6388-47-2Relevant articles and documents
POLY-ADP RIBOSE POLYMERASE (PARP) INHIBITORS
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Page/Page column 27, (2018/07/29)
The present invention is related to a pharmaceutical composition comprising a pharmaceutically acceptable carrier or diluent and a compound represented by the following structural formula: The present invention is also related a method of treating a subject with a disease which can be ameliorated by inhibition of poly(ADP-ribose)polymerase (PARP). The definitions of the variables are provided herein.
Extending the biocatalytic scope of regiocomplementary flavin-dependent halogenase enzymes
Shepherd, Sarah A.,Karthikeyan, Chinnan,Latham, Jonathan,Struck, Anna-Winona,Thompson, Mark L.,Menon, Binuraj R. K.,Styles, Matthew Q.,Levy, Colin,Leys, David,Micklefield, Jason
, p. 3454 - 3460 (2015/05/27)
Flavin-dependent halogenases are potentially valuable biocatalysts for the regioselective halogenation of aromatic compounds. These enzymes, utilising benign inorganic halides, offer potential advantages over traditional non-enzymatic halogenation chemistry that often lacks regiocontrol and requires deleterious reagents. Here we extend the biocatalytic repertoire of the tryptophan halogenases, demonstrating how these enzymes can halogenate a range of alternative aryl substrates. Using structure guided mutagenesis we also show that it is possible to alter the regioselectivity as well as increase the activity of the halogenases with non-native substrates including anthranilic acid; an important intermediate in the synthesis and biosynthesis of pharmaceuticals and other valuable products. This journal is
A High-Throughput Assay for Arylamine Halogenation Based on a Peroxidase-Mediated Quinone-Amine Coupling with Applications in the Screening of Enzymatic Halogenations
Hosford, Joseph,Shepherd, Sarah A.,Micklefield, Jason,Wong, Lu Shin
supporting information, p. 16759 - 16763 (2016/02/12)
Arylhalides are important building blocks in many fine chemicals, pharmaceuticals and agrochemicals, and there has been increasing interest in the development of more "green" halogenation methods based on enzyme catalysis. However, the screening and development of new enzymes for biohalogenation has been hampered by a lack of high-throughput screening methods. Described herein is the development of a colorimetric assay for detecting both chemical and enzymatic arylamine halogenation reactions in an aqueous environment. The assay is based on the unique UV/Vis spectrum created by the formation of an ortho-benzoquinone-amine adduct, which is produced by the peroxidase-catalysed benzoquinone generation, followed by Michael addition of either a halogenated or non-halogenated arylamine. This assay is sensitive, rapid and amenable to high-throughput screening platforms. We have also shown this assay to be easily coupled to a flavin-dependent halogenase, which currently lacks any convenient colorimetric assay, in a "one-pot" workflow.