156747-41-0Relevant academic research and scientific papers
N-acylcarbazole as a selective transamidation reagent
Kang, Bubwoong,Kuse, Masaki,Okamura, Hironori,Sakai, Asumi,Satoh, Tetsuya,Shinada, Tetsuro,Yasuno, Yoko
, p. 993 - 999 (2020/09/22)
N-acylation reaction offers an opportunity to develop an efficient synthesis of amide group-containing molecules. We found that N-acyl carbazoles showed remarkable selectivity in transamidation. Sterically less hindered primary amines are selectively acylated with N-acyl carbazoles without any additives. Various functional groups such as alcohol, phenol, indole, and aniline moieties are tolerated under mild conditions. The synthetic utility was displayed in one-pot synthesis of an N-acyl polyamine natural product. The terminal amines of spermidine were selectively benzoylated with N-benzoyl carbazole, followed by acetylation reaction accomplished the total synthesis in a highly efficient manner.
Highly selective acylation of polyamines and aminoglycosides by 5-acyl-5-phenyl-1,5-dihydro-4: H -pyrazol-4-ones
Marichev, Kostiantyn O.,Garcia, Estevan C.,Bhowmick, Kartick C.,Wherritt, Daniel J.,Arman, Hadi,Doyle, Michael P.
, p. 7152 - 7159 (2017/10/05)
5-Acyl-5-phenyl-1,5-dihydro-4H-pyrazol-4-ones, accessible from arylpropargyl phenyldiazoacetates, are highly selective acyl transfer reagents for di- and polyamines, as well as aminoalcohols and aminothiols. As reagents with a carbon-based leaving group, they have been applied for benzoyl transfer with a broad selection of substrates containing aliphatic amino in combination with other competing nucleophilic functional groups. The substrate scope and levels of selectivity for direct benzoyl transfer exceed those of known benzoylating reagents. With exceptional selectivity for acylation between primary amines bound to primary and secondary carbons, these new reagents have been used in direct site-selective monobenzoylation of aminoglycoside antibiotics.
Method for preparing amide compound from 2-diazo-1, 3-dicarbonyl compound as acylating agent
-
Paragraph 0080-0084, (2017/08/28)
The invention provides a method for preparing an amide compound from a 2-diazo-1, 3-dicarbonyl compound as an acylating agent under non-metallic catalysis and neutral conditions. The method uses 2-diazo-1, 3-dicarbonyl compound as a raw material and carries out different benzoyl protection on different amino compounds so that a series of amide compounds are prepared. The method is carried out under neutral conditions, prevents the limitation of reaction substrates under conventional alkaline conditions, and has mild reaction conditions, high reaction efficiency and a simple operation method. The method provides a new and convenient method for preparation of amide compounds and protection of amino groups and can be used in the fields of chemical medicine, biology and materials.
Protease catalysis mediated by a substrate mimetic: A novel enzymatic approach to the synthesis of carboxylic acid amides
Guenther, Robert,Bordusa, Frank
, p. 463 - 467 (2007/10/03)
We present a protease-based method for the coupling of non-coded and non-amino-acid-derived amines with carboxy components. The key feature of this approach is the combination of the substrate-mimetic strategy with the ability of the cysteine protease clostripain to accept a wide spectrum of amines. Firstly, we tested the use of the 4-guanidinophenyl ester leaving group to mediate acceptance of non-coded and non-amino-acid-derived acyl residues. This employed β-amino acid and simple carboxylic acid moieties as acyl donors, and several amino acid and peptide units as acyl acceptors. The study was completed by the use of non-amino-acid-derived acyl acceptors comprising simple amines, amino alcohols, and diamines. The results indicate that the approach presented is a useful strategy for the synthesis of peptide isosteres, peptide analogues, and organic amides. These last open a new range of synthetic applications of proteases completely beyond peptide synthesis, achieving efficient and selective acylations of non-amino-acid-derived amines under extraordinarily mild reaction conditions.
