14277-16-8Relevant articles and documents
The effect of vicinal difluorination on the conformation and potency of histone deacetylase inhibitors
Bhadbhade, Mohan,Daryl Ariawan, A.,Ho, Junming,Hunter, Luke,Mansour, Flora,Richardson, Nicole
, (2021)
Histone deacetylase enzymes (HDACs) are potential targets for the treatment of cancer and other diseases, but it is challenging to design isoform selective agents. In this work, we created new analogs of two established but non selective HDAC inhibitors. We decorated the central linker chains of the molecules with specifically positioned fluorine atoms in order to control the molecular conformations. The fluorinated analogs were screened against a panel of 11 HDAC isoforms, and minor differences in isoform selectivity patterns were observed.
Preparation method of (E)-octyl-4-alkene-1,8-diacid
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Paragraph 0046; 0050-0051, (2019/02/04)
The invention belongs to the chemical synthesis field, and specifically relates to a preparation method of (E)-oct-4-ene-1,8-diacid. The preparation method comprises the following steps: taking bromoacetonitrile as a starting raw material, reacting with a metal element to obtain a metal composite of bromoacetonitrile, and preparing (E)-oct-4-ene-1,8-dinitrile from the metal composite and 1,4-dibromo-2-butene; and hydrolysing (E)-oct-4-ene-1,8-dinitrile to obtain (E)-oct-4-ene-1,8-diacid. According to the method disclosed by the invention, the starting material is cheap and easily available, and a product with purity of 99% or higher can be obtained by simple post-treatment steps such as liquid-separation extraction and concentration after first-step reaction, and simple extraction after hydrolysing cyano alkali into carboxylic acid or hydrolysing cyan acid into ester in the second step. The process reaction and post-treatment operation are simple, and the obtained product is high in quality, so that using requirements can be met without further purification. The preparation method adopts an environment-friendly process, is economical and practical, and is very suitable for industrial production.
Pyridine-Stabilized Fast-Initiating Ruthenium Monothiolate Catalysts for Z-Selective Olefin Metathesis
Occhipinti, Giovanni,T?rnroos, Karl W.,Jensen, Vidar R.
supporting information, p. 3284 - 3292 (2017/09/15)
Pyridine as a stabilizing donor ligand drastically improves the performance of ruthenium monothiolate catalysts for olefin metathesis in comparison with previous versions based on a stabilizing benzylidene ether ligand. The new pyridine-stabilized ruthenium alkylidenes undergo fast initiation and reach appreciable yields combined with moderate to high Z selectivity in self-metathesis of terminal olefins after only a few minutes at room temperature. Moreover, they can be used with a variety of substrates, including acids, and promote self-metathesis of ω-alkenoic acids. The pyridine-stabilized ruthenium monothiolate catalysts are also efficient at the high substrate dilutions of macrocylic ring-closing metathesis and resist temperatures above 100 °C during catalysis.