2.7.12.1 ATP + a protein - 2.7.12.1 ATP + adaptor protein SH2 domain-containing leukocyte protein phosphorylation of SLP-65 on several tyrosines 2.7.12.1 ATP + amphiphysin I - 2.7.12.1 ATP + annexin 1 phosphorylation at tyrosine and serine/threonine residues 2.7.12.1 ATP + annexin 2 phosphorylation at tyrosine and serine/threonine residues 2.7.12.1 ATP + annexin 4 phosphorylation at tyrosine residues 2.7.12.1 ATP + caspase-9 - 2.7.12.1 ATP + CREB - 2.7.12.1 ATP + cyclin L2 - 2.7.12.1 ATP + dynamin 1 - 2.7.12.1 ATP + dynamin I - 2.7.12.1 ATP + eIF2Bepsilon - 2.7.12.1 ATP + extracellular MAP kinase kinase - 2.7.12.1 ATP + extracellular signal-regulated kinase - 2.7.12.1 ATP + Gli1 protein - 2.7.12.1 ATP + glycogen synthase - 2.7.12.1 ATP + immunglobulin-alpha the inhibitory residue of Ig-alpha S197 is phosphorylated in activated B cells by Syk 2.7.12.1 ATP + insulin receptor kinase substrate 1 phosphorylation at serine residues, overview, the enzyme is involved in the insulin signaling pathway 2.7.12.1 ATP + microtubule associated protein 1B DYRK1A phosphorylates the S1392 site on microtubule associated protein 1B 2.7.12.1 ATP + neurodegeneration-related septin 4 SEPT4, also known as Pnutl2/CDCrel-2 2.7.12.1 ATP + NFAT - 2.7.12.1 ATP + Notch protein - 2.7.12.1 ATP + p27 p27 phosphorylation at Ser10 and Thr198 2.7.12.1 ATP + PRAS40 phosphorylation at Thr246 2.7.12.1 ATP + RNA binding family protein phosphorylation at serine/threonine residues 2.7.12.1 ATP + S6K1 phosphorylation at Thr389 2.7.12.1 ATP + serine/arginine-rich protein 55 i.e. splicing factor SRp55, DYRK1a mainly phosphorylates the proline-rich domain of SRp55 2.7.12.1 ATP + SF3B1 protein-L-Thr434 - 2.7.12.1 ATP + splicing factor 2 - 2.7.12.1 ATP + splicing factor 3 - 2.7.12.1 ATP + splicing factor 3B1 splicing factor 3B1 is poshorylated at Thr434 2.7.12.1 ATP + SR protein - 2.7.12.1 ATP + SR protein enzyme is involved in the regulation of nuclear functions 2.7.12.1 ATP + SR protein DYRK may be involved in the abnormal neurogenesis found in Down syndrome 2.7.12.1 ATP + SR protein functions as a negative regulator of the cell cycle in Saccharomyces cerevisiae, acting downstream of the cAMP-dependent protein kinase 2.7.12.1 ATP + SR protein might be a component of a signaling pathway regulating nuclear functions 2.7.12.1 ATP + SR protein enzyme may be involved in cell cycle control 2.7.12.1 ATP + SR protein the enzyme is required in distinct neuroblast proliferation centers during postembryonic neurogenesis 2.7.12.1 ATP + SR protein enzyme is a good candidate to mediate some of the pleiotropic effects of Down syndrome 2.7.12.1 ATP + SR protein Yak1 acts downstream from, or on a parallel pathway to, the kinase step in the Ras/cAMP pathway 2.7.12.1 ATP + SR protein MNB protein may play a significant role in a signaling pathway regulating nuclear functions of neuronal cell proliferation, contributing to certain features of Down syndrome 2.7.12.1 ATP + SR protein enzyme regulates a predominately testicular function 2.7.12.1 ATP + SR protein Yak1p and Pop2p are part of a novel glucose-sensing system in yeast that is involved in growth control in response to glucose availability 2.7.12.1 ATP + SR protein enzyme may be constituent of a network of regulatory mechanisms that enable SR proteins to control RNA splicing 2.7.12.1 ATP + SR protein the enzyme phosphorylates SR splicing factors and regulates their intranuclear distribution 2.7.12.1 ATP + STAT3 - 2.7.12.1 ATP + synaptojanin I - 2.7.12.1 ATP + tau protein-L-Thr434 - 2.7.12.1 ATP + transcription factor FKHR - 2.7.12.1 biliverdin + ? - 2.7.12.1 additional information a role for tyrosine phosphorylation in controlling Dictyostelium development 2.7.12.1 additional information regulates the differentiation of spore cells 2.7.12.1 additional information required for the execution of checkpoint arrest at multiple stages of the cell cycle. Rad53 modulates the lagging strand replication apparatus by controlling phosphorylation of the DNA polymerase alpha-primase complex in response to intra-S DNA damage 2.7.12.1 additional information Rad53 exerts its role in checkpoint control through regulation of the Polo kinase Cdc5 2.7.12.1 additional information the SAD1/RAD53 protein kinase controls multiple checkpoints and DNA damage-induced transcription in yeast 2.7.12.1 additional information the enzyme is not essential for cell growth and a variety of other cellular processes in yeast 2.7.12.1 additional information negative regulation of filamentous growth and flocculation 2.7.12.1 additional information Esk kinase may play some role in the control of cell proliferation or differentiation 2.7.12.1 additional information the enzyme is associated with cell proliferation 2.7.12.1 additional information may function in a checkpoint control which couples DNA replication to mitosis. The level of the RPK1 transcript is extremely low and constant throughout the mitotic cycle. However it is regulated during cellular differentiation, being decreased in alpha-factor-treated cells and increased late in meiosis in alpha diploids. Rpk1 is involved in a pathway that coordinates cell proliferation and differentiation 2.7.12.1 additional information the enzyme is associated to ubiquinone biosynthesis 2.7.12.1 additional information the enzyme is associated with nitrate dissimilation involving the NirV domain 2.7.12.1 additional information the enzyme is developmentally regulated 2.7.12.1 additional information the enzyme is involved in regulation of Mg-chelatase and chlorophyll biosynthesis 2.7.12.1 additional information the enzyme is involved in response to plant abiotic and biotic stresses 2.7.12.1 additional information Dyrk1A undergoes self-activation through autophosphorylation at Tyr 321 2.7.12.1 additional information neither clathrin heavy chain nor endophilin 1 is phosphorylated by the Dyrk1A 2.7.12.1 additional information autophosphorylation of a tyrosine residue within the activation loop is necessary for full DYRK4 kinase activity 2.7.12.1 additional information autophosphorylation of the tyrosine 246 residue within the activation loop is necessary for full DYRK4 kinase activity, no differences in tyrosine phosphorylation are evident for the long and the short human DYRK4 isoforms 2.7.12.1 additional information PrkG is a unique dual specificity protein kinase that mediates autophosphorylation and substrate phosphorylation on Ser, Thr, and Tyr residues