Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.7.11.1 (protein kinase)
 81,284 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We have studied the activity and substrate specificity of the catalytic domain of a protein kinase that was isolated in a screen of a human lambda gt11 fibroblast cDNA library with anti-phosphotyrosine antibodies. The sequence of this protein kinase would predict that it is a protein serine/threonine kinase, which at first seemed incongruent with the cloning method. However, recent reports indicate that some protein kinases can phosphorylate both tyrosine and serine/threonine residues. To determine whether this protein kinase, which we call PYT (for phosphotyrosine picked threonine kinase), was a dual-specificity protein kinase we investigated its substrate specificity when expressed in bacteria. The catalytic domain was active as a protein kinase when expressed from any of several promoters and when expressed as a TrpE fusion protein. All experiments that resulted in an active protein kinase, as judged by incorporation of 32P by metabolic labeling, also resulted in the generation of proteins that were recognized by anti-phosphotyrosine antibodies. Phosphoamino acid analyses of the metabolically labeled proteins that were recognized by the antibodies consistently yielded large amounts of phosphothreonine and only trace amounts of phosphotyrosine. We mapped the phosphorylation sites in the phosphorylated PYT protein and found only phosphothreonine; 90% of the radioactivity mapped to a threonine in the region autophosphorylated by many protein kinases. These data demonstrate that PYT is primarily a protein threonine kinase, but that it can phosphorylate tyrosine to a small extent, making it a potential dual-specificity protein kinase.
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PMID:Characterization of a human protein threonine kinase isolated by screening an expression library with antibodies to phosphotyrosine. 767 26

M-phase checkpoints inhibit cell division when mitotic spindle function is perturbed. Here we show that the Saccharomyces cerevisiae MPS1 gene product, an essential protein kinase required for spindle pole body (SPB) duplication (Winey et al., 1991; Lauze et al., 1995), is also required for M-phase check-point function. In cdc31-2 and mps2-1 mutants, conditional failure of SPB duplication results in cell cycle arrest with high p34CDC28 kinase activity that depends on the presence of the wild-type MAD1 checkpoint gene, consistent with checkpoint arrest of mitosis. In contrast, mps1 mutant cells fail to duplicate their SPBs and do not arrest division at 37 degrees C, exhibiting a normal cycle of p34CDC28 kinase activity despite the presence of a monopolar spindle. Double mutant cdc31-2, mps1-1 cells also fail to arrest mitosis at 37 degrees C, despite having SPB structures similar to cdc31-2 single mutants as determined by EM analysis. Arrest of mitosis upon microtubule depolymerization by nocodazole is also conditionally absent in mps1 strains. This is observed in mps1 cells synchronized in S phase with hydroxyurea before exposure to nocodazole, indicating that failure of checkpoint function in mps1 cells is independent of SPB duplication failure. In contrast, hydroxyurea arrest and a number of other cdc mutant arrest phenotypes are unaffected by mps1 alleles. We propose that the essential MPS1 protein kinase functions both in SPB duplication and in a mitotic checkpoint monitoring spindle integrity.
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PMID:The Saccharomyces cerevisiae spindle pole body duplication gene MPS1 is part of a mitotic checkpoint. 856 17

In order to understand cellular signaling, a clear understanding of kinase-substrate relationships is essential. Some of these relationships are defined by consensus recognition motifs present in substrates making them amendable for phosphorylation by designated kinases. Here, we explore a method that is based on two sequential steps of strong cation exchange chromatography combined with differential stable isotope labeling, to define kinase consensus motifs with high accuracy. We demonstrate the value of our method by evaluating the motifs of two very distinct kinases: cAMP regulated protein kinase A (PKA) and human monopolar spindle 1 (Mps1) kinase, also known as TTK. PKA is a well-studied basophilic kinase with a relatively well-defined motif and numerous known substrates in vitro and in vivo. Mps1, a kinase involved in chromosome segregation, has been less well characterized. Its substrate specificity is unclear and here we show that Mps1 is an acidophilic kinase with a striking tendency for phosphorylation of threonines. The final outcomes of our work are high-definition kinase consensus motifs for PKA and Mps1. Our generic method, which makes use of proteolytic cell lysates as a source for peptide-substrate libraries, can be implemented for any kinase present in the kinome.
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PMID:Universal quantitative kinase assay based on diagonal SCX chromatography and stable isotope dimethyl labeling provides high-definition kinase consensus motifs for PKA and human Mps1. 2351 Jan 41