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Helical Mimetics terphenyl

Yin H, et al. Terphenyl-based helical mimetics that disrupt the 146. p53/HDM2 interaction. Angew Chem. Int. Ed. Engl. 2005 44 2704-2707. [Pg.1870]

Terphenyl-based Helical Mimetics that Disrupt the Bd-xL/Bak Interaction... [Pg.260]

Fig. 4.3-6 (a) Surface displacement of residues on an a-helix surface, (b) Terphenyl-based a-helical mimetics. [Pg.260]

Fig. 13 Stabilized helices and nonnatural helix mimetics several strategies that stabilize the a-helical conformation in peptides or mimic this domain with nonnatural scaffolds have been described. Recent advances include [1-peptide helices, terphenyl helix-mimetics, mini-proteins, peptoid helices, side-chain crosslinked a-helices, and the hydrogen bond surrogate (HBS) derived a-helices. Circles represent amino acid side-chain functionality (Reprinted from Henchey et al. [52], Copyright (2008) with permission from Elsevier)... Fig. 13 Stabilized helices and nonnatural helix mimetics several strategies that stabilize the a-helical conformation in peptides or mimic this domain with nonnatural scaffolds have been described. Recent advances include [1-peptide helices, terphenyl helix-mimetics, mini-proteins, peptoid helices, side-chain crosslinked a-helices, and the hydrogen bond surrogate (HBS) derived a-helices. Circles represent amino acid side-chain functionality (Reprinted from Henchey et al. [52], Copyright (2008) with permission from Elsevier)...
See other pages where Helical Mimetics terphenyl is mentioned: [Pg.205]    [Pg.266]    [Pg.222]    [Pg.263]   
See also in sourсe #XX -- [ Pg.260 ]



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