73058-30-7Relevant articles and documents
Selegiline hydrochloride synthesis process
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Paragraph 0099-0105, (2020/01/25)
The invention relates to the field of chemical pharmacy, particularly to a selegiline hydrochloride preparation method. According to the invention, the method avoids the use of ephedrine, pseudoephedrine, deoxyephedrine and other management and control products, has characteristics of inexpensive and easily-available raw materials, short synthesis route, safe and environmentally-friendly production and synthesis cost reducing, can obtain the high-purity target compound at high yield, and is suitable for industrial large-scale production.
Efficient Direct Synthesis of Aziridine-Containing Chiral Tridentate Ligands by the Iminium-Mediated Self-Ring Opening Reaction of Enantiopure Aziridines and Salicylaldehydes
Chen, Xingpeng,Lin, Chao,Du, Hongguang,Xu, Jiaxi
, p. 1647 - 1661 (2019/02/27)
An efficient method for the direct synthesis of aziridine-containing chiral tridentate ligands was developed from enantiopure aziridines and salicylaldehydes. The method achieved the regiospecific cleavage of more substituted C?N bonds of aziridines through an iminium-mediated self-ring opening reaction of aziridines with up to 95% yield and complete inversion of configuration. The (S)-2-alkylaziridine-derived tridentate ligands displayed excellent activity and stereoselectivity in the zinc trifluoromethanesulfonate-catalyzed asymmetric aldol reactions of acetone and aromatic aldehydes. (Figure presented.).
Synthesis of novel N-protected β3-amino nitriles: study of their hydrolysis involving a nitrilase-catalyzed step
Veitia, Maite Sylla-Iyarreta,Brun, Pierre Louis,Jorda, Pierre,Falguieres, Annie,Ferroud, Clotilde
experimental part, p. 2077 - 2089 (2010/03/04)
Several commercially available nitrilases were investigated with regard to their potential to hydrolyze N-protected β3-amino nitriles into their corresponding N-protected β3-amino acids. The biotransformations were obtained in different proportions depending on the nitrilase involved. The best hydrolysis results were achieved for the N-Cbz-β3-amino nitrile from l-alanine using the NIT-107, in a phosphate buffer at 0.05 M. However, no biotransformation into the corresponding acids was observed for the N-sulfonylamide β3-amino nitriles. Two simple and efficient procedures to prepare the β3-amino nitriles from their analogous α-amino acids are described. Thirty four new substances were synthesized and characterized over the course of this work.