404-70-6Relevant articles and documents
Bi-enzymatic Conversion of Cinnamic Acids to 2-Arylethylamines
Weise, Nicholas J.,Thapa, Prasansa,Ahmed, Syed T.,Heath, Rachel S.,Parmeggiani, Fabio,Turner, Nicholas J.,Flitsch, Sabine L.
, p. 995 - 998 (2020/01/21)
The conversion of carboxylic acids, such as acrylic acids, to amines is a transformation that remains challenging in synthetic organic chemistry. Despite the ubiquity of similar moieties in natural metabolic pathways, biocatalytic routes seem to have been overlooked for this purpose. Herein we present the conception and optimisation of a two-enzyme system, allowing the synthesis of β-phenylethylamine derivatives from readily-available ring-substituted cinnamic acids. After characterisation of both parts of the reaction in a two-step approach, a set of conditions allowing the one-pot biotransformation was optimised. This combination of a reversible deaminating and irreversible decarboxylating enzyme, both specific for the amino acid intermediate in tandem, represents a general method by which new strategies for the conversion of carboxylic acids to amines could be designed.
Preparation and characterization of primary amines by potassium borohydride-copper chloride system from nitriles
Jiang, Han,Hu, Jialei,Xu, Xinliang,Zhou, Yifeng
, p. 3564 - 3566 (2015/12/30)
Nitriles undergo reduction to primary amines under optimized conditions at 50 °C using 0.25 equiv of copper chloride and 3.0 equiv of potassium borohydride in 80 % isopropanol. The aromatic and aralkyl nitriles could be effectively reduced in yield ranging from 60 to 90 %.
PRODUCTION OF INDUCED PLURIPOTENT STEM CELLS
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Page/Page column 63-64, (2012/06/30)
The present disclosure relates to methods and compositions that improve the in vitro production of induced pluripotent stem cells through the use of compounds that promote degradation of p53. The disclosure also relates to compositions and methods for the treatment of cancer, pancreatitis and intracellular pathogens.