32353-29-0Relevant academic research and scientific papers
N-(2,2-Dimethyl-2-(2-nitrophenyl)acetyl)-4-aminocyclophosphamide as a potential bioreductively activated prodrug of phosphoramide mustard
Jiang, Yongying,Hu, Longqin
body text, p. 4059 - 4063 (2009/04/06)
N-(2,2-Dimethyl-2-(2-nitrophenyl)acetyl)-4-aminocyclophosphamide isomers (DMNA-NH-CPA, 4) were synthesized stereospecifically from Boc-l-Hse(OBn)-OH and the degradation of the corresponding reduced amine 5a was investigated by UV/vis spectroscopy and LC/M
2,2-Dimethyl-2-(o-nitrophenyl)acetyl (DMNA) as an assisted cleavage protecting group for amines
Jiang, Yongying,Zhao, Jun,Hu, Longqin
, p. 4589 - 4592 (2007/10/03)
2,2-Dimethyl-2-(o-nitrophenyl)acetyl group (DMNA) was explored as an assisted cleavage protecting group for amines and a one-step deprotection condition was developed for its efficient removal using hydrogenation in the presence of Pd-C or PtO2 catalyst and 10% HOAc in MeOH. DMNA was found to be especially useful for the synthesis of gem-diamino compounds using Hofmann rearrangement.
RADIOLYTIC STUDIES OF THE REDUCTIVE CYCLIZATION OF 2-NITROARYLAMIDES: CYCLIZATION VIA HYDROXYLAMINE INTERMEDIATES
Sykes, Bridget M.,Atwell, Graham J.,Denny, William A.,O'Connor, Charmian J.
, p. 587 - 596 (2007/10/02)
The reductive cyclozation of several 2-nitroarylamides was studied by radiolytic reduction, examining the effects of substituents on the nitrophenyl ring and on the leaving aniline and variations in the nature of the link between the nitrophenyl ring and the leaving aniline.The stoichiometry of the reduction and the identification of N-hydroxylactam and aniline products suggest that the major initial products of such a reduction of the nitroamides are the corresponding hydroxylamines.Under anaerobic conditions, cyclization via the hydroxylamines was considerably faster (up to 160-fold) than via the corresponding amines under comparable conditions, but was similarly influenced by changes in geometry.Unlike cyclization via the amines, rates of cyclization via the hydroxylamines were sensitive to substitution on the leaving aniline, being accelerated by electron-withdrawing groups.The rate-determining step in the cyclization of teh hydroxylamines is proposed to be breakdown of the terahedral intermediate.
