959415-39-5Relevant academic research and scientific papers
Improved synthetic routes to the selenocysteine derivatives useful for Boc-based peptide synthesis with benzylic protection on the selenium atom
Shimodaira, Shingo,Iwaoka, Michio
, p. 260 - 271 (2017/03/09)
Selenocysteine (Sec) derivatives, i.e., Boc-Sec(MBn)-OH (1) and Boc-Sec(MPM)-OH (2), which are useful for chemical synthesis of selenopeptides, were obtained from L-serine in five steps with total yields of 73% and 74%, respectively. The enantiomeric excesses were confirmed to be >99% e.e. by optical resolution using a chiral column on HPLC. On the other hand, for the case of a Fmoc-protected Sec derivative, i.e., Fmoc-Sec(MPM)-OH, similar reactions resulted in low yields and partial racemization taking place. [PRESENTED EQUATION]
Oxidative deselenization of selenocysteine: Applications for programmed ligation at serine
Malins, Lara R.,Mitchell, Nicholas J.,McGowan, Sheena,Payne, Richard J.
, p. 12716 - 12721 (2015/10/28)
Despite the unique chemical properties of selenocysteine (Sec), ligation at Sec is an under-utilized methodology for protein synthesis. We describe herein an unprecedented protocol for the conversion of Sec to serine (Ser) in a single, high-yielding step.
A comprehensive one-pot synthesis of protected cysteine and selenocysteine SPPS derivatives
Flemer, Stevenson
, p. 1257 - 1264 (2015/04/14)
A proof-of-principle methodology is presented in which all commercially-available cysteine (Cys) and selenocysteine (Sec) solid phase peptide synthesis (SPPS) derivatives are synthesized in high yield from easily prepared protected dichalcogenide precursors. A Zn-mediated biphasic reduction process applied to a series of four bis-Nα-protected dichalcogenide compounds allows facile conversion to their corresponding thiol and selenol intermediates followed by insitu S- or Se-alkylation with various electrophiles to directly access twenty one known Cys and Sec SPPS derivatives. Most of these derivatives were able to be precipitated in crude form out of petroleum ether in sufficient purity for direct use as peptide building blocks. Subsequent incorporation of these derivatives into peptide models nicely illustrates their viability and applicability toward SPPS.
Synthesis, characterization and antioxidant activity of angiotensin converting enzyme inhibitors
Bhuyan, Bhaskar J.,Mugesh, Govindasamy
, p. 1356 - 1365 (2011/04/23)
Angiotensin converting enzyme (ACE) catalyzes the conversion of angiotensin I (Ang I) to angiotensin II (Ang II). ACE also cleaves the terminal dipeptide of vasodilating hormone bradykinin (a nonapeptide) to inactivate this hormone. Therefore, inhibition of ACE is generally used as one of the methods for the treatment of hypertension. 'Oxidative stress' is another disease state caused by an imbalance in the production of oxidants and antioxidants. A number of studies suggest that hypertension and oxidative stress are interdependent. Therefore, ACE inhibitors having antioxidant property are considered beneficial for the treatment of hypertension. As selenium compounds are known to exhibit better antioxidant behavior than their sulfur analogues, we have synthesized a number of selenium analogues of captopril, an ACE inhibitor used as an antihypertensive drug. The selenium analogues of captopril not only inhibit ACE activity but also effectively scavenge peroxynitrite, a strong oxidant found in vivo. The Royal Society of Chemistry 2011.
Preparation of the β3-homoselenocysteine derivatives Fmoc-β3hSec(PMB)-OH and Boc-β3hSec(PMB)-OH for solution and solid-phase-peptide synthesis and selenoligation
Floegel, Oliver,Casi, Giulio,Hilvert, Donald,Seebach, Dieter
, p. 1651 - 1666 (2008/02/13)
The title compounds, 4 and 7, have been prepared from the corresponding α-amino acid derivative selenocystine (1) by the following sequence of steps: cleavage of the Se-Se bond with NaBH4, p-methoxybenzyl (PMB) protection of the SeH group, Fmoc or Boc protection at the N-atom and Arndt-Eistert homologation (Schemes 1 and 2). A β3-heptapeptide 8 with an N-terminal β3-hSec(PMB) residue was synthesized on Rink amide AM resin and deprotected ('in air') to give the corresponding diselenide 9, which, in turn, was coupled with a β3-tetrapeptide thiol ester 10 by a seleno-ligation. The product β3- undecapeptide was identified as its diselenide and its mixed selenosulfide with thiophenol (Scheme 3). The differences between α- and β-Sec derivatives are discussed.
