Information report for AT5G35980
Gene Details
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Functional Descriptions
- PO:0009005 — root — raíz (Spanish, exact), radices (exact, plural), radix (exact), 根 (Japanese, exact), aerial root (narrow), climbing root (narrow)
- PO:0000084 — plant sperm cell — célula espermática o esperma (Spanish, exact), male gamete (exact), microgamete (exact), 植物精子細胞 (Japanese, exact), sperm nucleus (related), sperm cell (broad)
- GO:0004713 — enables — protein tyrosine kinase activity
- GO:0040007 — acts upstream of or within — growth
- GO:0004674 — enables — protein serine/threonine kinase activity
- GO:0046777 — acts upstream of or within — protein autophosphorylation
- GO:0005634 — located in — nucleus
- GO:0009506 — located in — plasmodesma
- GO:0006468 — involved in — protein phosphorylation
- GO:0004712 — enables — protein serine/threonine/tyrosine kinase activity
- GO:0009789 — involved in — positive regulation of abscisic acid-activated signaling pathway
- GO:0004672 — enables — protein kinase activity
- GO:0018105 — involved in — peptidyl-serine phosphorylation
- GO:0018107 — involved in — peptidyl-threonine phosphorylation
- GO:0005737 — is active in — cytoplasm
- GO:0005515 — enables — protein binding
- GO:0005576 — located in — extracellular region
- GO:0006468 — acts upstream of or within — protein phosphorylation
Functional Keywords
Literature and News
- Systematic trans-genomic comparison of protein kinases between Arabidopsis and Saccharomyces cerevisiae. DOI: 10.1104/pp.103.021485 ; PMID: 12913170
- Bicistronic and fused monocistronic transcripts are derived from adjacent loci in the Arabidopsis genome. DOI: 10.1261/rna.7114505 ; PMID: 15659355
- Site-specific phosphorylation profiling of Arabidopsis proteins by mass spectrometry and peptide chip analysis. DOI: 10.1021/pr8000173 ; PMID: 18433157
- Transcriptome analyses show changes in gene expression to accompany pollen germination and tube growth in Arabidopsis. DOI: 10.1104/pp.108.126375 ; PMID: 18775970
- In planta changes in protein phosphorylation induced by the plant hormone abscisic acid. DOI: 10.1073/pnas.1007879107 ; PMID: 20733066
- Arabidopsis YAK1 regulates abscisic acid response and drought resistance. DOI: 10.1002/1873-3468.12234 ; PMID: 27264339
- A TOR-YAK1 signaling axis controls cell cycle, meristem activity and plant growth in Arabidopsis. DOI: 10.1242/dev.171298 ; PMID: 30705074
- Capturing the phosphorylation and protein interaction landscape of the plant TOR kinase. DOI: 10.1038/s41477-019-0378-z ; PMID: 30833711
- Mutations of the AtYAK1 Kinase Suppress TOR Deficiency in Arabidopsis. DOI: 10.1016/j.celrep.2019.05.074 ; PMID: 31216485
- Site-specific phosphorylation profiling of Arabidopsis proteins by mass spectrometry and peptide chip analysis. DOI: 10.1021/pr8000173 ; PMID: 18433157
- Site-specific phosphorylation profiling of Arabidopsis proteins by mass spectrometry and peptide chip analysis. DOI: 10.1021/pr8000173 ; PMID: 18433157
Gene Resources
- UniProt: A0A1P8BH92
- EMBL: CP002688
- AlphaFoldDB: A0A1P8BH92
- EnsemblPlants: AT5G35980.3
- Gramene: AT5G35980.3
- ExpressionAtlas: AT5G35980
- InterPro: IPR000719, IPR008271, IPR011009
- PANTHER: PTHR24058, PTHR24058:SF17
- SUPFAM: SSF56112
- PROSITE: PS00107, PS00108, PS50011
- Gene3D: 1.10.510.10, 3.30.200.20
- SWISS-MODEL: A0A1P8BH92
- Conserved Domain Database: cd14212
Sequences
cDNA Sequence
- >AT5G35980.3
TTTGAATGCATACCAGAGTTCAATTGGCATTAAGATGACCAATCTGAACCTTGTTGTGTATCTGTCTGGACTCTGGCAGAGTTATAGCAAGTCTCTCCATTAGTTTTCTAGCCGCTGTTATTTGGCGCCATTCTGCTGTAATAGTTGGGCATGGTTTTGGAATTTACTGATAACTGTTGGTGTCTTCTTGCCTTGACTTTAAGCGAGGTGGTGGTGAGACTAACTAGGGACTTGGTTGAGACGTACAAAATATGTGACCCACAGTTCAAATATAGAGGAGAGTTGAATCCCAAGCGGTACTTGACTACTCCATCAGTTGGTGTGAACAATGATGGCTTTGATAATGTCAACTACGATCTAATTCTGGCTGTAAATGATGATTTTTGCAGTTCAGATTCACGGCAGAGATACATTGTCAAAGATCTTCTTGGCCATGGGACTTTTGGTCAGGTTGCTAAATGCTGGGTTCCTGAGACAAACAGCTTTGTTGCTGTAAAAGTAATAAAAAACCAGCTTGCATACTATCAGCAGGCATTGGTTGAAGTATCTATTTTGACAACGCTAAACAAGAAGTATGATCCTGAGGATAAGAACCATATCGTTCGCATATACGACTACTTCTTACATCAAAGTCATTTGTGCATATGCTTTGAACTTCTAGACATGAATCTGTATGAGCTCATAAAGATAAATCAATTCAGAGGCCTATCATTAAGCATAGTCAAGCTCTTCTCTAAGCAGATCTTACTTGGTTTGGCTCTTTTGAAAGATGCTGGCATAATCCATTGTGATCTGAAGCCAGAGAATATTCTTCTGTGCGCCAGTGTGAAGCCAACTGAAATTAAGATAATTGACTTTGGATCAGCGTGCATGGAAGATAAAACTGTTTATTCATATATTCAGAGTCGTTACTACAGATCGCCGGAAGTCTTACTTGGTTACCAATACACTACAGCTATTGACATGTGGTCTTTTGGCTGCATTGTTGCCGAGCTGTTTCTTGGATTGCCACTATTTCCAGGAGGTTCAGAATTTGATATCTTGAGGCGTATGATTGAAATACTAGGCAAACAACCACCTGATTATGTGCTCAAGGAAGCAAAAAATACGAATAAGTTCTTTAAATGTGTTGGGAGTGTCCACAATTTAGGGAATGGTGGAACTTATGGTGGCCTCAAAAGTGCTTATATGGCTTTGACTGGAGAAGAGTTTGAAGCTAGAGAAAAGAAAAAGCCAGAAATTGGGAAAGAGTACTTCAACCATAAGAACCTTGAAGAAATTGTTAAAAGCTATCCGTACAAGATAAATCTACCTGAGGACGATGTAGTCAAAGAAACTCAAATCCGGTTAGCTCTTATTGATTTTCTGAAAGGACTTATGGAATTTGATCCAGCAAAACGTTGGTCACCTTTTCAGGCAGCAAAGCACCCTTTCATTACTGGAGAACCTTTTACGTGCCCATACAACCCTCCGCCAGAAACACCTCGTGTGCATGTTACCCAAAACATCAAAGTTGACCATCATCCAGGTGAAGGGCACTGGTTTGCCGCTGGTCTCTCTCCTCATGTATCAGGGAGAACCAGAATCCCGATGCACAATAGTCCCCATTTTCAGATGATGCCTTATTCACATGCAAATAGTTATGGGAGCATTGGAAGCTATGGTAGCTACAATGATGGTACTATACAGGACAATAGCTATGGGAGCTATGGAGGGACTGGCAATATGTTTGCATACTATTCTCCTGTGAATCATCCAGGCCTATACATGCAAAACCAAGGTGGGGTCTCAATGCTTGGAACTAGTCCTGATGCCAGACGTCGGGTTATGCAGTACCCACATGGAAATGGGCCAAATGGCCTTGGTACAAGTCCATCTGCTGGAAATTTTGCACCACTACCCCTTGGCACTAGTCCGTCACAATTTACTCCAAATACAAACAATCAATTTTTAGCTGGGTCTCCTGGACACCATGGCCCGACATCTCCAGTAAGAAACAGCTGCCATGGGTCTCCTTTGGGAAAGATGGCTGCATTTAGTCAAATTAATAGAAGAATGAGCGCTGGATATTCTGGAGGTTCTCAGTCGCAAGATTCTTCCTTGTCACAAGCCCAAGGGCATGGGATGGATAACTTTTATCAAAATGAGGGGTATTCTGGACAATTCTCTGGTTCACCTTCACGCCGGCAACTGGATTCTGGTGTCAAAAATCGTAAACAGACACAAGGAGGCACTACATTAAGTACTGGGTACTCTACTCATAACAATGCCAACTCATCACTTCGGTCCAATATGTATAACCCTTCCAGTACTGCACACCATCTTGAAAATCCGGATACTGCCTTATCAGTACCTGATCCAGGAGACTGGGACCCAAATTACAGTGATGACTTGCTTCTAGAAGAAGATAGTGCAGATGAGAGTTCTCTTGCTAATGCATTCAGCAGAGGTATGCAACTTGGTTCAACAGATGCCTCCAGTTATTCCAGAAGGTTCAACAGTAATGCCTCGACCTCATCCTCAAATCCGACTACCCAAAGGAGATATGCTCCCAATCAAGCCTTTTCACAAGTAGAGACTGGCAGCCCTCCAAGTAATGATCCTCATGCCAGATTTGGCCAACATATACCAGGATCACAATATATTCCTCATGTCTCCCAGAACTCTCCAAGTCGCTTAGGGCAGCAACCTCCTCAACGGTATAATCATGGGAGACCAAATGCTGGAAGAACTATGGATCGGAATCACATGAACGCTCAGCTTCCTCCTTCCAATACAAATTCTGGGGGTCAACAACGTTCACCCAGAAGTAGCTCATATACAAATGGTGTCCCTTGGGGTCGTAGGACTAACAATCATGTCCCGAATGTTCCATCGACGTCCCATGGAAGGGTAGACTACGGAAGTATTGCTTAATTCTGCAGTCTTTCTTCTCATTTATTTTGTTCTTTCCCTTGGTGTGCAATCTTCTTGTTAGAAGTGTGGGAACAAAGTTGTACTGAGACAAGAAACAAACTTAGTTCATGGCTTGTGGGCTTCTGATCAGAACGTGCTTATTCATTGTGCTTTTTGCACAAATAAACAAAAAAAAAAAGTATGTTATAATTGATATTGTTATCTTTCTGGCATCTATCTCTCTGAATTTCTTTTTGGTATTCTCTGATGAATGTATCTTTTGGGAAAGTTGTTCAAGTGTTTAAGCCTAGCCTTGAAAAAAGATCCTTAATTTCCGTAAATTTCAGTTTATTAGCAGACT - >AT5G35980.2
TTTGAATGCATACCAGAGTTCAATTGGCATTAAGATGACCAATCTGAACCTTGTTGTGTATCTGTCTGGACTCTGGCAGAGTTATAGCAAGTCTCTCCATTAGTTTTCTAGCCGCTGTTATTTGGCGCCATTCTGCTGTAATAGTTGGGCATGGTTTTGGAATTTACTGATAACTGTTGGTGTCTTCTTGCCTTGACTTTAAGCGAGGTGGTGGTGAGACTAACTAGGGACTTGGTTGAGACGTACAAAATATGTGACCCACAGTTCAAATATAGAGGAGAGTTGAATCCCAAGCGGTACTTGACTACTCCATCAGTTGGTGTGAACAATGATGGCTTTGATAATGTCAACTACGATCTAATTCTGGCTGTAAATGATGATTTTTGCAGTTCAGATTCACGGCAGAGATACATTGTCAAAGATCTTCTTGGCCATGGGACTTTTGGTCAGGTTGCTAAATGCTGGGTTCCTGAGACAAACAGCTTTGTTGCTGTAAAAGTAATAAAAAACCAGCTTGCATACTATCAGCAGGCATTGGTTGAAGTATCTATTTTGACAACGCTAAACAAGAAGTATGATCCTGAGGATAAGAACCATATCGTTCGCATATACGACTACTTCTTACATCAAAGTCATTTGTGCATATGCTTTGAACTTCTAGACATGAATCTGTATGAGCTCATAAAGATAAATCAATTCAGAGGCCTATCATTAAGCATAGTCAAGCTCTTCTCTAAGCAGATCTTACTTGGTTTGGCTCTTTTGAAAGATGCTGGCATAATCCATTGTGATCTGAAGCCAGAGAATATTCTTCTGTGCGCCAGTGTGAAGCCAACTGAAATTAAGATAATTGACTTTGGATCAGCGTGCATGGAAGATAAAACTGTTTATTCATATATTCAGAGTCGTTACTACAGATCGCCGGAAGTCTTACTTGGTTACCAATACACTACAGCTATTGACATGTGGTCTTTTGGCTGCATTGTTGCCGAGCTGTTTCTTGGATTGCCACTATTTCCAGGAGGTTCAGAATTTGATATCTTGAGGCGTATGATTGAAATACTAGGCAAACAACCACCTGATTATGTGCTCAAGGAAGCAAAAAATACGAATAAGTTCTTTAAATGTGTTGGGAGTGTCCACAATTTAGGGAATGGTGGAACTTATGGTGGCCTCAAAAGTGCTTATATGGCTTTGACTGGAGAAGAGTTTGAAGCTAGAGAAAAGAAAAAGCCAGAAATTGGGAAAGAGTACTTCAACCATAAGAACCTTGAAGAAATTGTTAAAAGCTATCCGTACAAGATAAATCTACCTGAGGACGATGTAGTCAAAGAAACTCAAATCCGGTTAGCTCTTATTGATTTTCTGAAAGGACTTATGGAATTTGATCCAGCAAAACGTTGGTCACCTTTTCAGGCAGCAAAGCACCCTTTCATTACTGGAGAACCTTTTACGTGCCCATACAACCCTCCGCCAGAAACACCTCGTGTGCATGTTACCCAAAACATCAAAGTTGACCATCATCCAGGTGAAGGGCACTGGTTTGCCGCTGGTCTCTCTCCTCATGTATCAGGGAGAACCAGAATCCCGATGCACAATAGTCCCCATTTTCAGATGATGCCTTATTCACATGCAAATAGTTATGGGAGCATTGGAAGCTATGGTAGCTACAATGATGGTACTATACAGGACAATAGCTATGGGAGCTATGGAGGGACTGGCAATATGTTTGCATACTATTCTCCTGTGAATCATCCAGGCCTATACATGCAAAACCAAGGTGGGGTCTCAATGCTTGGAACTAGTCCTGATGCCAGACGTCGGGTTATGCAGTACCCACATGGAAATGGGCCAAATGGCCTTGGTACAAGTCCATCTGCTGGAAATTTTGCACCACTACCCCTTGGCACTAGTCCGTCACAATTTACTCCAAATACAAACAATCAATTTTTAGCTGGGTCTCCTGGACACCATGGCCCGACATCTCCAGTAAGAAACAGCTGCCATGGGTCTCCTTTGGGAAAGATGGCTGCATTTAGTCAAATTAATAGAAGAATGAGCGCTGGATATTCTGGAGGTTCTCAGTCGCAAGATTCTTCCTTGTCACAAGCCCAAGGGCATGGGATGGATAACTTTTATCAAAATGAGGGGTATTCTGGACAATTCTCTGGTTCACCTTCACGCCGGCAACTGGATTCTGGTGTCAAAAATCGTAAACAGACACAAGGAGGCACTACATTAAGTACTGGGTACTCTACTCATAACAATGCCAACTCATCACTTCGGTCCAATATGTATAACCCTTCCAGTACTGCACACCATCTTGAAAATCCGGATACTGCCTTATCAGTACCTGATCCAGGAGACTGGGACCCAAATTACAGTGATGACTTGCTTCTAGAAGAAGATAGTGCAGATGAGAGTTCTCTTGCTAATGCATTCAGCAGAGGTATGCAACTTGGTTCAACAGATGCCTCCAGTTATTCCAGAAGGTTCAACAGTAATGCCTCGACCTCATCCTCAAATCCGACTACCCAAAGGAGATATGCTCCCAATCAAGCCTTTTCACAAGTAGAGACTGGCAGCCCTCCAAGTAATGATCCTCATGCCAGATTTGGCCAACATATACCAGGATCACAATATATTCCTCATGTCTCCCAGAACTCTCCAAGTCGCTTAGGGCAGCAACCTCCTCAACGGTATAATCATGGGAGACCAAATGCTGGAAGAACTATGGATCGGAATCACATGAACGCTCAGCTTCCTCCTTCCAATACAAATTCTGGGGGTCAACAACGTTCACCCAGAAGTAGCTCATATACAAATGGTGTCCCTTGGGGTCGTAGGACTAACAATCATGTCCCGAATGTTCCATCGACGTCCCATGGAAGGGTAGACTACGGAAGTATTGCTTAATTCTGCAGTCTTTCTTCTCATTTATTTTGTTCTTTCCCTTGGTGTGCAATCTTCTTGTTAGAAGTGTGGGAACAAAGTTGTACTGAGACAAGAAACAAACTTAGTTCATGGCTTGTGGGCTTCTGATCAGAACGTGCTTATTCATTGTGCTTTTTGCACAAATAAACAAAAAAAAAAAGTATGTTATAATTGATATTGTTATCTTTCTGGCATCTATCTCTCTGAATTTCTTTTTGGTATTCTCTGATGAATGTATCTTTTGGGAAAGTTGTTCAAGTGTTTAAGCCTAGCCTTGAAAAAAGATCCTTAATTTCCGTAAATTTCAGTTTATTAGCAGACT - >AT5G35980.1
TTTGAATGCATACCAGAGTTCAATTGGCATTAAGATGACCAATCTGAACCTTGTTGTGTATCTGTCTGGACTCTGGCAGAGTTATAGCAAGTCTCTCCATTAGTTTTCTAGCCGCTGTTATTTGGCGCCATTCTGCTGTAATAGTTGGGCATGGTTTTGGAATTTACTGATAACTGTTGGTGTCTTCTTGCCTTGACTTTAAGCGAGGTGGTGGTGAGACTAACTAGGGACTTGGTTGAGACGTACAAAATATGTGACCCACAGTTCAAATATAGAGGAGAGTTGAATCCCAAGCGGTACTTGACTACTCCATCAGTTGGTGTGAACAATGATGGCTTTGATAATGTCAACTACGATCTAATTCTGGCTGTAAATGATGATTTTTGCAGTTCAGATTCACGGCAGAGATACATTGTCAAAGATCTTCTTGGCCATGGGACTTTTGGTCAGGTTGCTAAATGCTGGGTTCCTGAGACAAACAGCTTTGTTGCTGTAAAAGTAATAAAAAACCAGCTTGCATACTATCAGCAGGCATTGGTTGAAGTATCTATTTTGACAACGCTAAACAAGAAGTATGATCCTGAGGATAAGAACCATATCGTTCGCATATACGACTACTTCTTACATCAAAGTCATTTGTGCATATGCTTTGAACTTCTAGACATGAATCTGTATGAGCTCATAAAGATAAATCAATTCAGAGGCCTATCATTAAGCATAGTCAAGCTCTTCTCTAAGCAGATCTTACTTGGTTTGGCTCTTTTGAAAGATGCTGGCATAATCCATTGTGATCTGAAGCCAGAGAATATTCTTCTGTGCGCCAGTGTGAAGCCAACTGAAATTAAGATAATTGACTTTGGATCAGCGTGCATGGAAGATAAAACTGTTTATTCATATATTCAGAGTCGTTACTACAGATCGCCGGAAGTCTTACTTGGTTACCAATACACTACAGCTATTGACATGTGGTCTTTTGGCTGCATTGTTGCCGAGCTGTTTCTTGGATTGCCACTATTTCCAGGAGGTTCAGAATTTGATATCTTGAGGCGTATGATTGAAATACTAGGCAAACAACCACCTGATTATGTGCTCAAGGAAGCAAAAAATACGAATAAGTTCTTTAAATGTGTTGGGAGTGTCCACAATTTAGGGAATGGTGGAACTTATGGTGGCCTCAAAAGTGCTTATATGGCTTTGACTGGAGAAGAGTTTGAAGCTAGAGAAAAGAAAAAGCCAGAAATTGGGAAAGAGTACTTCAACCATAAGAACCTTGAAGAAATTGTTAAAAGCTATCCGTACAAGATAAATCTACCTGAGGACGATGTAGTCAAAGAAACTCAAATCCGGTTAGCTCTTATTGATTTTCTGAAAGGACTTATGGAATTTGATCCAGCAAAACGTTGGTCACCTTTTCAGGCAGCAAAGCACCCTTTCATTACTGGAGAACCTTTTACGTGCCCATACAACCCTCCGCCAGAAACACCTCGTGTGCATGTTACCCAAAACATCAAAGTTGACCATCATCCAGGTGAAGGGCACTGGTTTGCCGCTGGTCTCTCTCCTCATGTATCAGGGAGAACCAGAATCCCGATGCACAATAGTCCCCATTTTCAGATGATGCCTTATTCACATGCAAATAGTTATGGGAGCATTGGAAGCTATGGTAGCTACAATGATGGTACTATACAGGACAATAGCTATGGGAGCTATGGAGGGACTGGCAATATGTTTGCATACTATTCTCCTGTGAATCATCCAGGCCTATACATGCAAAACCAAGGTGGGGTCTCAATGCTTGGAACTAGTCCTGATGCCAGACGTCGGGTTATGCAGTACCCACATGGAAATGGGCCAAATGGCCTTGGTACAAGTCCATCTGCTGGAAATTTTGCACCACTACCCCTTGGCACTAGTCCGTCACAATTTACTCCAAATACAAACAATCAATTTTTAGCTGGGTCTCCTGGACACCATGGCCCGACATCTCCAGTAAGAAACAGCTGCCATGGGTCTCCTTTGGGAAAGATGGCTGCATTTAGTCAAATTAATAGAAGAATGAGCGCTGGATATTCTGGAGGTTCTCAGTCGCAAGATTCTTCCTTGTCACAAGCCCAAGGGCATGGGATGGATAACTTTTATCAAAATGAGGGGTATTCTGGACAATTCTCTGGTTCACCTTCACGCCGGCAACTGGATTCTGGTGTCAAAAATCGTAAACAGACACAAGGAGGCACTACATTAAGTACTGGGTACTCTACTCATAACAATGCCAACTCATCACTTCGGTCCAATATGTATAACCCTTCCAGTACTGCACACCATCTTGAAAATCCGGATACTGCCTTATCAGTACCTGATCCAGGAGACTGGGACCCAAATTACAGTGATGACTTGCTTCTAGAAGAAGATAGTGCAGATGAGAGTTCTCTTGCTAATGCATTCAGCAGAGGTATGCAACTTGGTTCAACAGATGCCTCCAGTTATTCCAGAAGGTTCAACAGTAATGCCTCGACCTCATCCTCAAATCCGACTACCCAAAGGAGATATGCTCCCAATCAAGCCTTTTCACAAGTAGAGACTGGCAGCCCTCCAAGTAATGATCCTCATGCCAGATTTGGCCAACATATACCAGGATCACAATATATTCCTCATGTCTCCCAGAACTCTCCAAGTCGCTTAGGGCAGCAACCTCCTCAACGGTATAATCATGGGAGACCAAATGCTGGAAGAACTATGGATCGGAATCACATGAACGCTCAGCTTCCTCCTTCCAATACAAATTCTGGGGGTCAACAACGTTCACCCAGAAGTAGCTCATATACAAATGGTGTCCCTTGGGGTCGTAGGACTAACAATCATGTCCCGAATGTTCCATCGACGTCCCATGGAAGGGTAGACTACGGAAGTATTGCTTAATTCTGCAGTCTTTCTTCTCATTTATTTTGTTCTTTCCCTTGGTGTGCAATCTTCTTGTTAGAAGTGTGGGAACAAAGTTGTACTGAGACAAGAAACAAACTTAGTTCATGGCTTGTGGGCTTCTGATCAGAACGTGCTTATTCATTGTGCTTTTTGCACAAATAAACAAAAAAAAAAAGTATGTTATAATTGATATTGTTATCTTTCTGGCATCTATCTCTCTGAATTTCTTTTTGGTATTCTCTGATGAATGTATCTTTTGGGAAAGTTGTTCAAGTGTTTAAGCCTAGCCTTGAAAAAAGATCCTTAATTTCCGTAAATTTCAGTTTATTAGCAGACT
CDS Sequence
Protein Sequence