5333-86-8Relevant articles and documents
DNA-Encoded Libraries: Hydrazide as a Pluripotent Precursor for On-DNA Synthesis of Various Azole Derivatives
Ma, Fei,Li, Jie,Zhang, Shuning,Gu, Yuang,Tan, Tingting,Chen, Wanting,Wang, Shuyue,Ma, Peixiang,Xu, Hongtao,Yang, Guang,Lerner, Richard A.
supporting information, p. 8214 - 8220 (2021/05/03)
DNA-encoded combinatorial chemical library (DEL) technology, an approach that combines the power of genetics and chemistry, has emerged as an invaluable tool in drug discovery. Skeletal diversity plays a fundamental importance in DEL applications, and relies heavily on novel DNA-compatible chemical reactions. We report herein a phylogenic chemical transformation strategy using DNA-conjugated benzoyl hydrazine as a common versatile precursor in azole chemical expansion of DELs. DNA-compatible reactions deriving from the common benzoyl hydrazine precursor showed excellent functional group tolerance with exceptional efficiency in the synthesis of various azoles, including oxadiazoles, thiadiazoles, and triazoles, under mild reaction conditions. The phylogenic chemical transformation strategy provides DELs a facile way to expand into various unique chemical spaces with privileged scaffolds and pharmacophores.
Colchicine derivatives, and preparation method and medical application thereof
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Paragraph 0092; 0093; 0118; 0120; 0121, (2018/09/14)
The invention specifically relates to colchicine derivatives (I) as described in the specification and a preparation method thereof, and pharmaceutical compositions containing the colchicine derivatives, belonging to the field of medicinal chemistry. The results of pharmacodynamic experiments prove that the colchicine derivatives of the invention have treatment effect on lumbar disc herniation andliver fibrosis.
Guanidine Synthesis: Use of Amidines as Guanylating Agents
Baeten, Mattijs,Maes, Bert U. W.
supporting information, p. 826 - 833 (2016/03/12)
The use of amidines for the tandem or one-pot synthesis of guanidines is reported. Guanidines are obtained by oxidative rearrangement of readily available and stable amidines into carbodiimides, followed by in situ reaction with amines. The protocol can be executed under mild reaction conditions (30°C), in a green solvent (dimethyl carbonate). The amine scope is broad, including sterically hindered, oxidation-sensitive and chiral amines. Examples for the synthesis of both acyclic and cyclic guanidines are provided. 2-Propoxyphenyl iodide (2-PrOPhI) by-product, generated from the oxidant [N-(p-toluenesulfonyl)imino](2-propoxyphenyl)iodinane (2-PrOPhINTs), can be isolated in high yields making regeneration of the hypervalent iodine reagent possible. The utility and greenness of the synthetic method versus the state-of-the-art is demonstrated by a new route towards the antihypertensive drug Pinacidil. The process mass intensity (PMI) of the new route is only 24% of the classical one.