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Distinct biological activity of threonine monophosphorylated MAPK isoforms during the stress response in fission yeast.

Cell. Signal.2015 Dec;27(12):2534-42. Epub 2015 Oct 06
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摘要


Mitogen-activated protein kinases (MAPKs) define a specific group of eukaryotic protein kinases which regulate a number of cellular functions by transducing extracellular signals to intracellular responses. Unlike other protein kinases, catalytic activation of MAPKs by MAPKKs depends on dual phosphorylation at two tyrosine and threonine residues within the conserved TXY motif, and this has been proposed to occur in an ordered fashion, where the initial phosphorylation on tyrosine is followed by phosphorylation at the threonine residue. However, monophosphorylated MAPKs also exist in vivo, and although threonine phosphorylated isoforms retain some catalytic activity, their functional significance remains to be further elucidated. In the fission yeast Schizosaccharomyces pombe MAPKs Sty1 and Pmk1 control multiple aspects of fission yeast life cycle, including morphogenesis, cell cycle, and cellular response to a variety of stressful situations. In this work we show that a trapping mechanism increases MAPKK binding and tyrosine phosphorylation of both Sty1 and Pmk1 when subsequent phosphorylation at threonine is hampered, indicating that a sequential and likely processive mechanism might be responsible for MAPK activation in this simple organism. Whereas threonine-monophosphorylated Sty1 showed a limited biological activity particularly at the transcriptional level, threonine-monophosphorylated Pmk1 was able to execute most of the biological functions of the dually phosphorylated kinase. Thus, threonine monophosphorylated MAPKs might display distinct functional relevance among eukaryotes.

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