1324007-65-9Relevant academic research and scientific papers
Phase-transfer-mediated electrochemical reaction: Anodic disulfide bond formation under biphasic condition
Takahashi, Masahito,Okada, Yohei,Kitano, Yoshikazu,Chiba, Kazuhiro
supporting information, p. 3622 - 3624 (2014/06/23)
The use of bromide ion as a redox mediator promotes electrochemical reactions in the non-conductive cyclohexane phase. Anodically oxidized species of bromide ion in the conductive methanol phase can bring oxidizing power across phases to induce oxidative
Soluble-support-assisted electrochemical reactions: Application to anodic disulfide bond formation
Kitada, Shingo,Takahashi, Masahito,Yamaguchi, Yusuke,Okada, Yohei,Chiba, Kazuhiro
, p. 5960 - 5963 (2013/02/26)
A soluble-support-assisted technique was successfully applied to electrochemical reactions, leading to anodic disulfide bond formation. The support-bound peptide was soluble in electrolyte solution, allowing electron transfer at the surface of the electrodes. After completion of the reaction, the support-bound product was recovered as a precipitate by simple dilution of the reaction mixture with poor solvent.
Hydrophobic tag-assisted liquid-phase synthesis of a growth hormone-inhibiting peptide somatostatin
Kitada, Shingo,Fujita, Shuji,Okada, Yohei,Kim, Shokaku,Chiba, Kazuhiro
, p. 4476 - 4479 (2011/09/15)
Hydrophobic tag-assisted liquid-phase peptide synthesis technique and disulfide bond formation have been well-combined, leading to the efficient and practical preparation of a growth hormone-inhibiting peptide somatostatin. Intramolecular disulfide bond f
