EC Number |
General Information |
Reference |
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2.7.1.158 | malfunction |
a functional Asp1 kinase domain abolishes invasive growth which is monopolar |
723173 |
2.7.1.158 | malfunction |
a loss-of-function mutant exhibits disturbed phosphate homeostasis and overaccumulated phosphate as a consequence of increased phosphate uptake activity and root-to-shoot phosphate translocation. The mutant also shows a phosphate deficiency-like root system architecture with reduced primary root and enhanced lateral root growth |
739312 |
2.7.1.158 | malfunction |
a mutant of inositol pentakisphosphate 2-kinase displays hypersensitivity to arsenate stress and less arsenate uptake when compared to the wild type enzyme |
739275 |
2.7.1.158 | physiological function |
Asp1 kinase activity regulates cell-cell adhesion and increases resistance towards thiabendazole. The Asp1 kinase activity encoded by the N-terminal part of the protein is regulated negatively by the C-terminal domain of Asp1. Asp1 is a key regulator of the morphological switch via the cAMP protein kinase A |
723173 |
2.7.1.158 | physiological function |
association of urine inositol 1,3,4,5,6-pentakisphosphate 2-kinase (IPP2K) with the presence and progression of diabetic kidney disease (DKD) lesions. Inositol 6-phosphate is a key intracellular signaling molecule with roles in mRNA editing and chromatin remodeling |
760326 |
2.7.1.158 | malfunction |
cells lacking the enzyme display defects in dynein-dependent trafficking pathways including endosomal sorting, vesicle movement and Golgi maintenance |
-, 737654 |
2.7.1.158 | evolution |
differential spatial and temporal expression profiling of gene GmIpk1 and its two homologues Glyma06g03310 and Glyma04g03310 in Glycine max |
760240 |
2.7.1.158 | malfunction |
disruption of inositol pentakisphosphate 2-kinase profoundly influences cellular processes |
761678 |
2.7.1.158 | metabolism |
genetic dissection of the roles for InsP and PP-InsP biosynthesis enzymes in regulation of phosphate homeostasis, overview |
762144 |
2.7.1.158 | physiological function |
GmIPK1 plays a significant role in phytate synthesis |
760240 |