Search results

Search for "marine sponge" in Full Text gives 34 result(s) in Beilstein Journal of Organic Chemistry.

Allostreptopyrroles A–E, β-alkylpyrrole derivatives from an actinomycete Allostreptomyces sp. RD068384

  • Marwa Elsbaey,
  • Naoya Oku,
  • Mohamed S. A. Abdel-Mottaleb and
  • Yasuhiro Igarashi

Beilstein J. Org. Chem. 2024, 20, 1981–1987, doi:10.3762/bjoc.20.174

Graphical Abstract
  • many marine natural products [6][7], pyrroles substituted with long hydrocarbon chains (pyrrole lipids) are seldomly isolated, and their presence is limited to certain marine organisms [8]. A series of 3-alkylpyrrole-2-carbaldehydes/carboxylic acid/methylcarboxylate was reported from the marine sponge
  • and carboxyl functionalities. Furthermore, a β-alkyl substitution is not very common in pyrrolic secondary metabolites. The most related metabolites to 1–5 are the reported alkylpyrroles from a marine sponge Oscarella lobularis [7] and pyrroloterpenes from Streptomyces [12][13][14][15], although the
PDF
Album
Supp Info
Full Research Paper
Published 13 Aug 2024

Methyltransferases from RiPP pathways: shaping the landscape of natural product chemistry

  • Maria-Paula Schröder,
  • Isabel P.-M. Pfeiffer and
  • Silja Mordhorst

Beilstein J. Org. Chem. 2024, 20, 1652–1670, doi:10.3762/bjoc.20.147

Graphical Abstract
  • dimethylated [81][123]. Polytheonamides are originally derived from the marine sponge Theonella swinhoei, which is colonised by various symbiotic bacteria. The polytheonamide encoding BGC poy includes two B12-dependent rSAM C-MTs, namely PoyB and PoyC. In silico modelling and alignment of the structures of
PDF
Album
Review
Published 18 Jul 2024

Sequential hydrozirconation/Pd-catalyzed cross coupling of acyl chlorides towards conjugated (2E,4E)-dienones

  • Benedikt Kolb,
  • Daniela Silva dos Santos,
  • Sanja Krause,
  • Anna Zens and
  • Sabine Laschat

Beilstein J. Org. Chem. 2023, 19, 176–185, doi:10.3762/bjoc.19.17

Graphical Abstract
  • from a haliclona marine sponge [4], and vertinolide (5) from Verticillium intertextum [5] (Scheme 1). As outlined in Scheme 2, a variety of methods has been reported for the synthesis of conjugated dienones, mostly via addition/elimination reactions such as Knoevenagel condensation or Claisen–Schmidt
PDF
Album
Supp Info
Full Research Paper
Published 17 Feb 2023

Using UHPLC–MS profiling for the discovery of new sponge-derived metabolites and anthelmintic screening of the NatureBank bromotyrosine library

  • Sasha Hayes,
  • Aya C. Taki,
  • Kah Yean Lum,
  • Joseph J. Byrne,
  • Merrick G. Ekins,
  • Robin B. Gasser and
  • Rohan A. Davis

Beilstein J. Org. Chem. 2022, 18, 1544–1552, doi:10.3762/bjoc.18.164

Graphical Abstract
  • , 3010, Australia Biodiversity and Geosciences, Queensland Museum, Grey Street, Brisbane, 4101, Australia 10.3762/bjoc.18.164 Abstract In order to further expand the NatureBank open access compound library, chemical investigations of the Australian marine sponge, Ianthella basta, were undertaken since
  • identify samples containing abundant or potentially new natural products. A sample from the Australian marine sponge Ianthella basta was chosen for large-scale isolation work after analysis of the UHPLC–MS data and the MarinLit database [1] suggested the presence of a new alkaloid. Herein, we describe the
  • chromatograms). One extract derived from the marine sponge Ianthella basta showed five UV active peaks (P1–5) at 254 nm in the UHPLC–MS chromatogram (Figure 1) with P1–3 and P5 displaying quasi-molecular ion clusters in the positive MS mode. Subsequent dereplication, literature and MarinLit database [1] mining
PDF
Album
Supp Info
Full Research Paper
Published 15 Nov 2022

Vicinal ketoesters – key intermediates in the total synthesis of natural products

  • Marc Paul Beller and
  • Ulrich Koert

Beilstein J. Org. Chem. 2022, 18, 1236–1248, doi:10.3762/bjoc.18.129

Graphical Abstract
  • Palau’amine (45), a dimeric pyrrole-imidazole-bisguanidine alkaloid, was first isolated from the marine sponge Stylotella aurantium in 1993 [16][17]. It received considerable attention from the synthetic community because of its broad range of biological activities and complex structure. In an early endeavour
PDF
Album
Review
Published 15 Sep 2022

Anti-inflammatory aromadendrane- and cadinane-type sesquiterpenoids from the South China Sea sponge Acanthella cavernosa

  • Shou-Mao Shen,
  • Qing Yang,
  • Yi Zang,
  • Jia Li,
  • Xueting Liu and
  • Yue-Wei Guo

Beilstein J. Org. Chem. 2022, 18, 916–925, doi:10.3762/bjoc.18.91

Graphical Abstract
  • anti-inflammatory activity by the inhibition of LPS-induced TNF-α and CCL2 release in RAW 264.7 macrophages. Keywords: Acanthella cavernosa; anti-inflammatory; biosynthetic pathway; chiral separation; marine sponge; sesquiterpenoid; Introduction Marine sponges of the genus Acanthella (class
PDF
Album
Supp Info
Full Research Paper
Published 25 Jul 2022

On the application of 3d metals for C–H activation toward bioactive compounds: The key step for the synthesis of silver bullets

  • Renato L. Carvalho,
  • Amanda S. de Miranda,
  • Mateus P. Nunes,
  • Roberto S. Gomes,
  • Guilherme A. M. Jardim and
  • Eufrânio N. da Silva Júnior

Beilstein J. Org. Chem. 2021, 17, 1849–1938, doi:10.3762/bjoc.17.126

Graphical Abstract
  • White’s oxidation method as the final step in the first total synthesis of gracilioether F (75) [157], a natural polyketide with an unusual tricyclic core and five contiguous stereocenters, part of the family of gracilioethers 71–74 (Scheme 26A) extracted from the marine sponge Plakinastrella mamillaris
PDF
Album
Review
Published 30 Jul 2021

Identification of volatiles from six marine Celeribacter strains

  • Anuj Kumar Chhalodia,
  • Jan Rinkel,
  • Dorota Konvalinkova,
  • Jörn Petersen and
  • Jeroen S. Dickschat

Beilstein J. Org. Chem. 2021, 17, 420–430, doi:10.3762/bjoc.17.38

Graphical Abstract
  • marine organisms, e.g., Thalassococcus halodurans DSM 26915T has been isolated from the marine sponge Halichondria panicea [5], and Phaeobacter gallaeciensis DSM 26640T is an isolate from the scallop Pecten maximus [6]. Important interactions are also observed between bacteria from the roseobacter group
PDF
Album
Supp Info
Full Research Paper
Published 11 Feb 2021

Synthesis, crystal structures and properties of carbazole-based [6]helicenes fused with an azine ring

  • Daria I. Tonkoglazova,
  • Anna V. Gulevskaya,
  • Konstantin A. Chistyakov and
  • Olga I. Askalepova

Beilstein J. Org. Chem. 2021, 17, 11–21, doi:10.3762/bjoc.17.2

Graphical Abstract
  • last, carbazole-based heterohelicenes were found in nature, for example, purpurone [55] isolated from the marine sponge Iotrochota sp. and having an inhibitory effect on the ATP-citrate lyase, and the marine alkaloid ningalin D produced by Didemnum sp., Dictyodendrins [56] isolated from Dictyodendrilla
PDF
Album
Supp Info
Full Research Paper
Published 04 Jan 2021

Novel (2-amino-4-arylimidazolyl)propanoic acids and pyrrolo[1,2-c]imidazoles via the domino reactions of 2-amino-4-arylimidazoles with carbonyl and methylene active compounds

  • Victoria V. Lipson,
  • Tetiana L. Pavlovska,
  • Nataliya V. Svetlichnaya,
  • Anna A. Poryvai,
  • Nikolay Yu. Gorobets,
  • Erik V. Van der Eycken,
  • Irina S. Konovalova,
  • Svetlana V. Shiskina,
  • Alexander V. Borisov,
  • Vladimir I. Musatov and
  • Alexander V. Mazepa

Beilstein J. Org. Chem. 2019, 15, 1032–1045, doi:10.3762/bjoc.15.101

Graphical Abstract
  • considered as the analogues of both 3,3’-spirooxindole and 2-aminoimidazole marine sponge alkaloids. Keywords: 2-amino-4-arylimidazole; (2-amino-4-arylimidazolyl)propanoic acid; isatin; Meldrum’s acid; multicomponent reactions; pyrrolo[1,2-c]imidazole; 3,3’-spirooxindoles; Introduction Heterocyclic
PDF
Album
Supp Info
Full Research Paper
Published 06 May 2019

Synthesis of the polyketide section of seragamide A and related cyclodepsipeptides via Negishi cross coupling

  • Jan Hendrik Lang and
  • Thomas Lindel

Beilstein J. Org. Chem. 2019, 15, 577–583, doi:10.3762/bjoc.15.53

Graphical Abstract
  • endeavour, a new synthesis of the polyketide section present in seragamides and most of jasplakinolides and geodiamolides. We also include the synthesis of the protected tripeptide section of seragamide A (2), even if the macrocycle still remains to be assembled. Seragamide A (2) from the marine sponge
PDF
Album
Supp Info
Full Research Paper
Published 28 Feb 2019

Synthesis and SAR of the antistaphylococcal natural product nematophin from Xenorhabdus nematophila

  • Frank Wesche,
  • Hélène Adihou,
  • Thomas A. Wichelhaus and
  • Helge B. Bode

Beilstein J. Org. Chem. 2019, 15, 535–541, doi:10.3762/bjoc.15.47

Graphical Abstract
  • moiety itself are required for bioactivity [16]. These findings suggest a specific interaction of this electrophilic moiety with a nucleophile. Such an interaction was previously reported for the macrocyclic peptide cyclotheonamide A, isolated from marine sponge Theonella sp. Cyclotheonamide A is
PDF
Album
Supp Info
Full Research Paper
Published 25 Feb 2019

Stereoselective total synthesis and structural revision of the diacetylenic diol natural products strongylodiols H and I

  • Pamarthi Gangadhar,
  • Sayini Ramakrishna,
  • Ponneri Venkateswarlu and
  • Pabbaraja Srihari

Beilstein J. Org. Chem. 2018, 14, 2313–2320, doi:10.3762/bjoc.14.206

Graphical Abstract
  • Okinawan marine sponge of the genus Petrosia (Strongylophora). The structural elucidation was accomplished by spectroscopic analyses and chemical reactions. It was found that these strongylodiols were present as an enantiomeric mixture with different ratios after analysis of their corresponding MNA ((R
PDF
Album
Supp Info
Full Research Paper
Published 04 Sep 2018

Two new 2-alkylquinolones, inhibitory to the fish skin ulcer pathogen Tenacibaculum maritimum, produced by a rhizobacterium of the genus Burkholderia sp.

  • Dandan Li,
  • Naoya Oku,
  • Atsumi Hasada,
  • Masafumi Shimizu and
  • Yasuhiro Igarashi

Beilstein J. Org. Chem. 2018, 14, 1446–1451, doi:10.3762/bjoc.14.122

Graphical Abstract
  • [21][22][23][24][25], Gram-positive [26][27] and Gram-negative bacteria [28][29][30], and a marine sponge [31]. Among a variety of substituted 4-quinolones, 2-alkyl-4-quinolones are the most common core in antibiotics [32], which were originally discovered as anti-anthrax metabolites produced by
PDF
Album
Supp Info
Letter
Published 14 Jun 2018

Synthesis of 1-indanones with a broad range of biological activity

  • Marika Turek,
  • Dorota Szczęsna,
  • Marek Koprowski and
  • Piotr Bałczewski

Beilstein J. Org. Chem. 2017, 13, 451–494, doi:10.3762/bjoc.13.48

Graphical Abstract
  • . Nakiterpiosin (117) is a marine sponge metabolite which demonstrates a potent cytotoxicity against the P388 leukemic cell line. The photo-variant of the Nazarov cyclization has been applied as one of the steps in the total synthesis of nakiterpiosin (117, Scheme 37) [63]. Starting from substrate 115, 1-indanone
PDF
Album
Review
Published 09 Mar 2017

The direct oxidative diene cyclization and related reactions in natural product synthesis

  • Juliane Adrian,
  • Leona J. Gross and
  • Christian B. W. Stark

Beilstein J. Org. Chem. 2016, 12, 2104–2123, doi:10.3762/bjoc.12.200

Graphical Abstract
  • 30% over three steps (Scheme 4). Additional to the synthesis of Donohoe described above [31], two other total syntheses of (+)-D-chitaric acid have been reported [40][41]. Neodysiherbaine A In 2001, the excitatory amino acid neodysiherbaine A (14) has been found in the marine sponge Dysidea herbacea
PDF
Album
Review
Published 30 Sep 2016

Modular synthesis of the pyrimidine core of the manzacidins by divergent Tsuji–Trost coupling

  • Sebastian Bretzke,
  • Stephan Scheeff,
  • Felicitas Vollmeyer,
  • Friederike Eberhagen,
  • Frank Rominger and
  • Dirk Menche

Beilstein J. Org. Chem. 2016, 12, 1111–1121, doi:10.3762/bjoc.12.107

Graphical Abstract
  • biological activities, several synthetic routes have been reported to access these important substructures [6][7][8][9][10][11][12][13][14][15][16][17][18][19][20][21][22]. The manzacidins have first been isolated by the group of Kobayashi from the marine sponge Hymeniacidon sp. in the early nineties of the
PDF
Album
Supp Info
Full Research Paper
Published 02 Jun 2016

Towards the total synthesis of keramaphidin B

  • Pavol Jakubec,
  • Alistair J. M. Farley and
  • Darren J. Dixon

Beilstein J. Org. Chem. 2016, 12, 1096–1100, doi:10.3762/bjoc.12.104

Graphical Abstract
  • addition; keramaphidin B; nitro-Mannich lactamisation cascade; Introduction Keramaphidin B (1) is a marine alkaloid first isolated by Kobayashi in 1994 from the Okinawan marine sponge Amphimedon sp and has been shown to be cytotoxic against KB human epidermoid carcinoma cells (IC50 0.28 μg/mL) and P388
PDF
Album
Supp Info
Letter
Published 30 May 2016

The marine sponge Agelas citrina as a source of the new pyrrole–imidazole alkaloids citrinamines A–D and N-methylagelongine

  • Christine Cychon,
  • Ellen Lichte and
  • Matthias Köck

Beilstein J. Org. Chem. 2015, 11, 2029–2037, doi:10.3762/bjoc.11.220

Graphical Abstract
  • the marine sponge Agelas citrina revealed four new compounds of the pyrrole–imidazole alkaloid (PIA) family. Citrinamines A (1) and B (2) are closely related to mauritiamine (7) which can be seen as the most less complex dimeric PIA (the first published one) in which the monomeric units are only
  • marine sponge Agelas citrina was collected by SCUBA diving on March 11, 2001 at San Salvador in the Bahamas (27 m depth). The samples were immediately frozen after collection and kept at −20 °C until extraction. A voucher specimen was deposited under registration no. ZMA POR. 17278 at the Zoölogical
PDF
Album
Supp Info
Full Research Paper
Published 29 Oct 2015

Total synthesis of panicein A2

  • Lili Yeung,
  • Lisa I. Pilkington,
  • Melissa M. Cadelis,
  • Brent R. Copp and
  • David Barker

Beilstein J. Org. Chem. 2015, 11, 1991–1996, doi:10.3762/bjoc.11.215

Graphical Abstract
  • panicein A (1), Figure 1), hydroquinone moiety (as seen in paniceins D (2), F (3) and F1 (4)) or chromenol as seen in panicein A2 (5). The first members of the panicein family were isolated by Cimino et al. in 1973 from the marine sponge Halichondria panacea [1]; members of this family have since been
PDF
Album
Supp Info
Full Research Paper
Published 26 Oct 2015

Preparation of conjugated dienoates with Bestmann ylide: Towards the synthesis of zampanolide and dactylolide using a facile linchpin approach

  • Jingjing Wang,
  • Samuel Z. Y. Ting and
  • Joanne E. Harvey

Beilstein J. Org. Chem. 2015, 11, 1815–1822, doi:10.3762/bjoc.11.197

Graphical Abstract
  • structurally related marine natural products, zampanolide (2) and dactylolide (3, Figure 1), wherein the Bestmann ylide represents a C1–C2 linchpin that connects two segments of the macrocylic ring. (−)-Zampanolide (2, Figure 1) was first isolated from the marine sponge Fasciospongia rimosa found at Cape Zampa
  • , Japan [21], and subsequently from a Tongan sponge Cacospongia mycofijiensis [22]. It was found to exhibit potent anticancer activities, with IC50 values in the nM scale against a number of cell lines [22][23]. The structurally related compound, (+)-dactylolide, was discovered in the marine sponge
PDF
Album
Supp Info
Full Research Paper
Published 05 Oct 2015

Pyridinoacridine alkaloids of marine origin: NMR and MS spectral data, synthesis, biosynthesis and biological activity

  • Louis P. Sandjo,
  • Victor Kuete and
  • Maique W. Biavatti

Beilstein J. Org. Chem. 2015, 11, 1667–1699, doi:10.3762/bjoc.11.183

Graphical Abstract
  • different substituents (arnoamines A–D, Figure 14) does not significantly change the activity and they seem less active than their congeners, cystodytins (70–76) [84]. Kuanoniamine A (60), an alkaloid obtained from the marine sponge Oceanapia sagittaria, was found to be a potent growth inhibitor of tumor
PDF
Album
Review
Published 18 Sep 2015

Formal total syntheses of classic natural product target molecules via palladium-catalyzed enantioselective alkylation

  • Yiyang Liu,
  • Marc Liniger,
  • Ryan M. McFadden,
  • Jenny L. Roizen,
  • Jacquie Malette,
  • Corey M. Reeves,
  • Douglas C. Behenna,
  • Masaki Seto,
  • Jimin Kim,
  • Justin T. Mohr,
  • Scott C. Virgil and
  • Brian M. Stoltz

Beilstein J. Org. Chem. 2014, 10, 2501–2512, doi:10.3762/bjoc.10.261

Graphical Abstract
  • [43], completing the formal synthesis of (−)-quinic acid (21). Additionally, one could in principle also access the less commercially abundant antipode (+)-quinic acid (21) using the catalyst (R)-t-Bu-PHOX. C) Dysidiolide Dysidiolide (29, Scheme 6) was isolated from the marine sponge Dysidea etheria
PDF
Album
Supp Info
Full Research Paper
Published 28 Oct 2014

Total synthesis of the proposed structure of astakolactin

  • Takayuki Tonoi,
  • Keisuke Mameda,
  • Moe Fujishiro,
  • Yutaka Yoshinaga and
  • Isamu Shiina

Beilstein J. Org. Chem. 2014, 10, 2421–2427, doi:10.3762/bjoc.10.252

Graphical Abstract
  • sesterterpene metabolite isolated from the marine sponge Cacospongia scalaris, has been achieved, mainly featuring Johnson–Claisen rearrangement, asymmetric Mukaiyama aldol reaction and MNBA-mediated lactonization. Keywords: aldol reaction; astakolactin; lactonization; MNBA; terpenoids; Introduction
  • Astakolactin (1) is a novel sesterterpene metabolite [1][2][3][4][5] first reported in 2003 by Roussis et al [6]. It was isolated from the marine sponge Cacospongia scalaris, which was collected from the gulf of Astakos in the Ionian Sea near Greece. The structure proposed for compound 1 is a bicyclic linear
PDF
Album
Supp Info
Full Research Paper
Published 17 Oct 2014

New sesquiterpene hydroquinones from the Caribbean sponge Aka coralliphagum

  • Qun Göthel and
  • Matthias Köck

Beilstein J. Org. Chem. 2014, 10, 613–621, doi:10.3762/bjoc.10.52

Graphical Abstract
  • halenaquinol sulfate from the marine sponge Xestospongia sapra [14]. In the course of our investigation on the sponge Aka coralliphagum, we isolated a number of compounds containing sulfated phenols. These sulfated metabolites are labile [5], and easily loose the sulfate ester groups by hydrolysis in water [15
PDF
Album
Supp Info
Full Research Paper
Published 06 Mar 2014
Other Beilstein-Institut Open Science Activities