Umesh A. Patel scite author profile

Despite the development of a number of efficacious kinase inhibitors, the strategies for rational design of these compounds have been limited by target promiscuity. In an effort to better understand the nature of kinase inhibition across the kinome, especially as it relates to off-target effects, we screened a well-defined collection of kinase inhibitors using biochemical assays for inhibitory activity against 234 active human kinases and kinase complexes, representing all branches of the kinome tree. For our study we employed 158 small molecules initially identified in the literature as potent and specific inhibitors of kinases important as therapeutic targets and/or signal transduction regulators. Hierarchical clustering of these benchmark kinase inhibitors on the basis of their kinome activity profiles illustrates how they relate to chemical structure similarities and provides new insights into inhibitor specificity and potential applications for probing new targets. Using this broad dataset, we provide a framework for assessing polypharmacology. We not only discover likely off-target inhibitor activities and recommend specific inhibitors for existing targets, but also identify potential new uses for known small molecules.

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The gene for the human architectural transcription factor HMGI-C consists ofn five exons each coding for a distinct functional element

Chau

Patel

Lee

et al. 1995

Nucl Acids Res

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The gene on chromosome 12 coding for the human protein HMGI-C has been cloned and partially sequenced. It consists of five exons, the first and last of which include long untranslated regions. The 5' UTR includes a (CA/T)n tract and a polymorphic (CT)n tract. Exons II, III and IV (87, 51 and 33 bp) are dispersed over > 30 kb. Exons I-III separately encode the three basic DNA binding domains ('A-T hooks'), exon IV encodes an 11 amino acid sequence characteristic of HMGI-C and absent from the human HMGI(Y) gene [Friedmann, M., Holth, L. T., Zoghbi, H. Y. and Reeves, R. (1993) Nucleic Acids Res., 21, 4259-4267], whilst exon V encodes the acidic C-terminal domain, which is subject to multiple phosphorylation. The HMGI-C gene is thus a striking example of the separation of functional protein elements into different coding exons.

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In Vivo Protection of Nigral Dopamine Neurons by Lentiviral Gene Transfer of the Novel GDNF-Family Member Neublastin/Artemin

Rosenblad

Grønborg

Hansen³

et al. 2000

Molecular and Cellular Neuroscience

128

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Quantitative high-performance liquid chromatography analysis of DNA oxidized in vitro and in vivo

Frenkel

Zhu

Wei

et al. 1991

Analytical Biochemistry

119

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Umesh A. Patel

A broad activity screen in support of a chemogenomic map for kinase signalling research and drug discovery

The gene for the human architectural transcription factor HMGI-C consists ofn five exons each coding for a distinct functional element

In Vivo Protection of Nigral Dopamine Neurons by Lentiviral Gene Transfer of the Novel GDNF-Family Member Neublastin/Artemin

Quantitative high-performance liquid chromatography analysis of DNA oxidized in vitro and in vivo

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