O C=CC(O)C1=CC=CC=C1 |(208.37,-98.79,;218.42,-92.98,;228.48,-98.79,;238.53,-92.98,;228.48,-110.4,;218.43,-116.2,;218.43,-127.8,;228.48,-133.6,;238.52,-127.8,;238.52,-116.2,)| AuxInfo=1/0/N:1,2,8,7,9,6,10,5,3,4/E:(4,5)(6,7)/rA:10nCCCOCCCCCC/rB:d1;s2;s3;s3;d5;s6;d7;s8;s5d9;/rC:208,3689,-98,7882,0;218,4228,-92,9836,0;228,4766,-98,7882,0;238,5304,-92,9836,0;228,4766,-110,3973,0;218,4307,-116,1973,0;218,4307,-127,7973,0;228,4766,-133,5973,0;238,5225,-127,7973,0;238,5225,-116,1973,0; C9H10O C1=CC=C(C=C1)* Ph CDK 04212619522D 0 0 0 0 0 999 V3000 M V30 BEGIN CTAB M V30 COUNTS 10 10 0 0 0 M V30 BEGIN ATOM M V30 1 C 208.36893 -98.78818 0 0 M V30 2 C 218.42276 -92.9836 0 0 M V30 3 C 228.47658 -98.78818 0 0 M V30 4 O 238.5304 -92.9836 0 0 M V30 5 C 228.47658 -110.39731 0 0 M V30 6 C 218.43068 -116.19731 0 0 M V30 7 C 218.43068 -127.79732 0 0 M V30 8 C 228.47658 -133.59732 0 0 M V30 9 C 238.52248 -127.79732 0 0 M V30 10 C 238.52248 -116.19731 0 0 M V30 END ATOM M V30 BEGIN BOND M V30 1 2 1 2 M V30 2 1 2 3 M V30 3 1 3 4 M V30 4 2 5 6 M V30 5 1 6 7 M V30 6 2 7 8 M V30 7 1 8 9 M V30 8 2 9 10 M V30 9 1 5 10 M V30 10 1 3 5 M V30 END BOND M V30 END CTAB M END OOCCDEMITAIZTP-QPJJXVBHSA-N InChI=1S/C9H10O/c10-8-4-7-9-5-2-1-3-6-9/h1-7,10H,8H2/b7-4+ C1=CC=C(C=C1)/C=C/CO C(=CCO)C1=CC=CC=C1 |(153.34,-104.07,;163.42,-98.24,;173.48,-104.05,;183.53,-98.24,;143.28,-98.26,;143.28,-86.66,;133.24,-80.86,;123.19,-86.66,;123.19,-98.26,;133.24,-104.06,)| AuxInfo=1/0/N:8,7,9,2,6,10,1,3,5,4/E:(2,3)(5,6)/rA:10nCCCOCCCCCC/rB:d+1;s2;s3;s1;d5;s6;d7;s8;s5d9;/rC:153,3357,-104,0656,0;163,4245,-98,2408,0;173,4783,-104,0454,0;183,5322,-98,2408,0;143,2818,-98,2610,0;143,2818,-86,6610,0;133,2359,-80,8610,0;123,1901,-86,6610,0;123,1901,-98,2610,0;133,2359,-104,0610,0; C9H10O C1=CC=C(C=C1)* Ph CDK 04212619522D 0 0 0 0 0 999 V3000 M V30 BEGIN CTAB M V30 COUNTS 10 10 0 0 0 M V30 BEGIN ATOM M V30 1 C 153.33568 -104.06558 0 0 M V30 2 C 163.42453 -98.24078 0 0 M V30 3 C 173.47833 -104.04536 0 0 M V30 4 O 183.53215 -98.24078 0 0 M V30 5 C 143.28185 -98.261 0 0 M V30 6 C 143.28185 -86.66101 0 0 M V30 7 C 133.23595 -80.86101 0 0 M V30 8 C 123.19006 -86.66101 0 0 M V30 9 C 123.19006 -98.26102 0 0 M V30 10 C 133.23595 -104.061 0 0 M V30 END ATOM M V30 BEGIN BOND M V30 1 2 1 2 M V30 2 1 2 3 M V30 3 1 3 4 M V30 4 2 5 6 M V30 5 1 6 7 M V30 6 2 7 8 M V30 7 1 8 9 M V30 8 2 9 10 M V30 9 1 5 10 M V30 10 1 1 5 M V30 END BOND M V30 END CTAB M END QCDYQQDYXPDABM-UHFFFAOYSA-N InChI=1S/C6H6O3/c7-4-1-5(8)3-6(9)2-4/h1-3,7-9H C1=C(C=C(C=C1O)O)O C1=C(C=C(C=C1O)O)O |(21,-46.58,;21,-58.23,;31.09,-64.06,;41.18,-58.23,;41.18,-46.58,;31.09,-40.76,;31.09,-29.15,;51.23,-64.04,;10.95,-64.04,)| AuxInfo=1/0/N:1,3,5,2,6,4,9,7,8/E:(1,2,3)(4,5,6)(7,8,9)/rA:9nCCCCCCOOO/rB:d1;s2;d3;s4;s1d5;s6;s4;s2;/rC:21,0008,-46,5810,0;21,0008,-58,2306,0;31,0896,-64,0554,0;41,1785,-58,2306,0;41,1785,-46,5810,0;31,0896,-40,7562,0;31,0896,-29,1470,0;51,2323,-64,0352,0;10,9470,-64,0352,0; C6H6O3 CDK 04212619522D 0 0 0 0 0 999 V3000 M V30 BEGIN CTAB M V30 COUNTS 9 9 0 0 0 M V30 BEGIN ATOM M V30 1 C 21.00079 -46.58098 0 0 M V30 2 C 21.00079 -58.23058 0 0 M V30 3 C 31.08963 -64.05537 0 0 M V30 4 C 41.17848 -58.23058 0 0 M V30 5 C 41.17848 -46.58098 0 0 M V30 6 C 31.08963 -40.75618 0 0 M V30 7 O 31.08963 -29.14705 0 0 M V30 8 O 51.2323 -64.03516 0 0 M V30 9 O 10.94698 -64.03516 0 0 M V30 END ATOM M V30 BEGIN BOND M V30 1 2 1 2 M V30 2 1 2 3 M V30 3 2 3 4 M V30 4 1 4 5 M V30 5 2 5 6 M V30 6 1 6 1 M V30 7 1 6 7 M V30 8 1 4 8 M V30 9 1 2 9 M V30 END BOND M V30 END CTAB M END XXROGKLTLUQVRX-UHFFFAOYSA-N InChI=1S/C3H6O/c1-2-3-4/h2,4H,1,3H2 C=CCO C=CCO |(80.54,-103.26,;90.63,-97.43,;100.69,-103.24,;110.74,-97.43,)| AuxInfo=1/0/N:1,2,3,4/rA:4nCCCO/rB:d1;s2;s3;/rC:80,5439,-103,2568,0;90,6327,-97,4320,0;100,6865,-103,2366,0;110,7404,-97,4320,0; C3H6O CDK 04212619522D 0 0 0 0 0 999 V3000 M V30 BEGIN CTAB M V30 COUNTS 4 3 0 0 0 M V30 BEGIN ATOM M V30 1 C 80.54388 -103.25679 0 0 M V30 2 C 90.63274 -97.43199 0 0 M V30 3 C 100.68654 -103.23657 0 0 M V30 4 O 110.74036 -97.43199 0 0 M V30 END ATOM M V30 BEGIN BOND M V30 1 2 1 2 M V30 2 1 2 3 M V30 3 1 3 4 M V30 END BOND M V30 END CTAB M END HZJAUJHDTPRXFJ-UHFFFAOYSA-N InChI=1S/C11H10N2O2/c1-2-3-8-7-12-11-5-4-9(13(14)15)6-10(8)11/h2,4-7,12H,1,3H2 C=CCC1=CNC2=C1C=C(C=C2)[N+](=O)[O-] C1(=CC=C2C(=C1)C(=CN2)CC=C)[N+](=O)[O-] |(30.32,-105.37,;30.32,-117.18,;40.54,-123.08,;50.77,-117.18,;50.77,-105.37,;40.54,-99.47,;62,-101.72,;68.94,-111.28,;62,-120.83,;65.64,-90.53,;77.15,-88.09,;85.49,-96.43,;20.13,-99.49,;20.13,-87.72,;9.94,-105.37,)| AuxInfo=1/0/N:15,14,13,2,3,6,8,9,1,5,4,7,10,11,12/E:(14,15)/CRV:13.5/rA:15nCCCCCCNCCN+OO-CCC/rB:d1;s2;d3;s4;s1d5;s4;s7;s5d8;s1;d10;s10;s9;s13;d14;/rC:30,3169,-105,3717,0;30,3169,-117,1797,0;40,5430,-123,0837,0;50,7690,-117,1797,0;50,7690,-105,3717,0;40,5430,-99,4677,0;61,9990,-120,8285,0;68,9396,-111,2757,0;61,9990,-101,7228,0;20,1264,-99,4882,0;20,1264,-87,7212,0;9,9359,-105,3717,0;65,6352,-90,5317,0;77,1451,-88,0852,0;85,4946,-96,4347,0; C11H10N2O2 [N+](=O)([O-])* NO2 CDK 04212619522D 0 0 0 0 0 999 V3000 M V30 BEGIN CTAB M V30 COUNTS 15 16 0 0 0 M V30 BEGIN ATOM M V30 1 C 30.31693 -105.37166 0 0 M V30 2 C 30.31693 -117.17966 0 0 M V30 3 C 40.54295 -123.08366 0 0 M V30 4 C 50.76897 -117.17966 0 0 M V30 5 C 50.76897 -105.37166 0 0 M V30 6 C 40.54295 -99.46767 0 0 M V30 7 N 61.99904 -120.82854 0 0 M V30 8 C 68.93961 -111.27567 0 0 M V30 9 C 61.99904 -101.72279 0 0 M V30 10 N 20.1264 -99.48816 0 0 CHG=1 M V30 11 O 20.1264 -87.72118 0 0 M V30 12 O 9.93588 -105.37166 0 0 CHG=-1 M V30 13 C 65.63524 -90.53171 0 0 M V30 14 C 77.14511 -88.08521 0 0 M V30 15 C 85.49461 -96.43474 0 0 M V30 END ATOM M V30 BEGIN BOND M V30 1 2 1 2 M V30 2 1 2 3 M V30 3 2 3 4 M V30 4 1 4 5 M V30 5 2 5 6 M V30 6 1 6 1 M V30 7 1 4 7 M V30 8 1 7 8 M V30 9 2 8 9 M V30 10 1 9 5 M V30 11 2 10 11 M V30 12 1 10 12 M V30 13 1 1 10 M V30 14 1 9 13 M V30 15 1 13 14 M V30 16 2 14 15 M V30 END BOND M V30 END CTAB M END LQIBEHFRVZDIRE-UHFFFAOYSA-N InChI=1S/C11H11NO/c1-2-3-8-7-12-11-5-4-9(13)6-10(8)11/h2,4-7,12-13H,1,3H2 C=CCC1=CNC2=C1C=C(C=C2)O C1(=CC=C2C(=C1)C(=CN2)CC=C)O |(109.84,-105.37,;109.84,-117.18,;120.06,-123.08,;130.29,-117.18,;130.29,-105.37,;120.06,-99.47,;141.52,-101.72,;148.46,-111.28,;141.52,-120.83,;145.16,-90.53,;156.67,-88.09,;164.54,-96.83,;99.65,-99.49,)| AuxInfo=1/0/N:13,12,11,2,3,6,8,9,1,5,4,7,10/rA:13nCCCCCCNCCOCCC/rB:d1;s2;d3;s4;s1d5;s4;s7;s5d8;s1;s9;s11;d12;/rC:109,8370,-105,3725,0;109,8370,-117,1805,0;120,0630,-123,0845,0;130,2891,-117,1805,0;130,2891,-105,3725,0;120,0630,-99,4685,0;141,5191,-120,8294,0;148,4597,-111,2765,0;141,5191,-101,7237,0;99,6465,-99,4890,0;145,1554,-90,5326,0;156,6652,-88,0861,0;164,5389,-96,8307,0; C11H11NO CDK 04212619522D 0 0 0 0 0 999 V3000 M V30 BEGIN CTAB M V30 COUNTS 13 14 0 0 0 M V30 BEGIN ATOM M V30 1 C 109.83702 -105.37254 0 0 M V30 2 C 109.83702 -117.18054 0 0 M V30 3 C 120.06305 -123.08453 0 0 M V30 4 C 130.28908 -117.18054 0 0 M V30 5 C 130.28908 -105.37254 0 0 M V30 6 C 120.06305 -99.46854 0 0 M V30 7 N 141.51915 -120.82941 0 0 M V30 8 C 148.4597 -111.27654 0 0 M V30 9 C 141.51915 -101.72366 0 0 M V30 10 O 99.64651 -99.48904 0 0 M V30 11 C 145.15536 -90.53259 0 0 M V30 12 C 156.66522 -88.08609 0 0 M V30 13 C 164.53888 -96.83069 0 0 M V30 END ATOM M V30 BEGIN BOND M V30 1 2 1 2 M V30 2 1 2 3 M V30 3 2 3 4 M V30 4 1 4 5 M V30 5 2 5 6 M V30 6 1 6 1 M V30 7 1 4 7 M V30 8 1 7 8 M V30 9 2 8 9 M V30 10 1 9 5 M V30 11 1 1 10 M V30 12 1 9 11 M V30 13 1 11 12 M V30 14 2 12 13 M V30 END BOND M V30 END CTAB M END LUNPIDFXLOWEFA-UHFFFAOYSA-N InChI=1S/C11H10BrN/c1-2-4-8-7-13-10-6-3-5-9(12)11(8)10/h2-3,5-7,13H,1,4H2 C=CCC1=CNC2=C1C(=CC=C2)Br C1=CC=C2C(=C1Br)C(=CN2)CC=C |(175.42,-107.25,;175.42,-119.06,;185.65,-124.96,;195.87,-119.06,;195.87,-107.25,;185.65,-101.35,;185.65,-89.58,;207.1,-103.6,;214.04,-113.15,;207.1,-122.71,;210.74,-92.41,;222.25,-89.96,;230.12,-98.71,)| AuxInfo=1/0/N:13,12,2,11,1,3,8,9,6,4,5,10,7/rA:13nCCCCCCNCCBrCCC/rB:d1;s2;d3;s4;s1d5;s4;s7;s5d8;s6;s9;s11;d12;/rC:175,4206,-107,2508,0;175,4206,-119,0588,0;185,6467,-124,9628,0;195,8727,-119,0588,0;195,8727,-107,2508,0;185,6467,-101,3468,0;207,1027,-122,7077,0;214,0433,-113,1548,0;207,1027,-103,6019,0;185,6467,-89,5798,0;210,7389,-92,4109,0;222,2488,-89,9644,0;230,1225,-98,7090,0; C11H10BrN CDK 04212619522D 0 0 0 0 0 999 V3000 M V30 BEGIN CTAB M V30 COUNTS 13 14 0 0 0 M V30 BEGIN ATOM M V30 1 C 175.42062 -107.25082 0 0 M V30 2 C 175.42062 -119.05882 0 0 M V30 3 C 185.64665 -124.96281 0 0 M V30 4 C 195.87268 -119.05882 0 0 M V30 5 C 195.87268 -107.25082 0 0 M V30 6 C 185.64665 -101.34683 0 0 M V30 7 N 207.10274 -122.70769 0 0 M V30 8 C 214.0433 -113.15482 0 0 M V30 9 C 207.10274 -103.60194 0 0 M V30 10 Br 185.64665 -89.57983 0 0 M V30 11 C 210.73894 -92.41087 0 0 M V30 12 C 222.24881 -89.96437 0 0 M V30 13 C 230.12247 -98.70897 0 0 M V30 END ATOM M V30 BEGIN BOND M V30 1 2 1 2 M V30 2 1 2 3 M V30 3 2 3 4 M V30 4 1 4 5 M V30 5 2 5 6 M V30 6 1 6 1 M V30 7 1 4 7 M V30 8 1 7 8 M V30 9 2 8 9 M V30 10 1 9 5 M V30 11 1 6 10 M V30 12 1 9 11 M V30 13 1 11 12 M V30 14 2 12 13 M V30 END BOND M V30 END CTAB M END SMTXROWRRHMHRK-UHFFFAOYSA-N InChI=1S/C12H13N/c1-3-8-12(2)9-13-11-7-5-4-6-10(11)12/h3-7,9H,1,8H2,2H3 C=CCC1(C)C=NC2=C1C=CC=C2 C1=CC=C2C(=C1)C(CC=C)(C)C=N2 |(242.64,-108.79,;242.64,-120.6,;252.87,-126.5,;263.1,-120.6,;263.1,-108.79,;252.87,-102.89,;274.33,-105.14,;277.96,-93.95,;289.47,-91.51,;297.35,-100.25,;286.13,-105.14,;281.27,-114.7,;274.33,-124.25,)| AuxInfo=1/0/N:13,11,12,1,2,6,3,10,8,5,4,9,7/rA:13nCCCCCCNCCCCCC/rB:d1;s2;d3;s4;s1d5;s4;d7;s5s8;s9;s9;s10;d12;/rC:242,6438,-108,7926,0;242,6438,-120,6006,0;252,8698,-126,5046,0;263,0959,-120,6006,0;263,0959,-108,7926,0;252,8698,-102,8886,0;274,3259,-124,2495,0;281,2665,-114,6966,0;274,3259,-105,1438,0;277,9621,-93,9527,0;286,1339,-105,1438,0;289,4720,-91,5062,0;297,3456,-100,2508,0; C12H13N C* Me CDK 04212619522D 0 0 0 0 0 999 V3000 M V30 BEGIN CTAB M V30 COUNTS 13 14 0 0 0 M V30 BEGIN ATOM M V30 1 C 242.6438 -108.79263 0 0 M V30 2 C 242.6438 -120.60062 0 0 M V30 3 C 252.86983 -126.50462 0 0 M V30 4 C 263.09586 -120.60062 0 0 M V30 5 C 263.09586 -108.79263 0 0 M V30 6 C 252.86983 -102.88863 0 0 M V30 7 N 274.32593 -124.2495 0 0 M V30 8 C 281.26648 -114.69662 0 0 M V30 9 C 274.32593 -105.14375 0 0 M V30 10 C 277.96213 -93.95267 0 0 M V30 11 C 286.13391 -105.14375 0 0 M V30 12 C 289.47198 -91.50618 0 0 M V30 13 C 297.34564 -100.25076 0 0 M V30 END ATOM M V30 BEGIN BOND M V30 1 2 1 2 M V30 2 1 2 3 M V30 3 2 3 4 M V30 4 1 4 5 M V30 5 2 5 6 M V30 6 1 6 1 M V30 7 1 4 7 M V30 8 2 7 8 M V30 9 1 9 5 M V30 10 1 9 10 M V30 11 1 9 11 M V30 12 1 9 8 M V30 13 1 10 12 M V30 14 2 12 13 M V30 END BOND M V30 END CTAB M END CQZZMTZCWWNMQC-WFASDCNBSA-N InChI=1S/C15H18N2O2/c1-3-8-15(9-12(16)14(18)19-2)10-17-13-7-5-4-6-11(13)15/h3-7,10,12H,1,8-9,16H2,2H3/t12-,15-/m0/s1 C=CC[C@]1(C[C@@H](C(=O)OC)N)C=NC2=C1C=CC=C2 C1=CC=C2C(=C1)[C@@](C[C@H](N)C(=O)OC)(C=N2)CC=C |(164.74,-41.37,;164.74,-52.91,;174.73,-58.68,;184.73,-52.91,;184.73,-41.37,;174.73,-35.6,;195.7,-37.81,;204.27,-30.09,;215.25,-33.65,;217.64,-44.94,;223.4,-25.49,;215.68,-16.92,;234.69,-23.09,;238.25,-12.12,;202.48,-47.14,;195.7,-56.47,;193.3,-26.52,;201.46,-18.36,;198.47,-7.22,)| AuxInfo=1/0/N:19,16,18,1,2,6,3,17,10,8,5,11,4,13,9,12,7,14,15/it:im/rA:19nCCCCCCNCC.oCC.eNCOOCCCC/rB:d1;s2;d3;s4;s1d5;s4;d7;s5s8;s9;s10;s11;P11;d13;s13;s15;N9;s17;d18;/rC:164,7433,-41,3719,0;164,7433,-52,9092,0;174,7350,-58,6779,0;184,7267,-52,9092,0;184,7267,-41,3719,0;174,7350,-35,6031,0;195,6994,-56,4745,0;202,4809,-47,1405,0;195,6994,-37,8066,0;204,2733,-30,0866,0;215,2461,-33,6518,0;217,6448,-44,9371,0;223,4042,-25,4937,0;215,6842,-16,9197,0;234,6895,-23,0949,0;238,2548,-12,1222,0;193,3006,-26,5213,0;201,4588,-18,3631,0;198,4727,-7,2189,0; C15H18N2O2 COC(=O)* CO2Me CDK 04212619522D 0 0 0 0 0 999 V3000 M V30 BEGIN CTAB M V30 COUNTS 19 20 0 0 1 M V30 BEGIN ATOM M V30 1 C 164.7433 -41.37186 0 0 M V30 2 C 164.7433 -52.90924 0 0 M V30 3 C 174.73499 -58.67795 0 0 M V30 4 C 184.72667 -52.90924 0 0 M V30 5 C 184.72667 -41.37186 0 0 M V30 6 C 174.73499 -35.60315 0 0 M V30 7 N 195.69939 -56.4745 0 0 M V30 8 C 202.4809 -47.14053 0 0 M V30 9 C 195.69939 -37.80659 0 0 CFG=1 M V30 10 C 204.27335 -30.08656 0 0 M V30 11 C 215.24606 -33.65181 0 0 CFG=1 M V30 12 N 217.64482 -44.9371 0 0 M V30 13 C 223.40424 -25.49365 0 0 M V30 14 O 215.68422 -16.91969 0 0 M V30 15 O 234.68953 -23.09488 0 0 M V30 16 C 238.25478 -12.12216 0 0 M V30 17 C 193.30063 -26.52132 0 0 M V30 18 C 201.45879 -18.36314 0 0 M V30 19 C 198.4727 -7.21887 0 0 M V30 END ATOM M V30 BEGIN BOND M V30 1 2 1 2 M V30 2 1 2 3 M V30 3 2 3 4 M V30 4 1 4 5 M V30 5 2 5 6 M V30 6 1 6 1 M V30 7 1 4 7 M V30 8 2 7 8 M V30 9 1 9 5 M V30 10 1 9 10 M V30 11 1 10 11 M V30 12 1 11 12 M V30 13 2 13 14 M V30 14 1 13 15 M V30 15 1 15 16 M V30 16 1 11 13 CFG=1 M V30 17 1 8 9 M V30 18 1 9 17 CFG=3 M V30 19 1 17 18 M V30 20 2 18 19 M V30 END BOND M V30 END CTAB M END KCUNTYMNJVXYKZ-JTQLQIEISA-N InChI=1S/C12H14N2O2/c1-16-12(15)10(13)6-8-7-14-11-5-3-2-4-9(8)11/h2-5,7,10,14H,6,13H2,1H3/t10-/m0/s1 COC(=O)[C@H](CC1=CNC2=C1C=CC=C2)N C1=CC=C2C(=C1)C(=CN2)C[C@H](N)C(=O)OC |(2.31,-39.95,;2.31,-51.49,;12.3,-57.26,;22.3,-51.49,;22.3,-39.95,;12.3,-34.18,;33.27,-36.39,;40.05,-45.72,;33.27,-55.06,;36.83,-25.41,;48.12,-23.02,;55.84,-31.59,;51.68,-12.04,;43.96,-3.47,;62.97,-9.64,;66.53,1.33,)| AuxInfo=1/0/N:16,1,2,6,3,10,8,9,5,11,4,13,12,7,14,15/it:im/rA:16nCCCCCCNCCCC.eNCOOC/rB:d1;s2;d3;s4;s1d5;s4;s7;s5d8;s9;s10;s11;P11;d13;s13;s15;/rC:2,3126,-39,9529,0;2,3126,-51,4903,0;12,3043,-57,2590,0;22,2959,-51,4903,0;22,2959,-39,9529,0;12,3043,-34,1842,0;33,2687,-55,0555,0;40,0502,-45,7216,0;33,2687,-36,3876,0;36,8339,-25,4149,0;48,1192,-23,0161,0;55,8392,-31,5901,0;51,6844,-12,0434,0;43,9644,-3,4695,0;62,9697,-9,6447,0;66,5350,1,3280,0; C12H14N2O2 COC(=O)* CO2Me CDK 04212619522D 0 0 0 0 0 999 V3000 M V30 BEGIN CTAB M V30 COUNTS 16 17 0 0 1 M V30 BEGIN ATOM M V30 1 C 2.31259 -39.95288 0 0 M V30 2 C 2.31259 -51.49026 0 0 M V30 3 C 12.30426 -57.25897 0 0 M V30 4 C 22.29594 -51.49026 0 0 M V30 5 C 22.29594 -39.95288 0 0 M V30 6 C 12.30426 -34.18417 0 0 M V30 7 N 33.26868 -55.05553 0 0 M V30 8 C 40.05017 -45.72157 0 0 M V30 9 C 33.26868 -36.38762 0 0 M V30 10 C 36.83392 -25.4149 0 0 M V30 11 C 48.1192 -23.01613 0 0 CFG=1 M V30 12 N 55.83922 -31.5901 0 0 M V30 13 C 51.68445 -12.04341 0 0 M V30 14 O 43.96442 -3.46947 0 0 M V30 15 O 62.96973 -9.64465 0 0 M V30 16 C 66.53497 1.32803 0 0 M V30 END ATOM M V30 BEGIN BOND M V30 1 2 1 2 M V30 2 1 2 3 M V30 3 2 3 4 M V30 4 1 4 5 M V30 5 2 5 6 M V30 6 1 6 1 M V30 7 1 4 7 M V30 8 1 7 8 M V30 9 2 8 9 M V30 10 1 9 5 M V30 11 1 9 10 M V30 12 1 10 11 M V30 13 1 11 12 M V30 14 2 13 14 M V30 15 1 13 15 M V30 16 1 15 16 M V30 17 1 11 13 CFG=1 M V30 END BOND M V30 END CTAB M END UVPOVLRAFLHBFA-NWANDNLSSA-N InChI=1S/C15H18N2O2/c1-3-8-15-9-12(13(18)19-2)17-14(15)16-11-7-5-4-6-10(11)15/h3-7,12,14,16-17H,1,8-9H2,2H3/t12-,14+,15+/m0/s1 C=CC[C@]12C[C@@H](C(=O)OC)N[C@@]1([H])NC3=C2C=CC=C3 C1=CC=C2C(=C1)[C@]3(C[C@H](N[C@]3(N2)[H])C(=O)OC)CC=C |(305.45,-31.2,;301.89,-42.17,;309.61,-50.75,;320.89,-48.35,;324.46,-37.38,;316.74,-28.8,;336,-37.38,;345.33,-30.6,;354.66,-37.38,;351.1,-48.35,;339.56,-48.35,;330.23,-55.13,;342.56,-59.53,;365.64,-33.81,;357.92,-25.24,;376.92,-31.41,;380.49,-20.44,;332.43,-26.4,;340.15,-17.83,;336.59,-6.86,)| AuxInfo=1/0/N:19,16,18,1,2,6,3,17,10,5,4,11,13,8,9,7,12,14,15/it:im/rA:20nCCCCCCNC.eC.oCC.eNCOOCCCCH/rB:d1;s2;d3;s4;s1d5;s4;s7;s5s8;s9;s10;s8s11;P11;d13;s13;s15;N9;s17;d18;N8;/rC:305,4544,-31,2022,0;301,8891,-42,1749,0;309,6092,-50,7489,0;320,8944,-48,3501,0;324,4597,-37,3774,0;316,7397,-28,8034,0;330,2284,-55,1316,0;339,5623,-48,3501,0;335,9971,-37,3774,0;345,3311,-30,5959,0;354,6650,-37,3774,0;351,0997,-48,3501,0;365,6377,-33,8121,0;357,9177,-25,2382,0;376,9230,-31,4134,0;380,4883,-20,4407,0;332,4318,-26,4047,0;340,1519,-17,8307,0;336,5866,-6,8580,0;342,5588,-59,5332,0; C15H18N2O2 COC(=O)* CO2Me CDK 04212619522D 0 0 0 0 0 999 V3000 M V30 BEGIN CTAB M V30 COUNTS 20 22 0 0 1 M V30 BEGIN ATOM M V30 1 C 305.45438 -31.20219 0 0 M V30 2 C 301.88913 -42.17491 0 0 M V30 3 C 309.60916 -50.74889 0 0 M V30 4 C 320.89444 -48.35013 0 0 M V30 5 C 324.45969 -37.37741 0 0 M V30 6 C 316.73969 -28.80344 0 0 M V30 7 N 330.22839 -55.13164 0 0 M V30 8 C 339.56235 -48.35013 0 0 CFG=2 M V30 9 C 335.9971 -37.37741 0 0 CFG=1 M V30 10 C 345.33105 -30.59589 0 0 M V30 11 C 354.66498 -37.37741 0 0 CFG=1 M V30 12 N 351.09973 -48.35013 0 0 M V30 13 C 365.6377 -33.81215 0 0 M V30 14 O 357.91769 -25.23819 0 0 M V30 15 O 376.923 -31.41338 0 0 M V30 16 C 380.48825 -20.44066 0 0 M V30 17 C 332.43182 -26.40469 0 0 M V30 18 C 340.15186 -17.83072 0 0 M V30 19 C 336.58661 -6.858 0 0 M V30 20 H 342.55884 -59.53322 0 0 M V30 END ATOM M V30 BEGIN BOND M V30 1 2 1 2 M V30 2 1 2 3 M V30 3 2 3 4 M V30 4 1 4 5 M V30 5 2 5 6 M V30 6 1 6 1 M V30 7 1 4 7 M V30 8 1 9 10 M V30 9 1 10 11 M V30 10 1 11 12 M V30 11 2 13 14 M V30 12 1 13 15 M V30 13 1 15 16 M V30 14 1 11 13 CFG=1 M V30 15 1 8 9 M V30 16 1 9 17 CFG=3 M V30 17 1 17 18 M V30 18 2 18 19 M V30 19 1 8 12 M V30 20 1 7 8 M V30 21 1 8 20 CFG=3 M V30 22 1 5 9 M V30 END BOND M V30 END CTAB M END MVDBHDVAGZNHRM-UHFFFAOYSA-N InChI=1S/C22H21NO2S/c1-3-17-14-23(26(24,25)20-12-8-16(2)9-13-20)15-19-11-10-18-6-4-5-7-21(18)22(17)19/h3-13,17H,1,14-15H2,2H3 C=CC1CN(CC2=C1C3=C(C=CC=C3)C=C2)S(=O)(=O)C4=CC=C(C)C=C4 C12=CC=C3C(=C1C=CC=C2)C(CN(S(C4=CC=C(C=C4)C)(=O)=O)C3)C=C |(311.76,-90.9,;311.76,-102.51,;321.82,-108.31,;331.87,-102.51,;331.87,-90.9,;321.82,-85.1,;321.82,-73.49,;311.76,-67.69,;301.71,-73.49,;301.71,-85.1,;341.92,-85.1,;351.97,-90.9,;351.97,-102.51,;361.99,-108.29,;367.77,-98.28,;390.63,-98.26,;402.05,-78.47,;390.62,-58.7,;367.78,-58.68,;356.36,-78.47,;396.4,-48.68,;356.2,-118.31,;372,-114.07,;341.92,-108.31,;341.92,-73.53,;351.93,-67.75,)| AuxInfo=1/0/N:26,16,25,23,22,24,21,12,14,2,3,11,15,8,20,13,7,1,4,10,6,5,9,18,19,17/E:(8,9)(12,13)(24,25)/CRV:26.6/rA:26nCCCCCCCCNCCCCCCCSOOCCCCCCC/rB:d1;s2;d3;s4;s1d5;s5;s7;s8;;d10;s11;d12;s13;s10d14;s13;s9s10;d17;d17;s4s9;s6;d21;s22;s1d23;s7;d25;/rC:311,7636,-90,9023,0;311,7636,-102,5087,0;321,8151,-108,3118,0;331,8665,-102,5087,0;331,8665,-90,9023,0;321,8151,-85,0991,0;341,9179,-85,0991,0;351,9693,-90,9023,0;351,9693,-102,5087,0;367,7689,-98,2752,0;390,6278,-98,2570,0;402,0529,-78,4682,0;390,6190,-58,6976,0;367,7803,-58,6809,0;356,3552,-78,4697,0;396,4020,-48,6811,0;361,9859,-108,2917,0;356,2028,-118,3082,0;372,0024,-114,0748,0;341,9179,-108,3118,0;321,8151,-73,4926,0;311,7636,-67,6895,0;301,7122,-73,4926,0;301,7122,-85,0991,0;341,9179,-73,5330,0;351,9344,-67,7499,0; C22H21NO2S CC1=CC=C(C=C1)S(=O)(=O)N(*)* NTs CDK 04212619522D 0 0 0 0 0 999 V3000 M V30 BEGIN CTAB M V30 COUNTS 26 29 0 0 0 M V30 BEGIN ATOM M V30 1 C 311.76361 -90.90225 0 0 M V30 2 C 311.76361 -102.50865 0 0 M V30 3 C 321.81506 -108.31184 0 0 M V30 4 C 331.86646 -102.50865 0 0 M V30 5 C 331.86646 -90.90225 0 0 M V30 6 C 321.81506 -85.09906 0 0 M V30 7 C 341.91791 -85.09906 0 0 M V30 8 C 351.96933 -90.90225 0 0 M V30 9 N 351.96933 -102.50865 0 0 M V30 10 C 367.76892 -98.27518 0 0 M V30 11 C 390.62781 -98.25697 0 0 M V30 12 C 402.05286 -78.46822 0 0 M V30 13 C 390.61902 -58.69763 0 0 M V30 14 C 367.78027 -58.68091 0 0 M V30 15 C 356.35522 -78.46968 0 0 M V30 16 C 396.40204 -48.68109 0 0 M V30 17 S 361.98587 -108.2917 0 0 M V30 18 O 356.20282 -118.30823 0 0 M V30 19 O 372.00238 -114.07475 0 0 M V30 20 C 341.91791 -108.31184 0 0 M V30 21 C 321.81506 -73.49265 0 0 M V30 22 C 311.76361 -67.68945 0 0 M V30 23 C 301.71216 -73.49265 0 0 M V30 24 C 301.71216 -85.09906 0 0 M V30 25 C 341.91791 -73.53296 0 0 M V30 26 C 351.93445 -67.74991 0 0 M V30 END ATOM M V30 BEGIN BOND M V30 1 2 1 2 M V30 2 1 2 3 M V30 3 2 3 4 M V30 4 1 4 5 M V30 5 2 5 6 M V30 6 1 6 1 M V30 7 1 5 7 M V30 8 1 7 8 M V30 9 1 9 17 M V30 10 2 10 11 M V30 11 1 11 12 M V30 12 2 12 13 M V30 13 1 13 14 M V30 14 2 14 15 M V30 15 1 10 15 M V30 16 1 13 16 M V30 17 1 10 17 M V30 18 2 17 18 M V30 19 2 17 19 M V30 20 1 8 9 M V30 21 1 20 9 M V30 22 1 4 20 M V30 23 1 6 21 M V30 24 2 21 22 M V30 25 1 22 23 M V30 26 2 23 24 M V30 27 1 24 1 M V30 28 1 7 25 M V30 29 2 25 26 M V30 END BOND M V30 END CTAB M END AMZWRGVRTGVVTH-UHFFFAOYSA-N InChI=1S/C14H12O/c1-3-13(12-7-5-4-6-8-12)14-10-9-11(2)15-14/h1,4-10,13H,2H3 C#CC(C1=CC=CC=C1)C2=CC=C(C)O2 C(C#C)(C1=CC=CC=C1)C2=CC=C(O2)C |(393.52,-84.74,;403.86,-78.77,;414.18,-72.84,;383.22,-78.79,;383.22,-66.89,;372.91,-60.94,;362.61,-66.89,;362.61,-78.79,;372.91,-84.74,;393.52,-96.64,;383.86,-103.65,;387.55,-115.01,;399.49,-115.01,;403.18,-103.65,;406.48,-124.63,)| AuxInfo=1/0/N:10,15,2,6,5,7,4,8,12,11,13,3,1,9,14/E:(5,6)(7,8)/rA:15nCCCCCCCCCCCCCOC/rB:s1;s1;d3;s4;d5;s6;s3d7;s1;t2;d9;s11;d12;s9s13;s13;/rC:393,5209,-84,7395,0;403,8592,-78,7707,0;383,2185,-78,7914,0;383,2185,-66,8914,0;372,9128,-60,9414,0;362,6071,-66,8914,0;362,6071,-78,7914,0;372,9128,-84,7414,0;393,5209,-96,6357,0;414,1802,-72,8434,0;383,8632,-103,6524,0;387,5521,-115,0057,0;399,4897,-115,0057,0;403,1786,-103,6524,0;406,4821,-124,6299,0; C14H12O C1=CC=C(C=C1)* Ph,C* Me CDK 04212619522D 0 0 0 0 0 999 V3000 M V30 BEGIN CTAB M V30 COUNTS 15 16 0 0 0 M V30 BEGIN ATOM M V30 1 C 393.5209 -84.73952 0 0 M V30 2 C 403.85916 -78.77072 0 0 M V30 3 C 383.21851 -78.79144 0 0 M V30 4 C 383.21851 -66.89143 0 0 M V30 5 C 372.91284 -60.94144 0 0 M V30 6 C 362.60712 -66.89145 0 0 M V30 7 C 362.60712 -78.79144 0 0 M V30 8 C 372.91284 -84.74144 0 0 M V30 9 C 393.5209 -96.63567 0 0 M V30 10 C 414.18021 -72.84337 0 0 M V30 11 C 383.86319 -103.65239 0 0 M V30 12 C 387.55209 -115.00572 0 0 M V30 13 C 399.48969 -115.00572 0 0 M V30 14 O 403.17859 -103.65239 0 0 M V30 15 C 406.48206 -124.62991 0 0 M V30 END ATOM M V30 BEGIN BOND M V30 1 1 1 2 M V30 2 2 3 4 M V30 3 1 4 5 M V30 4 2 5 6 M V30 5 1 6 7 M V30 6 2 7 8 M V30 7 1 3 8 M V30 8 1 1 3 M V30 9 1 1 9 M V30 10 3 2 10 M V30 11 2 9 11 M V30 12 1 11 12 M V30 13 2 12 13 M V30 14 1 13 14 M V30 15 1 14 9 M V30 16 1 13 15 M V30 END BOND M V30 END CTAB M END CUFNKYGDVFVPHO-UHFFFAOYSA-N InChI=1S/C10H8/c1-2-5-9-7-4-8-10(9)6-3-1/h1-8H C1=CC=C2C=CC=C2C=C1 C1=C2C(C=C1)=CC=CC=C2 |(341,-301.88,;350.66,-294.86,;346.97,-283.51,;335.03,-283.51,;331.34,-294.86,;353.54,-273.55,;365.43,-272.48,;373.68,-281.11,;372.08,-292.94,;361.83,-299.06,)| AuxInfo=1/0/N:8,7,9,5,6,10,1,4,2,3/E:(2,3)(5,6)(7,8)(9,10)/rA:10nCCCCCCCCCC/rB:d1;s2;s3;s1d4;s2;d6;s7;d8;d3s9;/rC:340,9985,-301,8802,0;350,6562,-294,8635,0;346,9673,-283,5102,0;335,0297,-283,5102,0;331,3408,-294,8635,0;361,8326,-299,0581,0;372,0804,-292,9353,0;373,6828,-281,1057,0;365,4332,-272,4773,0;353,5436,-273,5474,0; C10H8 CDK 04212619522D 0 0 0 0 0 999 V3000 M V30 BEGIN CTAB M V30 COUNTS 10 11 0 0 0 M V30 BEGIN ATOM M V30 1 C 340.99847 -301.88025 0 0 M V30 2 C 350.65619 -294.86353 0 0 M V30 3 C 346.96729 -283.51019 0 0 M V30 4 C 335.02966 -283.51019 0 0 M V30 5 C 331.34076 -294.86353 0 0 M V30 6 C 361.83258 -299.05807 0 0 M V30 7 C 372.08038 -292.9353 0 0 M V30 8 C 373.6828 -281.10574 0 0 M V30 9 C 365.4332 -272.47729 0 0 M V30 10 C 353.54364 -273.54739 0 0 M V30 END ATOM M V30 BEGIN BOND M V30 1 2 1 2 M V30 2 1 2 3 M V30 3 1 3 4 M V30 4 2 4 5 M V30 5 1 5 1 M V30 6 1 2 6 M V30 7 2 6 7 M V30 8 1 7 8 M V30 9 2 8 9 M V30 10 1 9 10 M V30 11 2 10 3 M V30 END BOND M V30 END CTAB M END DZZWMODRWHHWFR-UHFFFAOYSA-N InChI=1S/C15H12O/c16-15(14-9-5-2-6-10-14)12-11-13-7-3-1-4-8-13/h1-10,15-16H C1=CC=C(C=C1)C#CC(C2=CC=CC=C2)O C(C#CC1=CC=CC=C1)(C2=CC=CC=C2)O |(99.5,-221.85,;109.84,-215.88,;120.16,-209.91,;130.48,-203.94,;140.79,-209.88,;151.09,-203.93,;151.08,-192.03,;140.78,-186.08,;130.47,-192.04,;89.16,-215.88,;89.16,-203.98,;78.85,-198.03,;68.55,-203.98,;68.55,-215.88,;78.85,-221.83,;99.5,-233.78,)| AuxInfo=1/0/N:14,6,13,15,5,7,12,16,4,8,10,2,11,3,1,9/E:(3,4)(5,6)(7,8)(9,10)/rA:16nCCCCCCCCOCCCCCCC/rB:s1;s1;d3;s4;d5;s6;s3d7;s1;t2;s10;d11;s12;d13;s14;s11d15;/rC:99,4981,-221,8452,0;109,8364,-215,8764,0;89,1599,-215,8764,0;89,1599,-203,9764,0;78,8542,-198,0264,0;68,5485,-203,9764,0;68,5485,-215,8764,0;78,8542,-221,8264,0;99,4981,-233,7828,0;120,1589,-209,9076,0;130,4814,-203,9388,0;140,7910,-209,8820,0;151,0928,-203,9252,0;151,0849,-192,0252,0;140,7753,-186,0820,0;130,4736,-192,0388,0; C15H12O C1=CC=C(C=C1)* Ph CDK 04212619522D 0 0 0 0 0 999 V3000 M V30 BEGIN CTAB M V30 COUNTS 16 17 0 0 0 M V30 BEGIN ATOM M V30 1 C 99.49814 -221.8452 0 0 M V30 2 C 109.83641 -215.8764 0 0 M V30 3 C 89.15988 -215.8764 0 0 M V30 4 C 89.15988 -203.97639 0 0 M V30 5 C 78.85419 -198.0264 0 0 M V30 6 C 68.54848 -203.97639 0 0 M V30 7 C 68.54848 -215.87639 0 0 M V30 8 C 78.85417 -221.8264 0 0 M V30 9 O 99.49814 -233.78279 0 0 M V30 10 C 120.15891 -209.90761 0 0 M V30 11 C 130.48141 -203.9388 0 0 M V30 12 C 140.79105 -209.88199 0 0 M V30 13 C 151.09282 -203.92519 0 0 M V30 14 C 151.08495 -192.02519 0 0 M V30 15 C 140.77531 -186.082 0 0 M V30 16 C 130.47356 -192.0388 0 0 M V30 END ATOM M V30 BEGIN BOND M V30 1 1 1 2 M V30 2 2 3 4 M V30 3 1 4 5 M V30 4 2 5 6 M V30 5 1 6 7 M V30 6 2 7 8 M V30 7 1 3 8 M V30 8 1 1 3 M V30 9 1 1 9 M V30 10 3 2 10 M V30 11 2 11 12 M V30 12 1 12 13 M V30 13 2 13 14 M V30 14 1 14 15 M V30 15 2 15 16 M V30 16 1 11 16 M V30 17 1 10 11 M V30 END BOND M V30 END CTAB M END UIGLAZDLBZDVBL-UHFFFAOYSA-N InChI=1S/C9H8O/c1-2-9(10)8-6-4-3-5-7-8/h1,3-7,9-10H C#CC(C1=CC=CC=C1)O C(C#C)(C1=CC=CC=C1)O |(173.42,-77.9,;183.76,-71.93,;194.08,-66,;163.12,-71.95,;163.12,-60.05,;152.81,-54.1,;142.51,-60.05,;142.51,-71.95,;152.81,-77.9,;173.42,-89.8,)| AuxInfo=1/0/N:10,2,6,5,7,4,8,3,1,9/E:(4,5)(6,7)/rA:10nCCCCCCCCOC/rB:s1;s1;d3;s4;d5;s6;s3d7;s1;t2;/rC:173,4214,-77,9003,0;183,7597,-71,9315,0;163,1190,-71,9522,0;163,1190,-60,0522,0;152,8133,-54,1022,0;142,5076,-60,0522,0;142,5076,-71,9522,0;152,8133,-77,9022,0;173,4214,-89,7964,0;194,0807,-66,0041,0; C9H8O C1=CC=C(C=C1)* Ph CDK 04212619522D 0 0 0 0 0 999 V3000 M V30 BEGIN CTAB M V30 COUNTS 10 10 0 0 0 M V30 BEGIN ATOM M V30 1 C 173.4214 -77.90027 0 0 M V30 2 C 183.75966 -71.93147 0 0 M V30 3 C 163.11903 -71.95219 0 0 M V30 4 C 163.11902 -60.05219 0 0 M V30 5 C 152.81332 -54.10219 0 0 M V30 6 C 142.50761 -60.0522 0 0 M V30 7 C 142.50763 -71.95219 0 0 M V30 8 C 152.81332 -77.90219 0 0 M V30 9 O 173.4214 -89.79642 0 0 M V30 10 C 194.0807 -66.00412 0 0 M V30 END ATOM M V30 BEGIN BOND M V30 1 1 1 2 M V30 2 2 3 4 M V30 3 1 4 5 M V30 4 2 5 6 M V30 5 1 6 7 M V30 6 2 7 8 M V30 7 1 3 8 M V30 8 1 1 3 M V30 9 1 1 9 M V30 10 3 2 10 M V30 END BOND M V30 END CTAB M END VQKFNUFAXTZWDK-UHFFFAOYSA-N InChI=1S/C5H6O/c1-5-3-2-4-6-5/h2-4H,1H3 CC1=CC=CO1 C1=COC(=C1)C |(326.24,-80.01,;326.24,-91.95,;337.59,-95.64,;344.61,-85.98,;337.59,-76.33,;356.51,-85.98,)| AuxInfo=1/0/N:6,1,5,2,4,3/rA:6nCCOCCC/rB:d1;s2;s3;s1d4;s4;/rC:326,2393,-80,0142,0;326,2393,-91,9518,0;337,5926,-95,6407,0;344,6094,-85,9830,0;337,5926,-76,3253,0;356,5055,-85,9830,0; C5H6O C* Me CDK 04212619522D 0 0 0 0 0 999 V3000 M V30 BEGIN CTAB M V30 COUNTS 6 6 0 0 0 M V30 BEGIN ATOM M V30 1 C 326.23932 -80.01422 0 0 M V30 2 C 326.23932 -91.95181 0 0 M V30 3 O 337.59262 -95.64072 0 0 M V30 4 C 344.60938 -85.98302 0 0 M V30 5 C 337.59262 -76.3253 0 0 M V30 6 C 356.50552 -85.98302 0 0 M V30 END ATOM M V30 BEGIN BOND M V30 1 2 1 2 M V30 2 1 2 3 M V30 3 1 3 4 M V30 4 2 4 5 M V30 5 1 5 1 M V30 6 1 4 6 M V30 END BOND M V30 END CTAB M END BDTSIQXDGUXNMC-CYBMUJFWSA-N InChI=1S/C17H18O3/c1-4-13(12-8-6-5-7-9-12)14-10-17(20-3)15(18)11-16(14)19-2/h4-11,13,18H,1H2,2-3H3/t13-/m1/s1 C=C[C@H](C1=CC=CC=C1)C2=C(C=C(C(=C2)OC)O)OC C1=CC=CC(=C1)[C@@H](C=C)C2=CC(=C(C=C2OC)O)OC |(14.69,-178.81,;14.69,-190.55,;24.86,-196.41,;35.02,-190.55,;35.02,-178.81,;24.86,-172.94,;45.15,-172.96,;55.28,-178.81,;65.41,-172.96,;45.15,-161.27,;55.31,-155.4,;55.31,-143.66,;45.15,-137.8,;34.99,-143.66,;34.99,-155.4,;24.86,-161.25,;14.73,-155.4,;45.15,-126.1,;65.44,-137.82,;75.57,-143.66,)| AuxInfo=1/0/N:20,19,17,8,2,1,3,6,4,10,13,5,7,9,12,14,11,15,18,16/E:(6,7)(8,9)/it:im/rA:20nCCCCCCC.oCCCCCCCOOCOCC/rB:d1;s2;d3;s4;s1d5;s5;s7;N7;d9;s10;d11;s12;s9d13;s12;s11;s16;s14;s18;d8;/rC:14,6946,-178,8110,0;14,6946,-190,5470,0;24,8582,-196,4150,0;35,0219,-190,5470,0;35,0219,-178,8110,0;24,8582,-172,9430,0;45,1503,-172,9633,0;55,2787,-178,8110,0;45,1503,-161,2681,0;55,3140,-155,4001,0;55,3140,-143,6641,0;45,1503,-137,7961,0;34,9866,-143,6641,0;34,9866,-155,4001,0;45,1503,-126,1009,0;65,4424,-137,8165,0;75,5707,-143,6641,0;24,8582,-161,2477,0;14,7299,-155,4001,0;65,4071,-172,9633,0; C17H18O3 CO* OMe CDK 04212619522D 0 0 0 0 0 999 V3000 M V30 BEGIN CTAB M V30 COUNTS 20 21 0 0 1 M V30 BEGIN ATOM M V30 1 C 14.69458 -178.81099 0 0 M V30 2 C 14.69458 -190.54698 0 0 M V30 3 C 24.85825 -196.41498 0 0 M V30 4 C 35.02191 -190.54698 0 0 M V30 5 C 35.02191 -178.81099 0 0 M V30 6 C 24.85825 -172.94298 0 0 M V30 7 C 45.1503 -172.96335 0 0 CFG=2 M V30 8 C 55.27869 -178.81099 0 0 M V30 9 C 45.1503 -161.2681 0 0 M V30 10 C 55.31396 -155.4001 0 0 M V30 11 C 55.31396 -143.66411 0 0 M V30 12 C 45.1503 -137.79611 0 0 M V30 13 C 34.98663 -143.66411 0 0 M V30 14 C 34.98663 -155.4001 0 0 M V30 15 O 45.1503 -126.10086 0 0 M V30 16 O 65.44235 -137.81648 0 0 M V30 17 C 75.57074 -143.66411 0 0 M V30 18 O 24.85823 -161.24771 0 0 M V30 19 C 14.72986 -155.40009 0 0 M V30 20 C 65.40706 -172.96335 0 0 M V30 END ATOM M V30 BEGIN BOND M V30 1 2 1 2 M V30 2 1 2 3 M V30 3 2 3 4 M V30 4 1 4 5 M V30 5 2 5 6 M V30 6 1 6 1 M V30 7 1 5 7 M V30 8 1 7 8 M V30 9 2 9 10 M V30 10 1 10 11 M V30 11 2 11 12 M V30 12 1 12 13 M V30 13 2 13 14 M V30 14 1 14 9 M V30 15 1 12 15 M V30 16 1 16 17 M V30 17 1 11 16 M V30 18 1 18 19 M V30 19 1 14 18 M V30 20 2 8 20 M V30 21 1 7 9 CFG=3 M V30 END BOND M V30 END CTAB M END CCXFTVHDCYNKJH-OAQYLSRUSA-N InChI=1S/C23H33NO/c1-17(2)24(18(3)4)15-14-21(20-10-8-7-9-11-20)22-16-19(5)12-13-23(22)25-6/h7-13,16-18,21H,14-15H2,1-6H3/t21-/m1/s1 CC(C)N(CC[C@H](C1=CC=CC=C1)C2=CC(=CC=C2OC)C)C(C)C C1=CC=CC(=C1)[C@@H](CCN(C(C)C)C(C)C)C2=CC(=CC=C2OC)C |(8.58,-262.55,;8.58,-274.29,;18.75,-280.16,;28.91,-274.29,;28.91,-262.55,;18.75,-256.68,;39.04,-256.7,;49.17,-262.55,;59.29,-256.7,;69.42,-262.55,;79.55,-256.7,;89.68,-262.55,;79.55,-245.01,;69.42,-274.25,;79.55,-280.1,;59.29,-280.1,;39.04,-245.01,;49.2,-239.14,;49.2,-227.41,;39.04,-221.54,;28.87,-227.41,;28.87,-239.14,;18.75,-244.99,;8.62,-239.14,;59.33,-221.56,)| AuxInfo=1/0/N:22,23,24,25,15,17,2,1,3,6,4,12,13,8,18,10,20,21,11,5,7,9,14,19,16/E:(1,2,3,4)(8,9)(10,11)(17,18)/it:im/rA:25nCCCCCCC.oCCCCCCCCOCCNCCCCCC/rB:d1;s2;d3;s4;s1d5;s5;s7;N7;d9;s10;d11;s12;s9d13;s11;s14;s16;s8;s18;s19;s19;s20;s20;s21;s21;/rC:8,5821,-262,5522,0;8,5821,-274,2882,0;18,7457,-280,1562,0;28,9094,-274,2882,0;28,9094,-262,5522,0;18,7457,-256,6842,0;39,0378,-256,7046,0;49,1662,-262,5522,0;39,0378,-245,0094,0;49,2015,-239,1414,0;49,2015,-227,4054,0;39,0378,-221,5374,0;28,8741,-227,4054,0;28,8741,-239,1414,0;59,3298,-221,5577,0;18,7457,-244,9890,0;8,6174,-239,1413,0;59,2946,-256,7046,0;69,4229,-262,5522,0;79,5513,-256,7046,0;69,4229,-274,2475,0;89,6797,-262,5522,0;79,5513,-245,0094,0;79,5513,-280,0951,0;59,2946,-280,0951,0; C23H33NO C* Me,CO* OMe CDK 04212619522D 0 0 0 0 0 999 V3000 M V30 BEGIN CTAB M V30 COUNTS 25 26 0 0 1 M V30 BEGIN ATOM M V30 1 C 8.58208 -262.55225 0 0 M V30 2 C 8.58208 -274.28821 0 0 M V30 3 C 18.74574 -280.15622 0 0 M V30 4 C 28.90941 -274.28821 0 0 M V30 5 C 28.90941 -262.55225 0 0 M V30 6 C 18.74574 -256.68423 0 0 M V30 7 C 39.0378 -256.70459 0 0 CFG=2 M V30 8 C 49.16618 -262.55225 0 0 M V30 9 C 39.0378 -245.00935 0 0 M V30 10 C 49.20146 -239.14136 0 0 M V30 11 C 49.20146 -227.40536 0 0 M V30 12 C 39.0378 -221.53735 0 0 M V30 13 C 28.87413 -227.40536 0 0 M V30 14 C 28.87413 -239.14136 0 0 M V30 15 C 59.32985 -221.55772 0 0 M V30 16 O 18.74574 -244.98897 0 0 M V30 17 C 8.61736 -239.14134 0 0 M V30 18 C 59.29456 -256.70459 0 0 M V30 19 N 69.42294 -262.55225 0 0 M V30 20 C 79.55133 -256.70462 0 0 M V30 21 C 69.42294 -274.2475 0 0 M V30 22 C 89.67972 -262.55225 0 0 M V30 23 C 79.55133 -245.00937 0 0 M V30 24 C 79.55132 -280.09509 0 0 M V30 25 C 59.29456 -280.09509 0 0 M V30 END ATOM M V30 BEGIN BOND M V30 1 2 1 2 M V30 2 1 2 3 M V30 3 2 3 4 M V30 4 1 4 5 M V30 5 2 5 6 M V30 6 1 6 1 M V30 7 1 5 7 M V30 8 1 7 8 M V30 9 2 9 10 M V30 10 1 10 11 M V30 11 2 11 12 M V30 12 1 12 13 M V30 13 2 13 14 M V30 14 1 14 9 M V30 15 1 11 15 M V30 16 1 16 17 M V30 17 1 14 16 M V30 18 1 8 18 M V30 19 1 18 19 M V30 20 1 19 20 M V30 21 1 19 21 M V30 22 1 20 22 M V30 23 1 20 23 M V30 24 1 21 24 M V30 25 1 21 25 M V30 26 1 7 9 CFG=3 M V30 END BOND M V30 END CTAB M END JKTRZZBCOZSQQF-UHFFFAOYSA-N InChI=1S/C25H26O7/c1-6-8-16-11-20-21(32-15-31-20)14-19(16)18(9-10-24(26)30-7-2)17-12-22(27-3)25(29-5)23(13-17)28-4/h6,11-14,18H,1,7-8,15H2,2-5H3 C=CCC1=C(C=C2C(=C1)OCO2)C(C#CC(=O)OCC)C3=CC(=C(C(=C3)OC)OC)OC C12=C(C=C(C(=C1)C(C#CC(=O)OCC)C3=CC(=C(C(=C3)OC)OC)OC)CC=C)OCO2 |(269.59,-56.56,;269.59,-68.3,;279.75,-74.16,;289.91,-68.3,;289.91,-56.56,;279.75,-50.69,;300.04,-50.71,;310.17,-56.56,;320.28,-62.39,;330.38,-68.22,;330.39,-79.91,;340.51,-62.36,;340.5,-50.67,;330.37,-44.82,;300.04,-39.02,;310.21,-33.15,;310.21,-21.41,;300.04,-15.55,;289.88,-21.41,;289.88,-33.15,;279.75,-15.57,;279.75,-3.87,;300.04,-3.85,;310.17,2,;320.33,-15.57,;320.33,-3.87,;300.04,-74.14,;300.04,-85.84,;310.17,-91.69,;258.42,-71.92,;251.53,-62.43,;258.42,-52.93,)| AuxInfo=1/0/N:12,19,28,32,30,11,20,10,14,15,3,26,22,6,8,4,21,13,5,2,1,25,23,16,24,17,27,31,29,18,9,7/E:(3,4)(12,13)(22,23)(27,28)/rA:32nCCCCCCOCOCCCCCCCOOCCCCCCCCOCOCOC/rB:d1;s2;d3;s4;s1d5;s1;s7;s2s8;s4;s10;d11;s5;s13;t14;s15;d16;s16;;s18s19;s13;d21;s22;d23;s24;s21d25;s25;s27;s24;s29;s23;s31;/rC:269,5858,-56,5610,0;269,5858,-68,2970,0;279,7495,-74,1650,0;289,9131,-68,2970,0;289,9131,-56,5610,0;279,7495,-50,6930,0;258,4242,-52,9344,0;251,5260,-62,4290,0;258,4242,-71,9236,0;300,0415,-74,1446,0;300,0415,-85,8398,0;310,1699,-91,6875,0;300,0415,-50,7133,0;310,1699,-56,5610,0;320,2759,-62,3882,0;330,3819,-68,2155,0;330,3884,-79,9107,0;340,5070,-62,3622,0;330,3690,-44,8250,0;340,5006,-50,6670,0;300,0415,-39,0181,0;310,2052,-33,1501,0;310,2052,-21,4141,0;300,0415,-15,5461,0;289,8779,-21,4141,0;289,8779,-33,1501,0;279,7495,-15,5665,0;279,7495,-3,8712,0;300,0415,-3,8509,0;310,1699,1,9967,0;320,3336,-15,5665,0;320,3336,-3,8712,0; C25H26O7 CCOC(=O)* CO2Et,CO* OMe CDK 04212619522D 0 0 0 0 0 999 V3000 M V30 BEGIN CTAB M V30 COUNTS 32 34 0 0 0 M V30 BEGIN ATOM M V30 1 C 269.58582 -56.56099 0 0 M V30 2 C 269.58582 -68.29698 0 0 M V30 3 C 279.74948 -74.16498 0 0 M V30 4 C 289.91315 -68.29698 0 0 M V30 5 C 289.91315 -56.56099 0 0 M V30 6 C 279.74948 -50.69298 0 0 M V30 7 O 258.42422 -52.93436 0 0 M V30 8 C 251.52597 -62.42899 0 0 M V30 9 O 258.42422 -71.92358 0 0 M V30 10 C 300.04153 -74.14459 0 0 M V30 11 C 300.04153 -85.83984 0 0 M V30 12 C 310.16992 -91.68747 0 0 M V30 13 C 300.04153 -50.71335 0 0 M V30 14 C 310.16992 -56.56099 0 0 M V30 15 C 320.27591 -62.38823 0 0 M V30 16 C 330.3819 -68.21548 0 0 M V30 17 O 330.38837 -79.91072 0 0 M V30 18 O 340.50705 -62.36224 0 0 M V30 19 C 330.36896 -44.82498 0 0 M V30 20 C 340.50061 -50.66701 0 0 M V30 21 C 300.04153 -39.0181 0 0 M V30 22 C 310.2052 -33.1501 0 0 M V30 23 C 310.2052 -21.41411 0 0 M V30 24 C 300.04153 -15.54611 0 0 M V30 25 C 289.87787 -21.41411 0 0 M V30 26 C 289.87787 -33.1501 0 0 M V30 27 O 279.74948 -15.56648 0 0 M V30 28 C 279.74948 -3.87123 0 0 M V30 29 O 300.04153 -3.85086 0 0 M V30 30 C 310.16992 1.99672 0 0 M V30 31 O 320.33359 -15.56648 0 0 M V30 32 C 320.33359 -3.87123 0 0 M V30 END ATOM M V30 BEGIN BOND M V30 1 2 1 2 M V30 2 1 2 3 M V30 3 2 3 4 M V30 4 1 4 5 M V30 5 2 5 6 M V30 6 1 6 1 M V30 7 1 1 7 M V30 8 1 7 8 M V30 9 1 8 9 M V30 10 1 9 2 M V30 11 1 4 10 M V30 12 1 10 11 M V30 13 2 11 12 M V30 14 1 5 13 M V30 15 1 13 14 M V30 16 3 14 15 M V30 17 2 16 17 M V30 18 1 16 18 M V30 19 1 18 20 M V30 20 1 19 20 M V30 21 1 15 16 M V30 22 1 13 21 M V30 23 2 21 22 M V30 24 1 22 23 M V30 25 2 23 24 M V30 26 1 24 25 M V30 27 2 25 26 M V30 28 1 26 21 M V30 29 1 27 28 M V30 30 1 25 27 M V30 31 1 29 30 M V30 32 1 24 29 M V30 33 1 31 32 M V30 34 1 23 31 M V30 END BOND M V30 END CTAB M END OPGVEBTYBAOEHZ-LJQANCHMSA-N InChI=1S/C22H20O7/c1-24-17-6-12(7-18(25-2)21(17)26-3)19-14-8-16-15(28-10-29-16)5-11(14)4-13-9-27-22(23)20(13)19/h5-8,19H,4,9-10H2,1-3H3/t19-/m1/s1 COC1=CC(=CC(=C1OC)OC)[C@@H]2C3=C(CC4=C2C(=O)OC4)C=C5C(=C3)OCO5 C12=C(C=C3C(=C1)[C@H](C4=C(C3)COC4=O)C5=CC(=C(C(=C5)OC)OC)OC)OCO2 |(253.08,-208.15,;253.08,-219.89,;263.25,-225.75,;273.41,-219.89,;273.41,-208.15,;263.25,-202.28,;283.57,-202.28,;293.74,-208.15,;293.74,-219.89,;283.57,-225.75,;304.9,-223.51,;311.8,-214.02,;304.9,-204.52,;308.51,-193.4,;283.57,-190.59,;293.74,-184.72,;293.74,-172.98,;283.57,-167.12,;273.41,-172.98,;273.41,-184.72,;263.28,-167.14,;253.15,-172.98,;283.57,-155.42,;293.7,-149.57,;303.87,-167.14,;313.99,-172.98,;241.92,-223.51,;235.02,-214.02,;241.92,-204.52,)| AuxInfo=1/0/N:25,29,27,10,3,19,23,6,14,8,4,18,11,5,2,1,20,22,13,12,21,16,17,24,28,26,15,9,7/E:(1,2)(6,7)(17,18)(24,25)/it:im/rA:29nCCCCCCOCOCCCC.eCOCOCCCCCCOCOCOC/rB:d1;s2;d3;s4;s1d5;s1;s7;s2s8;s4;s10;d11;s5s12;s11;s14;s12s15;d16;P13;d18;s19;d20;s21;s18d22;s20;s24;s21;s26;s22;s28;/rC:253,0821,-208,1510,0;253,0821,-219,8870,0;263,2457,-225,7550,0;273,4094,-219,8870,0;273,4094,-208,1510,0;263,2457,-202,2830,0;241,9205,-204,5244,0;235,0222,-214,0190,0;241,9205,-223,5136,0;283,5731,-225,7550,0;293,7368,-219,8870,0;293,7368,-208,1510,0;283,5731,-202,2830,0;304,8983,-223,5136,0;311,7966,-214,0190,0;304,8983,-204,5244,0;308,5124,-193,4015,0;283,5731,-190,5877,0;293,7368,-184,7197,0;293,7368,-172,9837,0;283,5731,-167,1157,0;273,4094,-172,9837,0;273,4094,-184,7197,0;303,8651,-167,1361,0;313,9935,-172,9837,0;283,5731,-155,4205,0;293,7014,-149,5729,0;263,2810,-167,1361,0;253,1526,-172,9837,0; C22H20O7 CO* OMe CDK 04212619522D 0 0 0 0 0 999 V3000 M V30 BEGIN CTAB M V30 COUNTS 29 33 0 0 1 M V30 BEGIN ATOM M V30 1 C 253.08206 -208.15099 0 0 M V30 2 C 253.08206 -219.88698 0 0 M V30 3 C 263.24573 -225.75497 0 0 M V30 4 C 273.40939 -219.88698 0 0 M V30 5 C 273.40939 -208.15099 0 0 M V30 6 C 263.24573 -202.28299 0 0 M V30 7 O 241.92047 -204.52435 0 0 M V30 8 C 235.02222 -214.01898 0 0 M V30 9 O 241.92047 -223.5136 0 0 M V30 10 C 283.57306 -225.75497 0 0 M V30 11 C 293.73676 -219.88698 0 0 M V30 12 C 293.73676 -208.15099 0 0 M V30 13 C 283.57306 -202.28299 0 0 CFG=1 M V30 14 C 304.89832 -223.5136 0 0 M V30 15 O 311.79657 -214.01897 0 0 M V30 16 C 304.89832 -204.52435 0 0 M V30 17 O 308.51236 -193.4015 0 0 M V30 18 C 283.57306 -190.58772 0 0 M V30 19 C 293.73676 -184.71973 0 0 M V30 20 C 293.73676 -172.98373 0 0 M V30 21 C 283.57306 -167.11574 0 0 M V30 22 C 273.40939 -172.98373 0 0 M V30 23 C 273.40939 -184.71973 0 0 M V30 24 O 303.86511 -167.13611 0 0 M V30 25 C 313.9935 -172.98373 0 0 M V30 26 O 283.57306 -155.42049 0 0 M V30 27 C 293.70145 -149.57286 0 0 M V30 28 O 263.28101 -167.13611 0 0 M V30 29 C 253.15263 -172.98373 0 0 M V30 END ATOM M V30 BEGIN BOND M V30 1 2 1 2 M V30 2 1 2 3 M V30 3 2 3 4 M V30 4 1 4 5 M V30 5 2 5 6 M V30 6 1 6 1 M V30 7 1 1 7 M V30 8 1 7 8 M V30 9 1 8 9 M V30 10 1 9 2 M V30 11 1 4 10 M V30 12 1 10 11 M V30 13 2 11 12 M V30 14 1 12 13 M V30 15 1 13 5 M V30 16 1 11 14 M V30 17 1 14 15 M V30 18 1 15 16 M V30 19 1 16 12 M V30 20 2 16 17 M V30 21 1 13 18 CFG=1 M V30 22 2 18 19 M V30 23 1 19 20 M V30 24 2 20 21 M V30 25 1 21 22 M V30 26 2 22 23 M V30 27 1 23 18 M V30 28 1 24 25 M V30 29 1 20 24 M V30 30 1 26 27 M V30 31 1 21 26 M V30 32 1 28 29 M V30 33 1 22 28 M V30 END BOND M V30 END CTAB M END PSKCIQOMRKMLCP-UHFFFAOYSA-N InChI=1S/C15H18O6/c1-5-21-14(17)7-6-11(16)10-8-12(18-2)15(20-4)13(9-10)19-3/h8-9,11,16H,5H2,1-4H3 CCOC(=O)C#CC(C1=CC(=C(C(=C1)OC)OC)OC)O C1(=CC(=CC(=C1OC)OC)C(O)C#CC(=O)OCC)OC |(97.21,-39.45,;97.21,-51.18,;107.38,-57.05,;117.54,-51.18,;117.54,-39.45,;107.38,-33.58,;107.38,-21.88,;117.51,-16.04,;127.67,-33.6,;137.8,-39.45,;107.38,-68.75,;97.25,-74.59,;117.51,-74.59,;127.61,-80.42,;137.72,-86.25,;147.84,-80.39,;137.72,-97.94,;147.86,-103.78,;157.98,-97.93,;87.08,-33.6,;76.96,-39.45,)| AuxInfo=1/0/N:20,8,12,10,21,15,16,2,4,3,13,1,5,17,6,14,18,7,11,9,19/E:(2,3)(8,9)(12,13)(18,19)/rA:21nCCCCCCOCOCOCCOCCCOOCC/rB:d1;s2;d3;s4;s1d5;s1;s7;s6;s9;s5;s11;s3;s13;s13;t15;s16;d17;s17;;s19s20;/rC:97,2133,-39,4460,0;97,2133,-51,1820,0;107,3770,-57,0500,0;117,5406,-51,1820,0;117,5406,-39,4460,0;107,3770,-33,5780,0;87,0849,-33,5984,0;76,9565,-39,4460,0;107,3770,-21,8827,0;117,5054,-16,0351,0;127,6690,-33,5984,0;137,7974,-39,4460,0;107,3770,-68,7452,0;97,2486,-74,5928,0;117,5054,-74,5928,0;127,6114,-80,4201,0;137,7174,-86,2473,0;147,8425,-80,3941,0;137,7238,-97,9426,0;157,9806,-97,9314,0;147,8555,-103,7846,0; C15H18O6 CCOC(=O)* CO2Et,CO* OMe CDK 04212619522D 0 0 0 0 0 999 V3000 M V30 BEGIN CTAB M V30 COUNTS 21 21 0 0 0 M V30 BEGIN ATOM M V30 1 C 97.21332 -39.44598 0 0 M V30 2 C 97.21332 -51.18198 0 0 M V30 3 C 107.37698 -57.04997 0 0 M V30 4 C 117.54065 -51.18198 0 0 M V30 5 C 117.54065 -39.44598 0 0 M V30 6 C 107.37698 -33.57799 0 0 M V30 7 O 87.08493 -33.59836 0 0 M V30 8 C 76.95654 -39.44598 0 0 M V30 9 O 107.37698 -21.88274 0 0 M V30 10 C 117.50537 -16.0351 0 0 M V30 11 O 127.66904 -33.59836 0 0 M V30 12 C 137.79742 -39.44598 0 0 M V30 13 C 107.37698 -68.74522 0 0 M V30 14 O 97.2486 -74.59285 0 0 M V30 15 C 117.50537 -74.59285 0 0 M V30 16 C 127.61136 -80.42009 0 0 M V30 17 C 137.71738 -86.24734 0 0 M V30 18 O 147.84251 -80.3941 0 0 M V30 19 O 137.72383 -97.9426 0 0 M V30 20 C 157.98059 -97.93138 0 0 M V30 21 C 147.85545 -103.78461 0 0 M V30 END ATOM M V30 BEGIN BOND M V30 1 2 1 2 M V30 2 1 2 3 M V30 3 2 3 4 M V30 4 1 4 5 M V30 5 2 5 6 M V30 6 1 6 1 M V30 7 1 7 8 M V30 8 1 1 7 M V30 9 1 9 10 M V30 10 1 6 9 M V30 11 1 11 12 M V30 12 1 5 11 M V30 13 1 3 13 M V30 14 1 13 14 M V30 15 1 13 15 M V30 16 3 15 16 M V30 17 2 17 18 M V30 18 1 17 19 M V30 19 1 19 21 M V30 20 1 20 21 M V30 21 1 16 17 M V30 END BOND M V30 END CTAB M END YJGVMLPVUAXIQN-XVVDYKMHSA-N InChI=1S/C22H22O8/c1-25-16-4-10(5-17(26-2)21(16)27-3)18-11-6-14-15(30-9-29-14)7-12(11)20(23)13-8-28-22(24)19(13)18/h4-7,13,18-20,23H,8-9H2,1-3H3/t13-,18+,19-,20-/m0/s1 COC1=CC(=CC(=C1OC)OC)[C@@H]2C3=C(C=C4C(=C3)OCO4)[C@@H]([C@H]5COC(=O)[C@@H]52)O C12=C(C=C3C(=C1)[C@H]([C@H]4C(OC[C@@H]4[C@H]3O)=O)C5=CC(=C(C(=C5)OC)OC)OC)OCO2 |(121.05,-208.15,;121.05,-219.89,;131.22,-225.75,;141.38,-219.89,;141.38,-208.15,;131.22,-202.28,;151.54,-202.28,;161.71,-208.15,;172.87,-204.52,;179.77,-214.02,;172.87,-223.51,;161.71,-219.89,;151.54,-225.75,;151.54,-237.45,;176.48,-193.4,;151.54,-190.59,;161.71,-184.72,;161.71,-172.98,;151.54,-167.12,;141.38,-172.98,;141.38,-184.72,;131.25,-167.14,;121.12,-172.98,;151.54,-155.42,;161.67,-149.57,;171.84,-167.14,;181.96,-172.98,;109.89,-223.51,;102.99,-214.02,;109.89,-204.52,)| AuxInfo=1/0/N:25,29,27,19,23,6,3,14,8,18,5,4,11,1,2,20,22,13,12,10,21,16,30,17,24,28,26,15,7,9/E:(1,2)(4,5)(16,17)(25,26)/it:im/rA:30nCCCCCCOCOC.oC.eC.oC.eCOCOCCCCCCOCOCOCO/rB:d1;s2;d3;s4;s1d5;s1;s7;s2s8;s4;s10;s11;s5s12;N11;s14;P12s15;d16;P13;d18;s19;d20;s21;s18d22;s20;s24;s21;s26;s22;s28;P10;/rC:121,0521,-208,1510,0;121,0521,-219,8870,0;131,2157,-225,7550,0;141,3794,-219,8870,0;141,3794,-208,1510,0;131,2157,-202,2830,0;109,8905,-204,5244,0;102,9922,-214,0190,0;109,8905,-223,5136,0;151,5431,-225,7550,0;161,7067,-219,8870,0;161,7067,-208,1510,0;151,5431,-202,2830,0;172,8683,-223,5136,0;179,7666,-214,0190,0;172,8683,-204,5244,0;176,4824,-193,4015,0;151,5431,-190,5877,0;161,7067,-184,7197,0;161,7067,-172,9837,0;151,5431,-167,1157,0;141,3794,-172,9837,0;141,3794,-184,7197,0;171,8351,-167,1361,0;181,9635,-172,9837,0;151,5431,-155,4205,0;161,6714,-149,5729,0;131,2510,-167,1361,0;121,1226,-172,9837,0;151,5431,-237,4502,0; C22H22O8 CO* OMe CDK 04212619522D 0 0 0 0 0 999 V3000 M V30 BEGIN CTAB M V30 COUNTS 30 34 0 0 1 M V30 BEGIN ATOM M V30 1 C 121.05206 -208.15099 0 0 M V30 2 C 121.05206 -219.88698 0 0 M V30 3 C 131.21574 -225.75497 0 0 M V30 4 C 141.37939 -219.88698 0 0 M V30 5 C 141.37939 -208.15099 0 0 M V30 6 C 131.21574 -202.28299 0 0 M V30 7 O 109.89047 -204.52435 0 0 M V30 8 C 102.99222 -214.01898 0 0 M V30 9 O 109.89047 -223.5136 0 0 M V30 10 C 151.54308 -225.75497 0 0 CFG=2 M V30 11 C 161.70674 -219.88698 0 0 CFG=1 M V30 12 C 161.70674 -208.15099 0 0 CFG=2 M V30 13 C 151.54308 -202.28299 0 0 CFG=1 M V30 14 C 172.86833 -223.5136 0 0 M V30 15 O 179.76657 -214.01897 0 0 M V30 16 C 172.86833 -204.52435 0 0 M V30 17 O 176.48236 -193.4015 0 0 M V30 18 C 151.54308 -190.58772 0 0 M V30 19 C 161.70674 -184.71973 0 0 M V30 20 C 161.70674 -172.98373 0 0 M V30 21 C 151.54308 -167.11574 0 0 M V30 22 C 141.37939 -172.98373 0 0 M V30 23 C 141.37939 -184.71973 0 0 M V30 24 O 171.83513 -167.13611 0 0 M V30 25 C 181.9635 -172.98373 0 0 M V30 26 O 151.54308 -155.42049 0 0 M V30 27 C 161.67145 -149.57286 0 0 M V30 28 O 131.25102 -167.13611 0 0 M V30 29 C 121.12263 -172.98373 0 0 M V30 30 O 151.54308 -237.45021 0 0 M V30 END ATOM M V30 BEGIN BOND M V30 1 2 1 2 M V30 2 1 2 3 M V30 3 2 3 4 M V30 4 1 4 5 M V30 5 2 5 6 M V30 6 1 6 1 M V30 7 1 1 7 M V30 8 1 7 8 M V30 9 1 8 9 M V30 10 1 9 2 M V30 11 1 4 10 M V30 12 1 10 11 M V30 13 1 12 13 M V30 14 1 13 5 M V30 15 1 11 14 CFG=3 M V30 16 1 14 15 M V30 17 1 15 16 M V30 18 1 12 16 CFG=1 M V30 19 2 16 17 M V30 20 1 13 18 CFG=1 M V30 21 2 18 19 M V30 22 1 19 20 M V30 23 2 20 21 M V30 24 1 21 22 M V30 25 2 22 23 M V30 26 1 23 18 M V30 27 1 24 25 M V30 28 1 20 24 M V30 29 1 26 27 M V30 30 1 21 26 M V30 31 1 28 29 M V30 32 1 22 28 M V30 33 1 12 11 M V30 34 1 10 30 CFG=1 M V30 END BOND M V30 END CTAB M END ZMQAAUBTXCXRIC-UHFFFAOYSA-N InChI=1S/C10H10O2/c1-2-3-8-4-5-9-10(6-8)12-7-11-9/h2,4-6H,1,3,7H2 C=CCC1=CC=C2C(=C1)OCO2 C12=C(C=C(C=C1)CC=C)OCO2 |(18.36,-46.17,;18.36,-57.91,;28.53,-63.77,;38.69,-57.91,;38.69,-46.17,;28.53,-40.3,;48.82,-63.75,;48.82,-75.45,;58.95,-81.3,;7.2,-61.53,;0.3,-52.04,;7.2,-42.54,)| AuxInfo=1/0/N:12,11,10,5,6,3,8,4,1,2,7,9/rA:12nCCCCCCOCOCCC/rB:d1;s2;d3;s4;s1d5;s1;s7;s2s8;s4;s10;d11;/rC:18,3621,-46,1697,0;18,3621,-57,9057,0;28,5257,-63,7737,0;38,6894,-57,9057,0;38,6894,-46,1697,0;28,5257,-40,3017,0;7,2005,-42,5431,0;,3022,-52,0377,0;7,2005,-61,5323,0;48,8178,-63,7533,0;48,8178,-75,4486,0;58,9462,-81,2962,0; C10H10O2 CDK 04212619522D 0 0 0 0 0 999 V3000 M V30 BEGIN CTAB M V30 COUNTS 12 13 0 0 0 M V30 BEGIN ATOM M V30 1 C 18.36206 -46.16974 0 0 M V30 2 C 18.36206 -57.90573 0 0 M V30 3 C 28.52574 -63.77373 0 0 M V30 4 C 38.68939 -57.90573 0 0 M V30 5 C 38.68939 -46.16974 0 0 M V30 6 C 28.52574 -40.30173 0 0 M V30 7 O 7.20047 -42.54311 0 0 M V30 8 C 0.30222 -52.03773 0 0 M V30 9 O 7.20047 -61.53233 0 0 M V30 10 C 48.81779 -63.75334 0 0 M V30 11 C 48.81779 -75.44859 0 0 M V30 12 C 58.94617 -81.29622 0 0 M V30 END ATOM M V30 BEGIN BOND M V30 1 2 1 2 M V30 2 1 2 3 M V30 3 2 3 4 M V30 4 1 4 5 M V30 5 2 5 6 M V30 6 1 6 1 M V30 7 1 1 7 M V30 8 1 7 8 M V30 9 1 8 9 M V30 10 1 9 2 M V30 11 1 4 10 M V30 12 1 10 11 M V30 13 2 11 12 M V30 END BOND M V30 END CTAB M END MUAXDUGBOCHNJE-UHFFFAOYSA-N InChI=1S/C11H8Cl3NO/c12-11(13,14)10(15)16-8-4-7-9-5-2-1-3-6-9/h1-3,5-6,15H,8H2 C1=CC=C(C=C1)C#CCOC(=N)C(Cl)(Cl)Cl C1(=CC=CC=C1)C#CCOC(C(Cl)(Cl)Cl)=N |(7.89,-84.02,;2.14,-74.06,;-9.36,-74.06,;-15.11,-84.02,;-9.36,-93.98,;2.14,-93.98,;19.42,-84.02,;30.92,-84.02,;42.41,-84.02,;48.16,-93.97,;59.65,-93.97,;8.76,-121.71,;18.71,-115.96,;-1.2,-127.46,;14.5,-131.66,;65.4,-84.02,)| AuxInfo=1/0/N:4,3,5,8,2,6,7,9,1,11,12,13,14,15,16,10/E:(2,3)(5,6)(12,13,14)/rA:16nCCCCCCCCCOCCClClClN/rB:d1;s2;d3;s4;s1d5;s1;t7;s8;s9;s10;s11;s12;s12;s12;d11;/rC:7,8875,-84,0194,0;2,1375,-74,0601,0;-9,3625,-74,0601,0;-15,1125,-84,0194,0;-9,3625,-93,9787,0;2,1375,-93,9787,0;19,4219,-84,0194,0;30,9162,-84,0194,0;42,4106,-84,0194,0;48,1578,-93,9738,0;59,6521,-93,9738,0;8,7571,-121,7096,0;18,7115,-115,9624,0;-1,1973,-127,4567,0;14,5043,-131,6640,0;65,3993,-84,0194,0; C11H8Cl3NO C1=CC=C(C=C1)* Ph,C(Cl)(Cl)(Cl)* CCl3 CDK 04212619522D 0 0 0 0 0 999 V3000 M V30 BEGIN CTAB M V30 COUNTS 16 16 0 0 0 M V30 BEGIN ATOM M V30 1 C 7.88751 -84.01942 0 0 M V30 2 C 2.13751 -74.06013 0 0 M V30 3 C -9.36247 -74.06013 0 0 M V30 4 C -15.11247 -84.01942 0 0 M V30 5 C -9.36247 -93.97871 0 0 M V30 6 C 2.13751 -93.97871 0 0 M V30 7 C 19.42191 -84.01942 0 0 M V30 8 C 30.91624 -84.01942 0 0 M V30 9 C 42.4106 -84.01942 0 0 M V30 10 O 48.15778 -93.97382 0 0 M V30 11 C 59.65211 -93.97382 0 0 M V30 12 C 8.75714 -121.70956 0 0 M V30 13 Cl 18.71153 -115.96239 0 0 M V30 14 Cl -1.19725 -127.45674 0 0 M V30 15 Cl 14.50432 -131.66397 0 0 M V30 16 N 65.39929 -84.01942 0 0 M V30 END ATOM M V30 BEGIN BOND M V30 1 2 1 2 M V30 2 1 2 3 M V30 3 2 3 4 M V30 4 1 4 5 M V30 5 2 5 6 M V30 6 1 1 6 M V30 7 1 1 7 M V30 8 3 7 8 M V30 9 1 8 9 M V30 10 1 9 10 M V30 11 1 10 11 M V30 12 1 12 13 M V30 13 1 12 14 M V30 14 1 12 15 M V30 15 1 11 12 M V30 16 2 11 16 M V30 END BOND M V30 END CTAB M END DNJKGOZCTUTFEJ-TZHYSIJRSA-N InChI=1S/C17H20O/c1-2-9-16(14-10-5-3-6-11-14)17(18)15-12-7-4-8-13-15/h3-8,10-13,16-18H,2,9H2,1H3/t16-,17?/m1/s1 CCC[C@H](C1=CC=CC=C1)C(C2=CC=CC=C2)O C1=CC=C(C=C1)C(O)[C@@H](C2=CC=CC=C2)CCC |(12.71,-161.59,;12.71,-173.53,;23.05,-179.5,;33.39,-173.53,;33.39,-161.59,;23.05,-155.62,;43.69,-179.48,;43.69,-191.41,;53.99,-173.53,;64.3,-179.48,;64.3,-191.41,;74.63,-197.38,;84.97,-191.41,;84.97,-179.48,;74.63,-173.51,;53.99,-161.63,;64.3,-155.68,;64.3,-143.79,)| AuxInfo=1/0/N:18,17,13,1,12,14,2,6,16,11,15,3,5,10,4,9,7,8/E:(5,6)(7,8)(10,11)(12,13)/it:im/rA:18nCCCCCCCOC.oCCCCCCCCC/rB:d1;s2;d3;s4;s1d5;s4;V7;s7;s9;d10;s11;d12;s13;s10d14;N9;s16;s17;/rC:12,7119,-161,5899,0;12,7119,-173,5275,0;23,0501,-179,4963,0;33,3884,-173,5275,0;33,3884,-161,5899,0;23,0501,-155,6211,0;43,6907,-179,4755,0;43,6907,-191,4131,0;53,9931,-173,5275,0;64,2955,-179,4755,0;64,2955,-191,4131,0;74,6337,-197,3819,0;84,9720,-191,4131,0;84,9720,-179,4755,0;74,6337,-173,5067,0;53,9931,-161,6313,0;64,2955,-155,6832,0;64,2955,-143,7871,0; C17H20O C* Me CDK 04212619522D 0 0 0 0 0 999 V3000 M V30 BEGIN CTAB M V30 COUNTS 18 19 0 0 1 M V30 BEGIN ATOM M V30 1 C 12.71187 -161.58987 0 0 M V30 2 C 12.71187 -173.52747 0 0 M V30 3 C 23.05011 -179.49626 0 0 M V30 4 C 33.38838 -173.52747 0 0 M V30 5 C 33.38838 -161.58987 0 0 M V30 6 C 23.05011 -155.62108 0 0 M V30 7 C 43.69073 -179.47554 0 0 M V30 8 O 43.69073 -191.41313 0 0 M V30 9 C 53.99312 -173.52747 0 0 CFG=2 M V30 10 C 64.29549 -179.47554 0 0 M V30 11 C 64.29549 -191.41313 0 0 M V30 12 C 74.63374 -197.38194 0 0 M V30 13 C 84.972 -191.41313 0 0 M V30 14 C 84.972 -179.47554 0 0 M V30 15 C 74.63374 -173.50674 0 0 M V30 16 C 53.99312 -161.63132 0 0 M V30 17 C 64.29549 -155.68323 0 0 M V30 18 C 64.29549 -143.78709 0 0 M V30 END ATOM M V30 BEGIN BOND M V30 1 2 1 2 M V30 2 1 2 3 M V30 3 2 3 4 M V30 4 1 4 5 M V30 5 2 5 6 M V30 6 1 6 1 M V30 7 1 4 7 M V30 8 1 7 8 CFG=2 M V30 9 1 7 9 M V30 10 1 9 10 M V30 11 2 10 11 M V30 12 1 11 12 M V30 13 2 12 13 M V30 14 1 13 14 M V30 15 2 14 15 M V30 16 1 15 10 M V30 17 1 9 16 CFG=3 M V30 18 1 16 17 M V30 19 1 17 18 M V30 END BOND M V30 END CTAB M END YCIQWGOJQSJOOV-JQWIXIFHSA-N InChI=1S/C13H20O/c1-10(13(2,3)4)12(14)11-8-6-5-7-9-11/h5-10,12,14H,1-4H3/t10-,12-/m0/s1 C[C@@H]([C@@H](C1=CC=CC=C1)O)C(C)(C)C CC([C@H]([C@@H](C1=CC=CC=C1)O)C)(C)C |(62.43,-78.14,;62.43,-66.25,;52.13,-60.3,;41.83,-66.25,;31.52,-60.3,;21.18,-66.27,;10.85,-60.3,;10.85,-48.36,;21.18,-42.39,;31.52,-48.36,;41.83,-78.14,;52.13,-48.4,;72.73,-72.2,;72.73,-60.3,)| AuxInfo=1/0/N:12,1,13,14,2,3,7,4,6,10,5,8,11,9/E:(2,3,4)(6,7)(8,9)/it:im/rA:14nCCCCCCCC.oOC.oCCCC/rB:;d2;s3;d4;s5;s2d6;s5;N8;s8;s1s10;N10;s11;s11;/rC:62,4302,-78,1449,0;10,8466,-48,3631,0;10,8466,-60,3007,0;21,1849,-66,2695,0;31,5231,-60,3007,0;31,5231,-48,3631,0;21,1849,-42,3943,0;41,8255,-66,2487,0;41,8255,-78,1449,0;52,1279,-60,3007,0;62,4302,-66,2487,0;52,1279,-48,4045,0;72,7326,-72,1968,0;72,7326,-60,3007,0; C13H20O C* Me CDK 04212619522D 0 0 0 0 0 999 V3000 M V30 BEGIN CTAB M V30 COUNTS 14 14 0 0 1 M V30 BEGIN ATOM M V30 1 C 62.43024 -78.1449 0 0 M V30 2 C 10.84662 -48.36308 0 0 M V30 3 C 10.84662 -60.30067 0 0 M V30 4 C 21.18486 -66.26947 0 0 M V30 5 C 31.52313 -60.30067 0 0 M V30 6 C 31.52313 -48.36308 0 0 M V30 7 C 21.18486 -42.39427 0 0 M V30 8 C 41.82549 -66.24873 0 0 CFG=2 M V30 9 O 41.82549 -78.1449 0 0 M V30 10 C 52.12785 -60.30067 0 0 CFG=2 M V30 11 C 62.43024 -66.24873 0 0 M V30 12 C 52.12787 -48.40451 0 0 M V30 13 C 72.73259 -72.19681 0 0 M V30 14 C 72.73259 -60.30067 0 0 M V30 END ATOM M V30 BEGIN BOND M V30 1 1 11 1 M V30 2 2 2 3 M V30 3 1 3 4 M V30 4 2 4 5 M V30 5 1 5 6 M V30 6 2 6 7 M V30 7 1 7 2 M V30 8 1 5 8 M V30 9 1 8 9 CFG=3 M V30 10 1 8 10 M V30 11 1 10 11 M V30 12 1 10 12 CFG=3 M V30 13 1 11 13 M V30 14 1 11 14 M V30 END BOND M V30 END CTAB M END IANQTJSKSUMEQM-UHFFFAOYSA-N InChI=1S/C8H6O/c1-2-4-8-7(3-1)5-6-9-8/h1-6H C1=CC2=C(C=C1)OC=C2 C12=C(OC=C1)C=CC=C2 |(198.44,-72.18,;198.44,-84.46,;210.12,-88.26,;217.34,-78.32,;210.12,-68.38,;187.8,-90.6,;177.16,-84.46,;177.16,-72.18,;187.8,-66.03,)| AuxInfo=1/0/N:7,8,6,9,5,4,1,2,3/rA:9nCCOCCCCCC/rB:d1;s2;s3;s1d4;s1;d6;s7;s2d8;/rC:198,4357,-72,1764,0;198,4357,-84,4596,0;210,1177,-88,2553,0;217,3376,-78,3180,0;210,1177,-68,3807,0;187,7981,-66,0348,0;177,1606,-72,1764,0;177,1606,-84,4596,0;187,7981,-90,6012,0; C8H6O CDK 04212619522D 0 0 0 0 0 999 V3000 M V30 BEGIN CTAB M V30 COUNTS 9 10 0 0 0 M V30 BEGIN ATOM M V30 1 C 198.43571 -72.17638 0 0 M V30 2 C 198.43571 -84.45956 0 0 M V30 3 O 210.11774 -88.25528 0 0 M V30 4 C 217.3376 -78.31798 0 0 M V30 5 C 210.11774 -68.38066 0 0 M V30 6 C 187.79814 -66.03477 0 0 M V30 7 C 177.1606 -72.17638 0 0 M V30 8 C 177.1606 -84.45956 0 0 M V30 9 C 187.79814 -90.60117 0 0 M V30 END ATOM M V30 BEGIN BOND M V30 1 2 1 2 M V30 2 1 2 3 M V30 3 1 3 4 M V30 4 2 4 5 M V30 5 1 5 1 M V30 6 1 1 6 M V30 7 2 6 7 M V30 8 1 7 8 M V30 9 2 8 9 M V30 10 1 9 2 M V30 END BOND M V30 END CTAB M END LMYRWZFENFIFIT-UHFFFAOYSA-N InChI=1S/C7H9NO2S/c1-6-2-4-7(5-3-6)11(8,9)10/h2-5H,1H3,(H2,8,9,10) CC1=CC=C(C=C1)S(=O)(=O)N NS(C1=CC=C(C=C1)C)(=O)=O |(355.19,-78.76,;342.91,-78.76,;330.66,-78.76,;324.54,-68.15,;312.29,-68.15,;306.16,-78.76,;312.29,-89.36,;324.54,-89.36,;293.91,-78.76,;342.91,-91.01,;342.91,-66.51,)| AuxInfo=1/1/N:8,4,6,3,7,5,2,1,10,11,9/E:(2,3)(4,5)(9,10)/CRV:11.6/rA:11nNCCCCCCCSOO/rB:;d2;s3;d4;s5;s2d6;s5;s1s2;d9;d9;/rC:355,1947,-78,7550,0;330,6615,-78,7550,0;324,5365,-68,1462,0;312,2865,-68,1462,0;306,1615,-78,7550,0;312,2865,-89,3638,0;324,5365,-89,3638,0;293,9115,-78,7550,0;342,9115,-78,7550,0;342,9115,-91,0050,0;342,9115,-66,5050,0; C7H9NO2S CC1=CC=C(C=C1)S(=O)(=O)* Ts CDK 04212619522D 0 0 0 0 0 999 V3000 M V30 BEGIN CTAB M V30 COUNTS 11 11 0 0 0 M V30 BEGIN ATOM M V30 1 N 355.19473 -78.755 0 0 M V30 2 C 330.66153 -78.755 0 0 M V30 3 C 324.53653 -68.14619 0 0 M V30 4 C 312.28653 -68.14619 0 0 M V30 5 C 306.16153 -78.755 0 0 M V30 6 C 312.28653 -89.36382 0 0 M V30 7 C 324.53653 -89.36382 0 0 M V30 8 C 293.91153 -78.755 0 0 M V30 9 S 342.91153 -78.755 0 0 M V30 10 O 342.91153 -91.005 0 0 M V30 11 O 342.91153 -66.505 0 0 M V30 END ATOM M V30 BEGIN BOND M V30 1 2 2 3 M V30 2 1 3 4 M V30 3 2 4 5 M V30 4 1 5 6 M V30 5 2 6 7 M V30 6 1 2 7 M V30 7 1 5 8 M V30 8 1 2 9 M V30 9 2 9 10 M V30 10 2 9 11 M V30 11 1 1 9 M V30 END BOND M V30 END CTAB M END UXZSXKRJYDISRA-UHFFFAOYSA-N InChI=1S/C14H18O5/c1-9(14(16)18-4)13(19-10(2)15)11-5-7-12(17-3)8-6-11/h5-9,13H,1-4H3 CC(C(C1=CC=C(C=C1)OC)OC(=O)C)C(=O)OC C1=C(C=CC(=C1)C(OC(=O)C)C(C)C(=O)OC)OC |(60.85,-23.09,;60.85,-35.38,;71.49,-41.52,;82.13,-35.38,;82.13,-23.09,;71.49,-16.95,;92.77,-16.95,;92.77,-4.67,;103.37,1.45,;103.37,13.69,;113.97,-4.67,;103.4,-23.09,;103.4,-35.38,;114.04,-16.95,;114.04,-4.71,;124.64,-23.07,;135.24,-16.95,;50.25,-41.5,;39.65,-35.38,)| AuxInfo=1/0/N:13,11,19,17,4,6,3,1,12,10,5,2,7,14,9,15,18,16,8/E:(5,6)(7,8)/rA:19nCCCCCCCOOCCCCCOOCOC/rB:d1;s2;d3;s4;s1d5;s5;s7;;s8d9;s10;s7;s12;s12;d14;s14;s16;s2;s18;/rC:60,8538,-23,0928,0;60,8538,-35,3760,0;71,4913,-41,5176,0;82,1289,-35,3760,0;82,1289,-23,0928,0;71,4913,-16,9512,0;92,7665,-16,9512,0;92,7665,-4,6680,0;103,3671,13,6927,0;103,3671,1,4522,0;113,9677,-4,6680,0;103,4040,-23,0928,0;103,4040,-35,3760,0;114,0416,-16,9512,0;114,0416,-4,7106,0;124,6422,-23,0715,0;135,2428,-16,9512,0;50,2532,-41,4963,0;39,6525,-35,3760,0; C14H18O5 COC(=O)* CO2Me,C* Me,CC(=O)O* OAc,CO* OMe + CDK 04212619522D 0 0 0 0 0 999 V3000 M V30 BEGIN CTAB M V30 COUNTS 19 19 0 0 0 M V30 BEGIN ATOM M V30 1 C 60.85379 -23.0928 0 0 M V30 2 C 60.85379 -35.37599 0 0 M V30 3 C 71.49135 -41.51759 0 0 M V30 4 C 82.12889 -35.37599 0 0 M V30 5 C 82.12889 -23.0928 0 0 M V30 6 C 71.49135 -16.9512 0 0 M V30 7 C 92.76646 -16.9512 0 0 M V30 8 O 92.76646 -4.66801 0 0 M V30 9 O 103.3671 13.69273 0 0 M V30 10 C 103.3671 1.45219 0 0 M V30 11 C 113.96771 -4.66801 0 0 M V30 12 C 103.40402 -23.0928 0 0 M V30 13 C 103.40402 -35.37599 0 0 M V30 14 C 114.04156 -16.9512 0 0 M V30 15 O 114.04156 -4.71065 0 0 M V30 16 O 124.6422 -23.07149 0 0 M V30 17 C 135.24283 -16.9512 0 0 M V30 18 O 50.25316 -41.49628 0 0 M V30 19 C 39.65253 -35.37599 0 0 M V30 END ATOM M V30 BEGIN BOND M V30 1 2 1 2 M V30 2 1 2 3 M V30 3 2 3 4 M V30 4 1 4 5 M V30 5 2 5 6 M V30 6 1 6 1 M V30 7 1 5 7 M V30 8 1 8 10 M V30 9 2 9 10 M V30 10 1 10 11 M V30 11 1 7 8 M V30 12 1 7 12 M V30 13 1 12 13 M V30 14 2 14 15 M V30 15 1 14 16 M V30 16 1 16 17 M V30 17 1 12 14 M V30 18 1 18 19 M V30 19 1 2 18 M V30 END BOND M V30 END CTAB M END VONGYFFEWFJHNP-UHFFFAOYSA-N InChI=1S/C6H7NO2/c1-9-6(8)5-3-2-4-7-5/h2-4,7H,1H3 COC(=O)C1=CC=CN1 C1=C(NC=C1)C(=O)OC |(123.35,-71.45,;123.35,-83.74,;135.03,-87.53,;142.25,-77.6,;135.03,-67.66,;113.41,-90.96,;114.69,-103.13,;102.23,-85.98,;100.95,-73.8,)| AuxInfo=1/0/N:9,5,1,4,2,6,3,7,8/rA:9nCCNCCCOOC/rB:d1;s2;s3;s1d4;s2;d6;s6;s8;/rC:123,3477,-71,4538,0;123,3477,-83,7370,0;135,0297,-87,5327,0;142,2496,-77,5954,0;135,0297,-67,6581,0;113,4104,-90,9569,0;114,6899,-103,1304,0;102,2281,-85,9782,0;100,9486,-73,8047,0; C6H7NO2 COC(=O)* CO2Me CDK 04212619522D 0 0 0 0 0 999 V3000 M V30 BEGIN CTAB M V30 COUNTS 9 9 0 0 0 M V30 BEGIN ATOM M V30 1 C 123.34772 -71.45383 0 0 M V30 2 C 123.34772 -83.73703 0 0 M V30 3 N 135.02974 -87.53273 0 0 M V30 4 C 142.24962 -77.59543 0 0 M V30 5 C 135.02974 -67.65811 0 0 M V30 6 C 113.41042 -90.95691 0 0 M V30 7 O 114.68991 -103.1304 0 0 M V30 8 O 102.22812 -85.97823 0 0 M V30 9 C 100.94864 -73.80472 0 0 M V30 END ATOM M V30 BEGIN BOND M V30 1 2 1 2 M V30 2 1 2 3 M V30 3 1 3 4 M V30 4 2 4 5 M V30 5 1 5 1 M V30 6 2 6 7 M V30 7 1 6 8 M V30 8 1 8 9 M V30 9 1 2 6 M V30 END BOND M V30 END CTAB M END YRKCREAYFQTBPV-UHFFFAOYSA-N InChI=1S/C5H8O2/c1-4(6)3-5(2)7/h3H2,1-2H3 CC(=O)CC(=O)C C(CC(=O)C)(C)=O |(245.08,-81.45,;255.68,-87.57,;266.28,-81.45,;266.28,-69.21,;276.89,-87.57,;234.48,-87.57,;245.08,-69.21,)| AuxInfo=1/0/N:3,7,2,1,5,4,6/E:(1,2)(4,5)(6,7)/rA:7nCCCOCOC/rB:s1;s1;d1;s2;d5;s5;/rC:245,0833,-81,4470,0;255,6839,-87,5672,0;234,4827,-87,5672,0;245,0833,-69,2064,0;266,2846,-81,4470,0;266,2846,-69,2064,0;276,8852,-87,5672,0; C5H8O2 CDK 04212619522D 0 0 0 0 0 999 V3000 M V30 BEGIN CTAB M V30 COUNTS 7 6 0 0 0 M V30 BEGIN ATOM M V30 1 C 245.08333 -81.44696 0 0 M V30 2 C 255.68394 -87.56723 0 0 M V30 3 C 234.48271 -87.56723 0 0 M V30 4 O 245.08333 -69.20642 0 0 M V30 5 C 266.28461 -81.44696 0 0 M V30 6 O 266.28461 -69.20642 0 0 M V30 7 C 276.88519 -87.56723 0 0 M V30 END ATOM M V30 BEGIN BOND M V30 1 1 1 2 M V30 2 1 1 3 M V30 3 2 1 4 M V30 4 1 2 5 M V30 5 2 5 6 M V30 6 1 5 7 M V30 END BOND M V30 END CTAB M END DDIIOAFYIQSFFU-SMDDNHRTSA-N InChI=1S/C16H23NO4/c1-11(17(19)20)14(10-15(18)16(2,3)4)12-6-8-13(21-5)9-7-12/h6-9,11,14H,10H2,1-5H3/t11-,14+/m0/s1 C[C@@H]([C@@H](CC(=O)C(C)(C)C)C1=CC=C(C=C1)OC)[N+](=O)[O-] C1=C(C=CC(=C1)[C@@H]([C@H](C)[N+](=O)[O-])CC(C(C)(C)C)=O)OC |(53.35,-120.55,;53.35,-132.76,;63.93,-138.87,;74.5,-132.76,;74.5,-120.55,;63.93,-114.45,;85.04,-114.47,;95.58,-120.55,;95.58,-134.62,;106.12,-114.47,;106.12,-102.34,;116.62,-120.53,;85.04,-102.3,;95.58,-96.22,;106.12,-102.3,;112.19,-91.78,;116.64,-108.38,;100.04,-112.82,;95.58,-84.05,;42.82,-138.85,;32.32,-132.78,)| AuxInfo=1/0/N:11,18,19,20,8,4,6,3,1,15,10,5,2,9,16,17,12,21,13,14,7/E:(2,3,4)(6,7)(8,9)(19,20)/it:im/CRV:17.5/rA:21nCCCCCCOCC.oC.eCN+OO-CCCCCCO/rB:d1;s2;d3;s4;s1d5;s2;s7;s5;s9;P10;s10;d12;s12;N9;s15;s16;s17;s17;s17;d16;/rC:53,3540,-120,5524,0;53,3540,-132,7628,0;63,9285,-138,8680,0;74,5030,-132,7628,0;74,5030,-120,5524,0;63,9285,-114,4473,0;42,8162,-138,8468,0;32,3150,-132,7839,0;85,0408,-114,4684,0;95,5786,-120,5524,0;95,5786,-134,6217,0;106,1164,-114,4684,0;106,1164,-102,3427,0;116,6176,-120,5313,0;85,0408,-102,3004,0;95,5786,-96,2164,0;106,1164,-102,3004,0;112,1914,-91,7782,0;116,6386,-108,3755,0;100,0414,-112,8226,0;95,5786,-84,0485,0; C16H23NO4 [N+](=O)([O-])* NO2,CC(C)(C)* t-Bu,C* Me,CO* OMe CDK 04212619522D 0 0 0 0 0 999 V3000 M V30 BEGIN CTAB M V30 COUNTS 21 21 0 0 1 M V30 BEGIN ATOM M V30 1 C 53.35403 -120.55244 0 0 M V30 2 C 53.35403 -132.7628 0 0 M V30 3 C 63.92853 -138.868 0 0 M V30 4 C 74.50302 -132.7628 0 0 M V30 5 C 74.50302 -120.55244 0 0 M V30 6 C 63.92853 -114.44725 0 0 M V30 7 O 42.81624 -138.84679 0 0 M V30 8 C 32.31505 -132.78391 0 0 M V30 9 C 85.04082 -114.46844 0 0 CFG=2 M V30 10 C 95.5786 -120.55244 0 0 CFG=1 M V30 11 C 95.57858 -134.62166 0 0 M V30 12 N 106.11638 -114.46844 0 0 CHG=1 M V30 13 O 106.11636 -102.34268 0 0 M V30 14 O 116.61758 -120.53131 0 0 CHG=-1 M V30 15 C 85.04082 -102.30045 0 0 M V30 16 C 95.5786 -96.21645 0 0 M V30 17 C 106.11638 -102.30045 0 0 M V30 18 C 112.19139 -91.77824 0 0 M V30 19 C 116.6386 -108.37546 0 0 M V30 20 C 100.04138 -112.82265 0 0 M V30 21 O 95.5786 -84.04846 0 0 M V30 END ATOM M V30 BEGIN BOND M V30 1 2 1 2 M V30 2 1 2 3 M V30 3 2 3 4 M V30 4 1 4 5 M V30 5 2 5 6 M V30 6 1 6 1 M V30 7 1 7 8 M V30 8 1 2 7 M V30 9 1 5 9 M V30 10 1 9 10 M V30 11 1 10 11 CFG=1 M V30 12 2 12 13 M V30 13 1 12 14 M V30 14 1 10 12 M V30 15 1 9 15 CFG=3 M V30 16 1 15 16 M V30 17 1 17 18 M V30 18 1 17 19 M V30 19 1 17 20 M V30 20 1 16 17 M V30 21 2 16 21 M V30 END BOND M V30 END CTAB M END OQSRPQHYQJZCLS-CRAIPNDOSA-N InChI=1S/C20H33O5P/c1-8-24-26(22,25-9-2)15(3)18(14-19(21)20(4,5)6)16-10-12-17(23-7)13-11-16/h10-13,15,18H,8-9,14H2,1-7H3/t15-,18-/m1/s1 CCOP(=O)([C@H](C)[C@@H](CC(=O)C(C)(C)C)C1=CC=C(C=C1)OC)OCC C1=C(C=CC(=C1)[C@@H]([C@@H](C)P(=O)(OCC)OCC)CC(C(C)(C)C)=O)OC |(253.04,-120.55,;253.04,-132.76,;263.62,-138.87,;274.19,-132.76,;274.19,-120.55,;263.62,-114.45,;284.73,-114.47,;295.27,-120.55,;295.27,-134.62,;305.81,-114.47,;299.74,-103.97,;311.87,-124.97,;324,-124.97,;330.06,-114.47,;316.31,-108.41,;316.31,-96.28,;305.81,-90.22,;284.73,-102.3,;295.27,-96.22,;305.81,-102.3,;311.88,-91.78,;316.33,-108.38,;299.73,-112.82,;295.27,-84.05,;242.51,-138.85,;242.51,-150.97,)| AuxInfo=1/0/N:15,18,11,23,24,25,8,16,19,4,6,3,1,20,10,5,2,9,21,22,26,13,7,14,17,12/E:(1,2)(4,5,6)(8,9)(10,11)(12,13)(24,25)/it:im/rA:26nCCCCCCOCC.oC.oCPOOCCOCCCCCCCCO/rB:d1;s2;d3;s4;s1d5;s2;s7;s5;s9;N10;s10;d12;s12;;s14s15;s12;;s17s18;N9;s20;s21;s22;s22;s22;d21;/rC:253,0447,-120,5524,0;253,0447,-132,7628,0;263,6192,-138,8680,0;274,1937,-132,7628,0;274,1937,-120,5524,0;263,6192,-114,4473,0;242,5069,-138,8468,0;242,5069,-150,9725,0;284,7315,-114,4684,0;295,2693,-120,5524,0;295,2693,-134,6217,0;305,8070,-114,4684,0;299,7441,-103,9672,0;311,8699,-124,9697,0;330,0585,-114,4684,0;323,9957,-124,9696,0;316,3082,-108,4056,0;305,8070,-90,2169,0;316,3082,-96,2798,0;284,7315,-102,3004,0;295,2693,-96,2164,0;305,8070,-102,3004,0;311,8820,-91,7782,0;316,3292,-108,3755,0;299,7320,-112,8226,0;295,2693,-84,0485,0; C20H33O5P CC(C)(C)* t-Bu,C* Me,CCOP(=O)(OCC)* PO(OEt)2,CO* OMe CDK 04212619522D 0 0 0 0 0 999 V3000 M V30 BEGIN CTAB M V30 COUNTS 26 26 0 0 1 M V30 BEGIN ATOM M V30 1 C 253.04469 -120.55244 0 0 M V30 2 C 253.04469 -132.7628 0 0 M V30 3 C 263.6192 -138.868 0 0 M V30 4 C 274.19366 -132.7628 0 0 M V30 5 C 274.19366 -120.55244 0 0 M V30 6 C 263.6192 -114.44725 0 0 M V30 7 O 242.5069 -138.84679 0 0 M V30 8 C 242.50688 -150.97255 0 0 M V30 9 C 284.73148 -114.46844 0 0 CFG=2 M V30 10 C 295.26929 -120.55244 0 0 CFG=2 M V30 11 C 295.26929 -134.62169 0 0 M V30 12 P 305.80704 -114.46844 0 0 M V30 13 O 299.74414 -103.96724 0 0 M V30 14 O 311.86993 -124.96965 0 0 M V30 15 C 330.05853 -114.46843 0 0 M V30 16 C 323.99567 -124.96964 0 0 M V30 17 O 316.30823 -108.40556 0 0 M V30 18 C 305.80704 -90.21695 0 0 M V30 19 C 316.30823 -96.27982 0 0 M V30 20 C 284.73148 -102.30045 0 0 M V30 21 C 295.26929 -96.21645 0 0 M V30 22 C 305.80704 -102.30045 0 0 M V30 23 C 311.88205 -91.77824 0 0 M V30 24 C 316.32922 -108.37546 0 0 M V30 25 C 299.73203 -112.82265 0 0 M V30 26 O 295.26929 -84.04846 0 0 M V30 END ATOM M V30 BEGIN BOND M V30 1 2 1 2 M V30 2 1 2 3 M V30 3 2 3 4 M V30 4 1 4 5 M V30 5 2 5 6 M V30 6 1 6 1 M V30 7 1 7 8 M V30 8 1 2 7 M V30 9 1 5 9 M V30 10 1 9 10 M V30 11 1 10 11 CFG=3 M V30 12 2 12 13 M V30 13 1 12 14 M V30 14 1 12 17 M V30 15 1 14 16 M V30 16 1 15 16 M V30 17 1 17 19 M V30 18 1 18 19 M V30 19 1 10 12 M V30 20 1 9 20 CFG=3 M V30 21 1 20 21 M V30 22 1 22 23 M V30 23 1 22 24 M V30 24 1 22 25 M V30 25 1 21 22 M V30 26 2 21 26 M V30 END BOND M V30 END CTAB M END PEHJULPJEVIIFJ-UHFFFAOYSA-N InChI=1S/C9H20OSi/c1-8(9(2,3)4)10-11(5,6)7/h1H2,2-7H3 C=C(C(C)(C)C)O[Si](C)(C)C C=C(O[Si](C)(C)C)C(C)(C)C |(162.27,-53.6,;172.85,-47.49,;172.85,-35.33,;162.35,-29.26,;162.35,-17.14,;151.85,-23.2,;151.85,-35.33,;183.39,-53.58,;189.46,-43.06,;193.91,-59.65,;177.31,-64.1,)| AuxInfo=1/0/N:1,9,10,11,5,6,7,2,8,3,4/E:(2,3,4)(5,6,7)/rA:11nCCOSiCCCCCCC/rB:d1;s2;s3;s4;s4;s4;s2;s8;s8;s8;/rC:162,2739,-53,5989,0;172,8484,-47,4937,0;172,8484,-35,3257,0;162,3472,-29,2629,0;162,3472,-17,1371,0;151,8460,-23,2000,0;151,8460,-35,3257,0;183,3862,-53,5777,0;189,4612,-43,0555,0;193,9084,-59,6527,0;177,3112,-64,0999,0; C9H20OSi CC(C)(C)* t-Bu,C[Si](C)(C)O* OSiMe3 CDK 04212619522D 0 0 0 0 0 999 V3000 M V30 BEGIN CTAB M V30 COUNTS 11 10 0 0 0 M V30 BEGIN ATOM M V30 1 C 162.27388 -53.59892 0 0 M V30 2 C 172.84839 -47.49374 0 0 M V30 3 O 172.84839 -35.32574 0 0 M V30 4 Si 162.34717 -29.26288 0 0 M V30 5 C 162.34717 -17.13713 0 0 M V30 6 C 151.84596 -23.20001 0 0 M V30 7 C 151.84596 -35.32574 0 0 M V30 8 C 183.38615 -53.57773 0 0 M V30 9 C 189.46115 -43.05553 0 0 M V30 10 C 193.90836 -59.65273 0 0 M V30 11 C 177.31116 -64.09995 0 0 M V30 END ATOM M V30 BEGIN BOND M V30 1 2 1 2 M V30 2 1 3 4 M V30 3 1 4 5 M V30 4 1 4 6 M V30 5 1 4 7 M V30 6 1 2 3 M V30 7 1 8 9 M V30 8 1 8 10 M V30 9 1 8 11 M V30 10 1 2 8 M V30 END BOND M V30 END CTAB M END SCVGINHYGZCXQE-SWLSCSKDSA-N InChI=1S/C18H26O4/c1-12(17(20)22-6)15(11-16(19)18(2,3)4)13-7-9-14(21-5)10-8-13/h7-10,12,15H,11H2,1-6H3/t12-,15+/m0/s1 C[C@@H]([C@@H](CC(=O)C(C)(C)C)C1=CC=C(C=C1)OC)C(=O)OC C1=C(C=CC(=C1)[C@@H]([C@H](C)C(=O)OC)CC(C(C)(C)C)=O)OC |(356.07,-120.55,;356.07,-132.76,;366.64,-138.87,;377.22,-132.76,;377.22,-120.55,;366.64,-114.45,;387.76,-114.47,;398.29,-120.55,;398.29,-134.62,;408.83,-114.47,;414.9,-124.97,;419.33,-108.41,;429.83,-114.47,;387.76,-102.3,;398.29,-96.22,;408.83,-102.3,;414.91,-91.78,;419.35,-108.38,;402.76,-112.82,;398.29,-84.05,;345.53,-138.85,;335.03,-132.78,)| AuxInfo=1/0/N:11,19,20,21,8,15,4,6,3,1,16,10,5,2,9,17,12,18,22,13,7,14/E:(2,3,4)(7,8)(9,10)/it:im/rA:22nCCCCCCOCC.oC.eCCOOCCCCCCCO/rB:d1;s2;d3;s4;s1d5;s2;s7;s5;s9;P10;s10;d12;s12;s14;N9;s16;s17;s18;s18;s18;d17;/rC:356,0698,-120,5524,0;356,0698,-132,7628,0;366,6443,-138,8680,0;377,2188,-132,7628,0;377,2188,-120,5524,0;366,6443,-114,4473,0;345,5320,-138,8468,0;335,0308,-132,7839,0;387,7566,-114,4684,0;398,2944,-120,5524,0;398,2944,-134,6217,0;408,8322,-114,4684,0;414,8950,-124,9697,0;419,3334,-108,4056,0;429,8346,-114,4684,0;387,7566,-102,3004,0;398,2944,-96,2164,0;408,8322,-102,3004,0;414,9072,-91,7782,0;419,3544,-108,3754,0;402,7572,-112,8227,0;398,2944,-84,0485,0; C18H26O4 CC(C)(C)* t-Bu,COC(=O)* CO2Me,C* Me,CO* OMe CDK 04212619522D 0 0 0 0 0 999 V3000 M V30 BEGIN CTAB M V30 COUNTS 22 22 0 0 1 M V30 BEGIN ATOM M V30 1 C 356.06979 -120.55244 0 0 M V30 2 C 356.06979 -132.7628 0 0 M V30 3 C 366.64432 -138.868 0 0 M V30 4 C 377.21881 -132.7628 0 0 M V30 5 C 377.21881 -120.55244 0 0 M V30 6 C 366.64432 -114.44725 0 0 M V30 7 O 345.53201 -138.84679 0 0 M V30 8 C 335.03082 -132.78391 0 0 M V30 9 C 387.75659 -114.46844 0 0 CFG=2 M V30 10 C 398.29437 -120.55244 0 0 CFG=1 M V30 11 C 398.29437 -134.62166 0 0 M V30 12 C 408.83215 -114.46844 0 0 M V30 13 O 414.89502 -124.96965 0 0 M V30 14 O 419.33337 -108.40556 0 0 M V30 15 C 429.83459 -114.46844 0 0 M V30 16 C 387.75659 -102.30045 0 0 M V30 17 C 398.29437 -96.21645 0 0 M V30 18 C 408.83215 -102.30045 0 0 M V30 19 C 414.90717 -91.77824 0 0 M V30 20 C 419.35437 -108.37544 0 0 M V30 21 C 402.75717 -112.82266 0 0 M V30 22 O 398.29437 -84.04846 0 0 M V30 END ATOM M V30 BEGIN BOND M V30 1 2 1 2 M V30 2 1 2 3 M V30 3 2 3 4 M V30 4 1 4 5 M V30 5 2 5 6 M V30 6 1 6 1 M V30 7 1 7 8 M V30 8 1 2 7 M V30 9 1 5 9 M V30 10 1 9 10 M V30 11 1 10 11 CFG=1 M V30 12 2 12 13 M V30 13 1 12 14 M V30 14 1 14 15 M V30 15 1 10 12 M V30 16 1 9 16 CFG=3 M V30 17 1 16 17 M V30 18 1 18 19 M V30 19 1 18 20 M V30 20 1 18 21 M V30 21 1 17 18 M V30 22 2 17 22 M V30 END BOND M V30 END CTAB M END VJJVSRKUKVWTCR-RDTXWAMCSA-N InChI=1S/C19H19NO2/c1-14(13-20)18(15-8-10-17(22-2)11-9-15)12-19(21)16-6-4-3-5-7-16/h3-11,14,18H,12H2,1-2H3/t14-,18-/m1/s1 C[C@H](C#N)[C@@H](CC(=O)C1=CC=CC=C1)C2=CC=C(C=C2)OC C1=C(C=CC(=C1)[C@@H]([C@H](C)C#N)CC(C2=CC=CC=C2)=O)OC |(154.47,-120.55,;154.47,-132.76,;165.05,-138.87,;175.62,-132.76,;175.62,-120.55,;165.05,-114.45,;186.16,-114.47,;196.7,-120.55,;196.7,-134.62,;207.23,-114.47,;217.73,-108.41,;186.16,-102.3,;196.7,-96.22,;207.23,-102.3,;207.23,-114.45,;217.76,-120.53,;228.28,-114.45,;228.28,-102.3,;217.76,-96.23,;196.7,-84.05,;143.93,-138.85,;133.43,-132.78,)| AuxInfo=1/0/N:11,8,19,18,20,17,21,4,6,3,1,14,12,10,5,16,2,9,15,13,22,7/E:(4,5)(6,7)(8,9)(10,11)/it:im/rA:22nCCCCCCOCC.oC.eCCNCCCCCCCCO/rB:d1;s2;d3;s4;s1d5;s2;s7;s5;s9;P10;s10;t12;N9;s14;s15;d16;s17;d18;s19;s16d20;d15;/rC:154,4713,-120,5524,0;154,4713,-132,7628,0;165,0458,-138,8680,0;175,6203,-132,7628,0;175,6203,-120,5524,0;165,0458,-114,4473,0;143,9335,-138,8468,0;133,4323,-132,7839,0;186,1581,-114,4684,0;196,6958,-120,5524,0;196,6958,-134,6217,0;207,2336,-114,4684,0;217,7348,-108,4056,0;186,1581,-102,3004,0;196,6958,-96,2164,0;207,2336,-102,3004,0;207,2336,-114,4505,0;217,7558,-120,5255,0;228,2780,-114,4505,0;228,2780,-102,3005,0;217,7558,-96,2254,0;196,6958,-84,0485,0; C19H19NO2 C1=CC=C(C=C1)* Ph,C* Me,C(#N)* CN,CO* OMe CDK 04212619522D 0 0 0 0 0 999 V3000 M V30 BEGIN CTAB M V30 COUNTS 22 23 0 0 1 M V30 BEGIN ATOM M V30 1 C 154.47128 -120.55244 0 0 M V30 2 C 154.47128 -132.7628 0 0 M V30 3 C 165.04579 -138.868 0 0 M V30 4 C 175.62027 -132.7628 0 0 M V30 5 C 175.62027 -120.55244 0 0 M V30 6 C 165.04579 -114.44725 0 0 M V30 7 O 143.93349 -138.84679 0 0 M V30 8 C 133.43228 -132.78391 0 0 M V30 9 C 186.15807 -114.46844 0 0 CFG=2 M V30 10 C 196.69585 -120.55244 0 0 CFG=1 M V30 11 C 196.69583 -134.62166 0 0 M V30 12 C 207.23363 -114.46844 0 0 M V30 13 N 217.73483 -108.40556 0 0 M V30 14 C 186.15807 -102.30045 0 0 M V30 15 C 196.69585 -96.21645 0 0 M V30 16 C 207.23363 -102.30045 0 0 M V30 17 C 207.23363 -114.45045 0 0 M V30 18 C 217.75583 -120.52545 0 0 M V30 19 C 228.27803 -114.45045 0 0 M V30 20 C 228.27805 -102.30046 0 0 M V30 21 C 217.75584 -96.22545 0 0 M V30 22 O 196.69585 -84.04846 0 0 M V30 END ATOM M V30 BEGIN BOND M V30 1 2 1 2 M V30 2 1 2 3 M V30 3 2 3 4 M V30 4 1 4 5 M V30 5 2 5 6 M V30 6 1 6 1 M V30 7 1 7 8 M V30 8 1 2 7 M V30 9 1 5 9 M V30 10 1 9 10 M V30 11 1 10 11 CFG=1 M V30 12 3 12 13 M V30 13 1 10 12 M V30 14 1 9 14 CFG=3 M V30 15 1 14 15 M V30 16 2 16 17 M V30 17 1 17 18 M V30 18 2 18 19 M V30 19 1 19 20 M V30 20 2 20 21 M V30 21 1 16 21 M V30 22 1 15 16 M V30 23 2 15 22 M V30 END BOND M V30 END CTAB M END HYWCXWRMUZYRPH-UHFFFAOYSA-N InChI=1S/C6H14Si/c1-5-6-7(2,3)4/h5H,1,6H2,2-4H3 C=CC[Si](C)(C)C C=CC[Si](C)(C)C |(185.43,-75.79,;195.93,-81.85,;206.39,-75.81,;216.85,-81.85,;210.83,-92.29,;227.29,-87.88,;222.88,-71.41,)| AuxInfo=1/0/N:1,5,6,7,2,3,4/E:(2,3,4)/rA:7nCCCSiCCC/rB:d1;s2;s3;s4;s4;s4;/rC:185,4269,-75,7886,0;195,9263,-81,8504,0;206,3893,-75,8096,0;216,8522,-81,8504,0;210,8272,-92,2860,0;227,2878,-87,8754,0;222,8772,-71,4148,0; C6H14Si C[Si](C)(C)* TMS CDK 04212619522D 0 0 0 0 0 999 V3000 M V30 BEGIN CTAB M V30 COUNTS 7 6 0 0 0 M V30 BEGIN ATOM M V30 1 C 185.4269 -75.78857 0 0 M V30 2 C 195.92628 -81.8504 0 0 M V30 3 C 206.38927 -75.8096 0 0 M V30 4 Si 216.85223 -81.8504 0 0 M V30 5 C 210.82722 -92.28601 0 0 M V30 6 C 227.28783 -87.87541 0 0 M V30 7 C 222.87723 -71.41479 0 0 M V30 END ATOM M V30 BEGIN BOND M V30 1 2 1 2 M V30 2 1 2 3 M V30 3 1 4 5 M V30 4 1 4 6 M V30 5 1 4 7 M V30 6 1 3 4 M V30 END BOND M V30 END CTAB M END KDNDVSFGPJYUND-ZFWWWQNUSA-N InChI=1S/C17H24S/c1-12-6-11-16(18-12)15(10-9-14-7-8-14)13(2)17(3,4)5/h6,11,13-15H,7-8H2,1-5H3/t13-,15-/m0/s1 CC1=CC=C([C@@H](C#CC2CC2)[C@H](C)C(C)(C)C)S1 C([C@@H]([C@H](C)C(C)(C)C)C1=CC=C(S1)C)#CC2CC2 |(381.03,-143.14,;387.07,-132.67,;399.15,-132.67,;405.19,-143.14,;405.19,-122.21,;394.76,-116.18,;411.22,-111.77,;415.63,-128.23,;381.03,-122.21,;385.96,-111.13,;376.95,-103.02,;366.45,-109.08,;368.97,-120.94,;355.41,-104.17,;374.99,-153.6,;368.97,-164.04,;358.47,-170.11,;368.97,-176.16,)| AuxInfo=1/0/N:18,5,7,8,9,15,12,13,10,1,14,16,3,11,2,4,6,17/E:(3,4,5)(7,8)/it:im/rA:18nCC.oC.eCCCCCCCCCCCCCSC/rB:s1;s2;N2;P3;s3;s6;s6;s6;t1;s10;s11;s11s12;d4;s14;d15;s4s16;s16;/rC:381,0283,-143,1356,0;387,0690,-132,6727,0;399,1506,-132,6727,0;381,0282,-122,2097,0;405,1914,-143,1356,0;405,1914,-122,2097,0;394,7558,-116,1847,0;411,2164,-111,7741,0;415,6270,-128,2347,0;374,9874,-153,5986,0;368,9677,-164,0384,0;358,4716,-170,1061,0;368,9677,-176,1621,0;385,9594,-111,1341,0;376,9497,-103,0218,0;366,4503,-109,0837,0;368,9709,-120,9424,0;355,4132,-104,1696,0; C17H24S CC(C)(C)* t-Bu,C* Me CDK 04212619522D 0 0 0 0 0 999 V3000 M V30 BEGIN CTAB M V30 COUNTS 18 19 0 0 1 M V30 BEGIN ATOM M V30 1 C 381.02826 -143.13562 0 0 M V30 2 C 387.06903 -132.67265 0 0 CFG=2 M V30 3 C 399.15063 -132.67265 0 0 CFG=1 M V30 4 C 381.02823 -122.20969 0 0 M V30 5 C 405.19141 -143.13562 0 0 M V30 6 C 405.19141 -122.20969 0 0 M V30 7 C 394.7558 -116.18469 0 0 M V30 8 C 411.21643 -111.77408 0 0 M V30 9 C 415.62701 -128.23468 0 0 M V30 10 C 374.98743 -153.59859 0 0 M V30 11 C 368.96768 -164.03841 0 0 M V30 12 C 358.47162 -170.10606 0 0 M V30 13 C 368.96768 -176.16209 0 0 M V30 14 C 385.95935 -111.13414 0 0 M V30 15 C 376.94971 -103.02182 0 0 M V30 16 C 366.45032 -109.08366 0 0 M V30 17 S 368.97095 -120.9424 0 0 M V30 18 C 355.41321 -104.16965 0 0 M V30 END ATOM M V30 BEGIN BOND M V30 1 1 1 2 M V30 2 1 2 3 M V30 3 1 2 4 CFG=3 M V30 4 1 3 5 CFG=1 M V30 5 1 6 7 M V30 6 1 6 8 M V30 7 1 6 9 M V30 8 1 3 6 M V30 9 3 1 10 M V30 10 1 10 11 M V30 11 1 11 12 M V30 12 1 12 13 M V30 13 1 13 11 M V30 14 2 4 14 M V30 15 1 14 15 M V30 16 2 15 16 M V30 17 1 16 17 M V30 18 1 17 4 M V30 19 1 16 18 M V30 END BOND M V30 END CTAB M END RCZKRCDBAYCFEQ-MAUKXSAKSA-N InChI=1S/C20H26O/c1-15(20(2,3)4)18(13-12-16-10-11-16)14-19(21)17-8-6-5-7-9-17/h5-9,15-16,18H,10-11,14H2,1-4H3/t15-,18+/m0/s1 C[C@@H]([C@H](C#CC1CC1)CC(=O)C2=CC=CC=C2)C(C)(C)C C([C@@H]([C@H](C)C(C)(C)C)CC(=O)C1=CC=CC=C1)#CC2CC2 |(134.77,-143.14,;140.81,-132.67,;152.89,-132.67,;158.93,-143.14,;158.93,-122.21,;148.49,-116.18,;164.95,-111.77,;169.36,-128.23,;134.77,-122.21,;122.68,-122.21,;116.64,-132.67,;116.64,-111.75,;122.67,-101.31,;116.64,-90.88,;104.59,-90.88,;98.57,-101.31,;104.59,-111.75,;128.73,-153.6,;122.71,-164.04,;112.21,-170.11,;122.71,-176.16,)| AuxInfo=1/0/N:5,7,8,9,16,15,17,14,18,20,21,10,1,4,3,19,13,2,11,6,12/E:(2,3,4)(6,7)(8,9)(10,11)/it:im/rA:21nCC.oC.eCCCCCCCCOCCCCCCCCC/rB:s1;s2;N2;P3;s3;s6;s6;s6;t1;s4;d11;s11;d13;s14;d15;s16;s13d17;s10;s19;s19s20;/rC:134,7659,-143,1356,0;140,8067,-132,6727,0;152,8883,-132,6727,0;134,7659,-122,2097,0;158,9291,-143,1356,0;158,9291,-122,2097,0;148,4935,-116,1847,0;164,9541,-111,7741,0;169,3647,-128,2347,0;128,7251,-153,5986,0;122,6843,-122,2097,0;116,6435,-132,6727,0;116,6435,-111,7467,0;122,6685,-101,3111,0;116,6435,-90,8755,0;104,5935,-90,8755,0;98,5685,-101,3111,0;104,5935,-111,7467,0;122,7053,-164,0384,0;112,2093,-170,1061,0;122,7053,-176,1621,0; C20H26O CC(C)(C)* t-Bu,C1=CC=C(C=C1)* Ph,C* Me CDK 04212619522D 0 0 0 0 0 999 V3000 M V30 BEGIN CTAB M V30 COUNTS 21 22 0 0 1 M V30 BEGIN ATOM M V30 1 C 134.76587 -143.13564 0 0 M V30 2 C 140.80667 -132.67265 0 0 CFG=2 M V30 3 C 152.88826 -132.67265 0 0 CFG=1 M V30 4 C 134.76587 -122.20969 0 0 M V30 5 C 158.92906 -143.13564 0 0 M V30 6 C 158.92906 -122.20969 0 0 M V30 7 C 148.49345 -116.18469 0 0 M V30 8 C 164.95406 -111.77408 0 0 M V30 9 C 169.36467 -128.23468 0 0 M V30 10 C 128.72507 -153.59859 0 0 M V30 11 C 122.68427 -122.20969 0 0 M V30 12 O 116.64348 -132.67265 0 0 M V30 13 C 116.64348 -111.74673 0 0 M V30 14 C 122.66847 -101.31113 0 0 M V30 15 C 116.64346 -90.87552 0 0 M V30 16 C 104.59346 -90.87552 0 0 M V30 17 C 98.56847 -101.31113 0 0 M V30 18 C 104.59348 -111.74673 0 0 M V30 19 C 122.70534 -164.03841 0 0 M V30 20 C 112.20926 -170.10606 0 0 M V30 21 C 122.70534 -176.16209 0 0 M V30 END ATOM M V30 BEGIN BOND M V30 1 1 1 2 M V30 2 1 2 3 M V30 3 1 2 4 CFG=3 M V30 4 1 3 5 CFG=1 M V30 5 1 6 7 M V30 6 1 6 8 M V30 7 1 6 9 M V30 8 1 3 6 M V30 9 3 1 10 M V30 10 1 4 11 M V30 11 2 11 12 M V30 12 2 13 14 M V30 13 1 14 15 M V30 14 2 15 16 M V30 15 1 16 17 M V30 16 2 17 18 M V30 17 1 13 18 M V30 18 1 11 13 M V30 19 1 10 19 M V30 20 1 19 20 M V30 21 1 20 21 M V30 22 1 21 19 M V30 END BOND M V30 END CTAB M END UPYNBGJFBHEIDA-JSGCOSHPSA-N InChI=1S/C18H25NO2/c1-12(18(2,3)4)14(9-8-13-6-7-13)15-10-11-16(19-15)17(20)21-5/h10-14,19H,6-7H2,1-5H3/t12-,14-/m0/s1 C[C@@H]([C@H](C#CC1CC1)C2=CC=C(C(=O)OC)N2)C(C)(C)C C([C@@H]([C@H](C)C(C)(C)C)C1=CC=C(N1)C(=O)OC)#CC2CC2 |(310.27,-143.14,;316.31,-132.67,;328.39,-132.67,;334.43,-143.14,;334.43,-122.21,;324,-116.18,;340.46,-111.77,;344.87,-128.23,;310.27,-122.21,;315.2,-111.13,;306.19,-103.02,;295.69,-109.08,;298.21,-120.94,;284.65,-104.17,;283.4,-92.2,;274.91,-111.25,;276.17,-123.22,;304.23,-153.6,;298.21,-164.04,;287.71,-170.11,;298.21,-176.16,)| AuxInfo=1/0/N:5,7,8,9,21,12,13,10,1,14,15,3,11,2,4,16,18,6,17,19,20/E:(2,3,4)(6,7)/it:im/rA:21nCC.oC.eCCCCCCCCCCCCCNCOOC/rB:s1;s2;N2;P3;s3;s6;s6;s6;t1;s10;s11;s11s12;d4;s14;d15;s4s16;s16;d18;s18;s20;/rC:310,2695,-143,1356,0;316,3102,-132,6727,0;328,3918,-132,6727,0;310,2695,-122,2097,0;334,4326,-143,1356,0;334,4326,-122,2097,0;323,9970,-116,1847,0;340,4576,-111,7741,0;344,8683,-128,2347,0;304,2287,-153,5986,0;298,2089,-164,0384,0;287,7129,-170,1061,0;298,2089,-176,1621,0;315,2006,-111,1341,0;306,1909,-103,0218,0;295,6915,-109,0837,0;298,2122,-120,9424,0;284,6544,-104,1696,0;283,3960,-92,1960,0;274,9142,-111,2464,0;276,1727,-123,2201,0; C18H25NO2 CC(C)(C)* t-Bu,COC(=O)* CO2Me,C* Me CDK 04212619522D 0 0 0 0 0 999 V3000 M V30 BEGIN CTAB M V30 COUNTS 21 22 0 0 1 M V30 BEGIN ATOM M V30 1 C 310.26947 -143.13564 0 0 M V30 2 C 316.31024 -132.67265 0 0 CFG=2 M V30 3 C 328.39185 -132.67265 0 0 CFG=1 M V30 4 C 310.26947 -122.20969 0 0 M V30 5 C 334.43265 -143.13564 0 0 M V30 6 C 334.43265 -122.20969 0 0 M V30 7 C 323.99704 -116.18469 0 0 M V30 8 C 340.45764 -111.77408 0 0 M V30 9 C 344.86826 -128.23468 0 0 M V30 10 C 304.2287 -153.59859 0 0 M V30 11 C 298.20892 -164.03841 0 0 M V30 12 C 287.71289 -170.10606 0 0 M V30 13 C 298.20892 -176.16209 0 0 M V30 14 C 315.20062 -111.13414 0 0 M V30 15 C 306.19095 -103.02182 0 0 M V30 16 C 295.69153 -109.08366 0 0 M V30 17 N 298.21219 -120.94241 0 0 M V30 18 C 284.65445 -104.16965 0 0 M V30 19 O 283.396 -92.19595 0 0 M V30 20 O 274.91418 -111.24637 0 0 M V30 21 C 276.17267 -123.22006 0 0 M V30 END ATOM M V30 BEGIN BOND M V30 1 1 1 2 M V30 2 1 2 3 M V30 3 1 2 4 CFG=3 M V30 4 1 3 5 CFG=1 M V30 5 1 6 7 M V30 6 1 6 8 M V30 7 1 6 9 M V30 8 1 3 6 M V30 9 3 1 10 M V30 10 1 10 11 M V30 11 1 11 12 M V30 12 1 12 13 M V30 13 1 13 11 M V30 14 2 4 14 M V30 15 1 14 15 M V30 16 2 15 16 M V30 17 1 16 17 M V30 18 1 17 4 M V30 19 2 18 19 M V30 20 1 18 20 M V30 21 1 20 21 M V30 22 1 16 18 M V30 END BOND M V30 END CTAB M END XATKZXIBLYDHDU-ZFWWWQNUSA-N InChI=1S/C16H26/c1-6-7-8-15(12-11-14-9-10-14)13(2)16(3,4)5/h6,13-15H,1,7-10H2,2-5H3/t13-,15-/m0/s1 C=CCC[C@@H](C#CC1CC1)[C@H](C)C(C)(C)C C([C@@H]([C@H](C)C(C)(C)C)CCC=C)#CC1CC1 |(216.22,-143.14,;222.26,-132.67,;234.34,-132.67,;240.39,-143.14,;240.39,-122.21,;229.95,-116.18,;246.41,-111.77,;250.82,-128.23,;216.22,-122.21,;204.14,-122.21,;198.1,-132.67,;186.02,-132.67,;210.18,-153.6,;204.16,-164.04,;193.67,-170.11,;204.16,-176.16,)| AuxInfo=1/0/N:16,5,7,8,9,15,14,4,12,13,10,1,3,11,2,6/E:(3,4,5)(9,10)/it:im/rA:16nCC.oC.eCCCCCCCCCCCCC/rB:s1;s2;N2;P3;s3;s6;s6;s6;t1;s10;s11;s11s12;s4;s14;d15;/rC:216,2219,-143,1356,0;222,2627,-132,6727,0;234,3443,-132,6727,0;216,2219,-122,2097,0;240,3851,-143,1356,0;240,3851,-122,2097,0;229,9494,-116,1847,0;246,4100,-111,7741,0;250,8207,-128,2347,0;210,1811,-153,5986,0;204,1613,-164,0384,0;193,6653,-170,1061,0;204,1613,-176,1621,0;204,1403,-122,2097,0;198,0995,-132,6727,0;186,0179,-132,6727,0; C16H26 CC(C)(C)* t-Bu,C* Me CDK 04212619522D 0 0 0 0 0 999 V3000 M V30 BEGIN CTAB M V30 COUNTS 16 16 0 0 1 M V30 BEGIN ATOM M V30 1 C 216.22189 -143.13564 0 0 M V30 2 C 222.26266 -132.67265 0 0 CFG=2 M V30 3 C 234.34425 -132.67265 0 0 CFG=1 M V30 4 C 216.22186 -122.20969 0 0 M V30 5 C 240.38506 -143.13564 0 0 M V30 6 C 240.38506 -122.20969 0 0 M V30 7 C 229.94945 -116.18469 0 0 M V30 8 C 246.41005 -111.77408 0 0 M V30 9 C 250.82066 -128.23468 0 0 M V30 10 C 210.18109 -153.59859 0 0 M V30 11 C 204.16133 -164.03841 0 0 M V30 12 C 193.66528 -170.10606 0 0 M V30 13 C 204.16133 -176.16209 0 0 M V30 14 C 204.14027 -122.20969 0 0 M V30 15 C 198.09947 -132.67265 0 0 M V30 16 C 186.0179 -132.67265 0 0 M V30 END ATOM M V30 BEGIN BOND M V30 1 1 1 2 M V30 2 1 2 3 M V30 3 1 2 4 CFG=3 M V30 4 1 3 5 CFG=1 M V30 5 1 6 7 M V30 6 1 6 8 M V30 7 1 6 9 M V30 8 1 3 6 M V30 9 3 1 10 M V30 10 1 10 11 M V30 11 1 11 12 M V30 12 1 12 13 M V30 13 1 13 11 M V30 14 1 4 14 M V30 15 1 14 15 M V30 16 2 15 16 M V30 END BOND M V30 END CTAB M END DOGMMPYTUOTARH-UHFFFAOYSA-N InChI=1S/C9H20OSSi/c1-8(10-12(5,6)7)11-9(2,3)4/h1H2,2-7H3 C=C(O[Si](C)(C)C)SC(C)(C)C C=C(O[Si](C)(C)C)SC(C)(C)C |(195.72,-106.38,;205.79,-100.57,;205.79,-88.94,;195.72,-83.13,;195.72,-71.51,;185.65,-77.32,;185.65,-88.94,;215.85,-106.38,;227.47,-105.97,;232.92,-95.7,;239.09,-105.55,;233.64,-115.82,)| AuxInfo=1/0/N:1,10,11,12,5,6,7,2,9,3,8,4/E:(2,3,4)(5,6,7)/rA:12nCCOSiCCCSCCCC/rB:d1;s2;s3;s4;s4;s4;s2;s8;s9;s9;s9;/rC:195,7203,-106,3797,0;205,7865,-100,5680,0;205,7865,-88,9445,0;195,7203,-83,1328,0;195,7203,-71,5093,0;185,6541,-77,3210,0;185,6541,-88,9445,0;215,8528,-106,3797,0;227,4689,-105,9664,0;232,9190,-95,6998,0;239,0851,-105,5530,0;233,6350,-115,8195,0; C9H20OSSi C[Si](C)(C)O* OSiMe3 CDK 04212619522D 0 0 0 0 0 999 V3000 M V30 BEGIN CTAB M V30 COUNTS 12 11 0 0 0 M V30 BEGIN ATOM M V30 1 C 195.72031 -106.37975 0 0 M V30 2 C 205.78654 -100.56801 0 0 M V30 3 O 205.78654 -88.9445 0 0 M V30 4 Si 195.72031 -83.13275 0 0 M V30 5 C 195.72031 -71.50926 0 0 M V30 6 C 185.65405 -77.321 0 0 M V30 7 C 185.65405 -88.9445 0 0 M V30 8 S 215.85278 -106.37975 0 0 M V30 9 C 227.46893 -105.96635 0 0 M V30 10 C 232.91901 -95.6998 0 0 M V30 11 C 239.08508 -105.55298 0 0 M V30 12 C 233.63501 -115.81955 0 0 M V30 END ATOM M V30 BEGIN BOND M V30 1 2 1 2 M V30 2 1 3 4 M V30 3 1 4 5 M V30 4 1 4 6 M V30 5 1 4 7 M V30 6 1 2 3 M V30 7 1 2 8 M V30 8 1 8 9 M V30 9 1 9 10 M V30 10 1 9 11 M V30 11 1 9 12 M V30 END BOND M V30 END CTAB M END The authors acknowledge Evonik Degussa for the financial support and the Fonds der Chemischen Industrie for a stipend to B. 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