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Beilstein J. Org. Chem. 2015, 11, 1583–1595, doi:10.3762/bjoc.11.174
Graphical Abstract
Scheme 1: Activated derivatives of dicarboxylic acids.
Figure 1: Example of natural compounds selectively acylated with dicarboxylic esters.
Figure 2: C6-dicarboxylic acid diesters derivatives of NAG-thiazoline.
Figure 3: Sylibin dimers obtained by CAL-B catalyzed trans-acylation reactions.
Scheme 2: Biocatalyzed synthesis of paclitaxel derivatives.
Figure 4: 5-Fluorouridine derivatives obtained by CAL-B catalysis.
Scheme 3: Biocatalyzed synthesis of hybrid diesters 17 and 18.
Scheme 4: Hybrid derivatives of sylibin.
Figure 5: Bolaamphiphilic molecules containing (L)- and/or (D)-isoascorbic acid moieties.
Figure 6: Doxorubicin (29) trapped in a polyester made of glycolate, sebacate and 1,4-butandiol units.
Figure 7: Polyesters containing functionalized pentofuranose derivatives.
Figure 8: Polyesters containing disulfide moieties.
Figure 9: Polyesters containing epoxy moieties.
Figure 10: Biocatalyzed synthesis of polyesters containing glycerol.
Figure 11: Iataconic (34) and malic (35) acid.
Figure 12: Oxidized poly(hexanediol-2-mercaptosuccinate) polymer.
Figure 13: C-5-substituted isophthalates.
Figure 14: Curcumin-based polyesters.
Figure 15: Silylated polyesters.
Figure 16: Polyesters containing reactive ether moieties.
Figure 17: Polyesters obtained by CAL-B-catalyzed condensation of dicarboxylic esters and N-substituted dietha...
Figure 18: Polyesters comprising mexiletine (38) moieties.
Figure 19: Poly(amide-co-ester)s comprising a terminal hydroxy moiety.
Figure 20: Polymer comprising α-oxydiacid moieties.
Figure 21: Telechelics with methacrylate ends.
Figure 22: Telechelics with allyl-ether ends.
Figure 23: Telechelics with ends functionalized as epoxides.