Gene Details:
- Gene ID: AT5G18700
- Gene Symbol: EMB3013, RUK
- Gene Name: EMBRYO DEFECTIVE 3013, RUNKEL
- Description: kinase family with ARM repeat domain-containing protein;(source:Araport11)
- TAIR Accession: locus:2180044
- Genome: Araport11_genome_release
- Species: Arabidopsis thaliana
Transcripts:
Gene Ontology:
- GO:0007349 — involved in — cellularization
- GO:0010245 — involved in — radial microtubular system formation
- GO:0000914 — acts upstream of or within — phragmoplast assembly
- GO:0010342 — involved in — endosperm cellularization
- GO:0009793 — acts upstream of or within — embryo development ending in seed dormancy
- GO:0009556 — involved in — microsporogenesis
- GO:0000911 — acts upstream of or within — cytokinesis by cell plate formation
Germplasm Phenotype:
- CS24361 — embryo defective; developmental arrest of mutant embryos occurs at cotyledon stage.
- ruk-1 — seedling lethal; cytokinesis abnormal.
Literature:
- Cellularisation in the endosperm of Arabidopsis thaliana is coupled to mitosis and shares multiple components with cytokinesis. DOI: 10.1242/dev.00152 ; PMID: 12421698
- AGRONOMICS1: a new resource for Arabidopsis transcriptome profiling. DOI: 10.1104/pp.109.150185 ; PMID: 20032078
- Molecular foundations of reproductive lethality in Arabidopsis thaliana. DOI: 10.1371/journal.pone.0028398 ; PMID: 22164284
- The microtubule-associated kinase-like protein RUNKEL functions in somatic and syncytial cytokinesis. DOI: 10.1111/tpj.12160 ; PMID: 23451828
- A Genetic Screen for Mutations Affecting Cell Division in the Arabidopsis thaliana Embryo Identifies Seven Loci Required for Cytokinesis. DOI: 10.1371/journal.pone.0146492 ; PMID: 26745275
- Genome-wide identification of EMBRYO-DEFECTIVE (EMB) genes required for growth and development in Arabidopsis. DOI: 10.1111/nph.16071 ; PMID: 31334862
- Cellularisation in the endosperm of Arabidopsis thaliana is coupled to mitosis and shares multiple components with cytokinesis. DOI: 10.1242/dev.00152 ; PMID: 12421698
Sequence:
cDNA Sequence
- >AT5G18700.1 TCAAAATATAATAATTATTCTAAATTAGTCCAGTTTTGAATTTTGAAATTGTTCATTTCCTTCTCTCTACCATTCCCCCTCTCTCTTTCCAAATCCCAAACTCATTCAACAACGGCCATTGATTCTCTCTAGAGCTGACAAATCCAGAATCGGATCTCAGGAGACTTGAAGCTCGCTCCCACGATGAATCAGTACCACATCTACGAAGCTATTGGACATGGCAAATGCTCGACTGTGTATAAAGGAAGGAAGAAGAAGACGATCGAGTATTTTGCCTGCAAGAGTGTCGATAAGTCGCGGAAGAACAAGGTTCTTCAAGAGGTCAGGATCCTTCACTCGCTAAATCATCCAAACGTACTCAAGTTCTATGCTTGGTATGAAACTTCTGCTCACATGTGGTTAGTTCTGGAATATTGCGTTGGTGGTGATCTCAGGACATTATTGCAGCAGGACTGTAAACTGCCAGAAGAATCTATCTATGGTCTTGCTTATGATCTTGTCATAGCCCTGCAGTATTTACATTCGAAAGGAATTATATATTGTGATCTGAAACCATCAAACATCTTACTTGATGAAAATGGGCATATTAAGCTGTGTGATTTTGGTTTGTCAAGGAAGCTGGATGATATTTCTAAATCTCCTTCCACGGGAAAACGTGGTACCCCGTATTATATGGCTCCAGAGCTATATGAAGATGGAGGGATCCATTCTTTTGCTTCTGATCTGTGGGCACTTGGTTGTGTACTATATGAATGTTACACAGGAAGACCTCCTTTTGTGGCAAGAGAGTTTACCCAGCTTGTGAAATCTATTCATTCAGATCCAACTCCTCCACTCCCTGGAAATGCTAGTCGTTCATTTGTCAATCTCATTGAGTCTCTTCTTATCAAAGACCCAGCTCAAAGAATACAATGGGCAGATCTCTGTGGTCATGCATTTTGGAAGAGTAAGATAAATTTAGTTCAGTTGCCTACTCAGCCTGCTTTTGATGATATGATTGGCATAAACACAAAGCCATGCCTTTCCGAGCGTAATGGAGATAGACCAAATAAGACCCCTCCAAAGTACCGGGAGAAAGATCGAAAAGGGGGTTCAAAGCAAAATGAGAACTCCATTCAAGGTTCAAAAGGCCATGAGACGCCGATAAAGGGCACCCCTGGTGGGTCTAAAGCTCAAGCAAAGCTTCCTAGTAGAGCAACTGAGGAAAAGCATGGAGGTCGTCCTGCTGCTAACAGACAGGTGAATATTCTAAGATTGTCAAGGATAGCAAAGGCAAATCTTCAAAAGGAAAATGAGAAGGAAAACTATAGGAGACCCTTACCTAATAGCAACGAGAATTGTGCAGAAGTGAAGATCGACAACACTGATATGGAACTTGATTTTGATGAAAACAATGATGATGAGGGACCTGATGAATCAGAAGGAACCGAAAACACCTCTTGTGCACAAGAAGAAAGAGTAATGAGCCATAATGAGAATCACAGAAGACAAAGAGTTGTAAGCAGTAATGTGCCTGATGAGAACTCGTCTGCAAATGAAACACCAACCTTGGGTGAAGCAAGAGATTGCCATGAAGATCAGTCAGAGCCAATGGACATGTCAGCTGCCCCACCTAGTGCTAGTCCTCAACTTAAAACTCACCGAGGAAGAGAAACTTCTGGGGTTGCTGTTAATCATGACTCATCTAAAGCACCTACTAGCCTCACTGACGTCTTTTGGCATATATCTGATCTTTCTGTTAGGCCTGTCATGCCCAGCAGAAAATCTGACAAAGAAGCTGTGCATTCTCTCTCATTCGAAACACCACAGCCCTCTGATTTTAGTAAGAAGGGAAAGCAAGAATTAGAACCGCTGAACAATAGGATCATAACAGTTCTAAGTGGGAGCAGTTCTGGACTGTCAGAGAAACAGAATTTGATCAGATACCTCGAGACATTGAGTACCAATGCTGATGCAGCCAACATCCTGACTAACGGACCAATAATGCTTGTGCTTGTTAAAGTTCTGAGATTATCCAAGACCCCAGCATTTCGTGTACAAATTGCTTCACTAATTGGTTTGTTAATTCGGCATTCTACTTCAATCGAAGATGACTTGGCAAATTCTGGTATTTTAGACTCTCTTACTAATGGCCTCAGAGACAAGCATGAGAAAGTGAGAAGATTCTCTATGGCAGCTCTAGGTGAATTGCTATTCTACATCTCAACTCAAAATGAGCATAAGGATTTCAAACCACCAGAATCCCCATCAAAAGAAACCCGGTCTGCATCGGGTTGGCAGGTTTCAAATGCCTTGATCTCTCTTGTATCATCTGTCTTACGGAAGGGAGAAGATGACCTGACTCAGGTTTATGCGTTAAGGACAATAGAAAACATCTGCAGTCAAGGAGCTTACTGGGCCACCCGTTTCTCCAGCCAGGATTTGATTAGCAACCTCTGCTATATCTACAAGGCAACGGGGAAACAGGAGAGCATGAGGCAAACTGCTGGATCCTGTTTAGTCCGTCTTGCTCGCTTTAACCCTCCTTGCATTCAGACGGTCGTGGAAAAGCTTTCATTGAAGGAAATAGCTTCATCTTTTGTCAAAGGCAGCGCAAGAGAGCAGCAAGTCTGCTTAAATCTTCTGAACATGGCTATGATTGGAAGTCATACATTCACAAGCTTTGGAAGGCATCTCGTGACATTGACAGAGGAGAAGAACCTTTTCCCTAGTTTACTCTCCATCATAGAGCAAGGAACAGAAGTTCTGAGGGGCAAAGCTCTTCTCTTTGTTGCATTTCTCTGCAAAAACAGTAGGCGTTGGCTGACAAATTTCTTCTGCAATGCAAGATTTCTTCCTGTGGTGGACAGATTAGCTAAAGAAAAAGACAGTTACCTGCAACAATGTCTTGAGGCATTTGTGAATGTAATCGCCTCCATAATACCGGGCATGCTGGATACAATAACCAATGATATCCAACAACTGATGACAGGAAGACGCCATGGACCTGTCTCTCCCCTTAATAGTCGAGCTCCTGTAAAGACTAATGCACACCTGTTCCCTGTGGTTCTTCACCTTCTGGGAAGCTCTTCGTTTAAGAACAAGATGGTAACTCCACAAGTCCTAAGGCAGTTGGCAAATCTTACAAAACTTGTGGAAGCATCGTTTCAGGGAAGAGATGACTTCCGTGTAACCCTTCTTCAAGTTCTAGAGTGCATAACAGGAGATGCGCCTCTGGTTACACAAAATGGTGAGATTATTATCCGTGAGATTCTCCCATCTCTGGCTGCAATTTACAATGGAAACAAAGACGGTGATGCTCGGTTTCTCTGTTTGAAAATCTGGTTCGATTCATTGACCATTCTCTTAACTGAGTGCACCGAAATCGAGCAACAAATATCGGAGGATTTGAAATCAATATCCAACTCTCATTTCCTCCCACTCTACCCTGCACTGATCCAAGACGAAGATCCAATCCCAGCTTACGCTCAAAAGCTCCTTGTCATGCTCGTTGAGTTTGATTACATCAAAATCTCCAACTTATTGCGTCACAATACGGTTTCACAATGCTTCGAGTTTCTTCTCGGAGACTTATCAAGCGCAAATGTGAACAATGTCAAGCTCTGTCTCGCCTTGGCTTCAGCTCCAGAGATGGAAAGTAAACTACTCTCTCAGCTCAAAGTAGTGAGGAGAATCGGAAATCTGCTGGAATTCGTGAATGCCAAAGATATGGAAGATTTCCTAGAACCCACTTTAAGTCTCTGCAGAGCTTTTCTGCTACGGTCACTTGGGAACAAGAAAGGTCTCAGTTCCAACTACACAAAAGAGCCAACGCTTTTATCAGAGGCATCTTTTACGTTCGAGGTTGATCCACAGGAATGCATAAGAGACATTGCAGATTTCGGTAGCAACATTGGCCTATTCTTGCACTTTGCAGGCTTAGACGATGACACAAGCATCGCAGTCGCAGATATTGCCTCTGAATGTGTTGTGTTGCTACTCAAAGCGGCTTCGAGAGAAGCCACGACGGGATTCTTAACCAATCTTCCTAAGATCACACCGATTCTGGACTCGTGGCGCAGGAGGAAGAGCACAGAGCTACACTTGTTGGTTCTGAAGAGAGTCTTGCATTGTTTGGGTTATGCTTGCAAGCAGTATCTATCGCAGGCGATGATTTTGTCGATATCGGGACACGATGTCTCAAAGATCAACGCAATTGTCTCTGAGATGAAGAACTCAGACGCCGCTGGTCTTAACAGCATCGCTTCACTCGTTGCCATGGAGTTGCAGAGATTACCTCGTTGAATTTGAAGTCATCTGAACAATGGATTAACGACGACAATGACGCTGAGCTGTAGATTTTGAGTACATGCGAGGTAAAACAAACGCAAAAACATGTGACAAAGTGAAACCCAGAATCAAGATTTGTCTCTTCTTAATGTATATTTCTTTCTATTGCAATTTTTGTACCACTAATACAATCTACTTCCTTAATATTATCTTCTTTTAGACAAACATTTGTTAAATATTTGAGATTAGTCTGATTAGTTTAGATTTTAGTATTAAGTTGATGGGT
CDS Sequence
Protein Sequence