5437-45-6Relevant articles and documents
Fmoc-based synthesis of glycolate ester peptides for the assembly of de novo designed multimeric proteins using subtiligase
Suich, Daniel J.,Ballinger, Marcus D.,Wells, James A.,DeGrado, William F.
, p. 6653 - 6656 (1996)
An automated method utilizing Fmoc-protected amino acids has been developed for the synthesis of glycolate ester peptides as substrates for subtiligase. As a test of this methodology, peptide esters containing α-helical sequences that specify the association into 3- and 4-helix bundles were synthesized, and used to explore the suitability of subtiligase as a tool, for the generation of covalently linked bundles. The feasibility of creating de novo designed, single-chain or cyclic structures from simple, readily-synthesized modules has been demonstrated.
Visible-Light-Induced Oxidative α-Alkylation of Glycine Derivatives with Ethers under Metal-Free Conditions
Song, Yang,Zhang, Hao,Guo, Jiabao,Shao, Yifei,Ding, Yuzhou,Zhu, Li,Yao, Xiaoquan
, p. 5914 - 5921 (2021/11/22)
In this work, a visible-light-induced oxidative α-alkylation of glycine derivatives with ethers has been developed in the presence of catalytic Eosin Y. Under the blue light of a 3 W LED, a range of α-etherized glycine derivatives, including α-amino esters, α-amino ketones and α-amino amides, were achieved with good to excellent yields and functional group tolerance with tert-butyl hydroperoxide (TBHP) as oxidant at ambient temperature. The operationally easy procedure provides an economical, metal-free, and mild alternative for the synthesis of the α-etherized glycine derivatives.
E- and chemoselective thia-Michael addition to benzyl allenoate
Bibi, Rifhat,Murtaza, Amna,Khan, Khalid Mohammed,Rehman, Zia ur,Saeed, Aamer,Tahir, Muhammad Nawaz,Hassan, Abbas
supporting information, p. 969 - 975 (2020/08/05)
Different thiols were successfully reacted with benzyl allenoate resulting in E-selective thia-Michael addition product with α,β-unsaturation as confirmed by single crystal x-ray crystallographic analysis. The thia-Michael addition is chemoselective and free amine and alcohol groups were well tolerated. Catalytic triethylamine was required for high conversion. Fair to excellent yields were obtained for a variety of aliphatic, aryl and heteroaryl thiols.