Literature DB >> 19770498

Overproduction, purification and structure determination of human dual-specificity phosphatase 14.

George T Lountos1, Joseph E Tropea, Scott Cherry, David S Waugh.   

Abstract

Dual-specificity phosphatases (DUSPs) are enzymes that participate in the regulation of biological processes such as cell growth, differentiation, transcription and metabolism. A number of DUSPs are able to dephosphorylate phosphorylated serine, threonine and tyrosine residues on mitogen-activated protein kinases (MAPKs) and thus are also classified as MAPK phosphatases (MKPs). As an increasing number of DUSPs are being identified and characterized, there is a growing need to understand their biological activities at the molecular level. There is also significant interest in identifying DUSPs that could be potential targets for drugs that modulate MAPK-dependent signaling and immune responses, which have been implicated in a variety of maladies including cancer, infectious diseases and inflammatory disorders. Here, the overproduction, purification and crystal structure at 1.88 A resolution of human dual-specificity phosphatase 14, DUSP14 (MKP6), are reported. This structural information should accelerate the study of DUSP14 at the molecular level and may also accelerate the discovery and development of novel therapeutic agents.

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Year:  2009        PMID: 19770498      PMCID: PMC2748964          DOI: 10.1107/S0907444909023762

Source DB:  PubMed          Journal:  Acta Crystallogr D Biol Crystallogr        ISSN: 0907-4449


  58 in total

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8.  Novel function of DUSP14/MKP6 (dual specific phosphatase 14) as a nonspecific regulatory molecule for delayed-type hypersensitivity.

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Review 9.  Regulation of innate immunity by MAPK dual-specificity phosphatases: knockout models reveal new tricks of old genes.

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8.  The dual-specificity phosphatase DUSP14 negatively regulates tumor necrosis factor- and interleukin-1-induced nuclear factor-κB activation by dephosphorylating the protein kinase TAK1.

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10.  Phosphotyrosine Substrate Sequence Motifs for Dual Specificity Phosphatases.

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