Gene Details:
- Gene ID: AT5G13130
- Gene Symbol: MORC5
- Gene Name: Microrchidia 5
- Description: Histidine kinase-, DNA gyrase B-, and HSP90-like ATPase family protein;(source:Araport11)
- TAIR Accession: locus:2179837
- Genome: Araport11_genome_release
- Species: Arabidopsis thaliana
Transcripts:
Gene Ontology:
- GO:0006282 — involved in — regulation of DNA repair
- GO:0005634 — located in — nucleus
- GO:0005634 — is active in — nucleus
- GO:0004519 — enables — endonuclease activity
- GO:0003677 — enables — DNA binding
- GO:0060966 — involved in — regulation of gene silencing by regulatory ncRNA
- GO:0003723 — enables — RNA binding
- GO:0016887 — enables — ATP hydrolysis activity
Literature:
- Arabidopsis AtMORC4 and AtMORC7 Form Nuclear Bodies and Repress a Large Number of Protein-Coding Genes. DOI: 10.1371/journal.pgen.1005998 ; PMID: 27171361
- MORC Proteins: Novel Players in Plant and Animal Health. DOI: 10.3389/fpls.2017.01720 ; PMID: 29093720
- MORC Domain Definition and Evolutionary Analysis of the MORC Gene Family in Green Plants. DOI: 10.1093/gbe/evy136 ; PMID: 29982569
Sequence:
cDNA Sequence
- >AT5G13130.1 GTGTGTCGTGCGTGTCTCACGTCTCTCTCTCCTCTCTCCCACTTCAAGCTGCTTCAAAACCCTAGAAGCTTCTACTGCAACCACGGATTCTTCTCAAATCAAGTCCAATAAACCACTGTTAGTGATCGGAGACATGGCCGAATCTGGCAGTACTAACCCTAAATCCCCATCCGTTGTTCCCGATTCGACTCTCGGTGGACTGAAGAGAGATTTAAGAAACTATCACGACGGTGATGATTCTAATAACTTGTCTATCAAGAAATCGAAGACCACGAAGATGGAGAATAACTGTCGAGAAATCGTTCCTTTGGATGTAACACCATTGTCGATCGTGCCACCGGACACTCCAAAGCTCTCTAGACAGTTTTGGAAAGCTGGCGATGATGATGAAGCTGCGCCTGTACCTCTTTATTGTAGCAATGATGCGGCGGTTAGGGTTCATCCTCAATTTCTTCATGCAAACGCCACAAGCCACAAATGGGCTCTTGGAGCTTTAGCTGAACTTCTAGACAATTCTCTTGACGAGGTAAGTAATGGGGCTACATATGTTCATGTTGATTCGACAATAAATAAAAGAGACGGAAAAAGCAGCATTCTTATAGTTGAAGACAATGGAGGTGGGATGAATCCGAGTACGTTTAGAGAGTGCCTTTCTTTGGGGTATTCAAGGAAACGCAATATGGCTAATAGAGTTGGTCAATATGGGAATGGATTCAAAACTAGTACAATGAGGCTTGGTGCTGATGCAATTGTCTTCTCACGTTCTCGAGGAATCAATGGAAATAATCCGACACAGAGCATTGGTATGCTATCATATACGTTTCTTTACGAGACAAGAAAATGTGAAGCAATTGTCCCCACGGTTGATTATGAGTTGGTAGATAACAAATGGAAGGAGATAGTTTATAACTCCACAAATGAGTGGCTTGATAATTTAGAGACTATATTGAGGTGGTCGCCTTATCTATCCCAACAAGATTTATTGGACCAGTTTAATCACCTAGAAGAGCAAGGTACTCGGATCGTGATTTATAACTTATGGGAAGATGATGAAGGGAAGATGGAACTTGATTTTGATACAGATCCTCATGATATTCAACTCAGAGGTGTGAACAGAGATGAGAAGAACATCGATATGGCTAAAACTTATCCTAACTCAAGGCATTTCCTGACTTATCGACACTCGCTACGTAGTTATGCATCAATTCTGTACCTCAAACGTCCGGATAATTTCAGAATCATTCTTCGTGGCGAAGATGTCGAACATCACAGCGTCTTAGACGACATGATGAAGATTGAAGAGAAAACATACAAACCTATGCGTTCTCCAGAATGGCCAGATCAAGAAGAGATGGTTGCTTCTCTAAAGCTTGGCTTTGTGAAAGATGCTCATCATCACATCGACATACAAGGTTTCAATGTTTACCATAAGAACCGGCTTATCAAGCCATTTTGGAGGGTTTGGAATGCTGCTGGAAGTGATGGACGTGGCGTTATTGGAATATTGGAAGCTAATTTCATACAACCAGCTCATAATAAGCAAGGATTTGAGCGAACCGTCGTTCTTGCTAAACTCGAAAGCCGATTGGTCACACACCAAAAGAACTATTGGTCTTCAAGGTGTCACGAAATTGGTTATGCTCCAAGAAGGAAACAAAAGAATTATGAAAGTAGCGTTACAGAAACCCCTCGACCTTTCAACAACATAAACGTTGTTAAGGGATCTTCTTCTAGTACTCCAGTACCAGTTCGAGTATTCAGGCCAAATGTTGAACCATCTGGAAGAAACCAAATCCCTCAGGTTGAAACACGAGAAAGGAGTTTTGACATCAATCCTGAGATCGGGGCTAAGAACAGAAGCTATTATGGGCTTGGGATAAGTAGTTTCAAAGAAACAGGCTCAGTTAATCTAGAAGCAGAGTTGCAGAAGGTGAAACAGGAATCAGCCAAACTAGTCTCTGAGCTGCAGAGACAAAAACAACTGCTTGAGTTGCAACTCCAGGAGTCAAAAGCTAAGATCCAAAACTTGGAAAAGGCGCAGAGGGAGAAAGAAGTGCTTGAGTTGCAACTTAAGGAGTCAAAAGCTAGGATCCAAAACTTGGAAAATCGGCAGGAGGGAGTAAGTACTATCTTTCAACAAGAAAGAGCCCGCAGAGATGTAACTGAGGATGGCTTAAGGAAAAAACTACGGGAAGCTTCTGATGTCATCGATGGGCTAAGGAAGCAAGTGGATACCTTCAAAGGAAAACGCATTTTGTAAACACAGTTTCAAGATCAGTACTCTTTTCTAGTTTGTTTTTTTGGTTTTAAGTTTTAAGGGTTTGTACATAAACTTCTCTCCTTAAGCAGAATGTAATGTATATTATGTAGACTTAGGGACTTTTGTGAAAGACCCCAACTCAAAATGTAAGCAGGCAGTGGTTTTTTGCTAATCAAGGTCAAGCATGCATATC
- >AT5G13130.2 GTGTGTCGTGCGTGTCTCACGTCTCTCTCTCCTCTCTCCCACTTCAAGCTGCTTCAAAACCCTAGAAGCTTCTACTGCAACCACGGATTCTTCTCAAATCAAGTCCAATAAACCACTGTTAGTGATCGGAGACATGGCCGAATCTGGCAGTACTAACCCTAAATCCCCATCCGTTGTTCCCGATTCGACTCTCGGTGGACTGAAGAGAGATTTAAGAAACTATCACGACGGTGATGATTCTAATAACTTGTCTATCAAGAAATCGAAGACCACGAAGATGGAGAATAACTGTCGAGAAATCGTTCCTTTGGATGTAACACCATTGTCGATCGTGCCACCGGACACTCCAAAGCTCTCTAGACAGTTTTGGAAAGCTGGCGATGATGATGAAGCTGCGCCTGTACCTCTTTATTGTAGCAATGATGCGGCGGTTAGGGTTCATCCTCAATTTCTTCATGCAAACGCCACAAGCCACAAATGGGCTCTTGGAGCTTTAGCTGAACTTCTAGACAATTCTCTTGACGAGGTAAGTAATGGGGCTACATATGTTCATGTTGATTCGACAATAAATAAAAGAGACGGAAAAAGCAGCATTCTTATAGTTGAAGACAATGGAGGTGGGATGAATCCGAGTACGTTTAGAGAGTGCCTTTCTTTGGGGTATTCAAGGAAACGCAATATGGCTAATAGAGTTGGTCAATATGGGAATGGATTCAAAACTAGTACAATGAGGCTTGGTGCTGATGCAATTGTCTTCTCACGTTCTCGAGGAATCAATGGAAATAATCCGACACAGAGCATTGGTATGCTATCATATACGTTTCTTTACGAGACAAGAAAATGTGAAGCAATTGTCCCCACGGTTGATTATGAGTTGGTAGATAACAAATGGAAGGAGATAGTTTATAACTCCACAAATGAGTGGCTTGATAATTTAGAGACTATATTGAGGTGGTCGCCTTATCTATCCCAACAAGATTTATTGGACCAGTTTAATCACCTAGAAGAGCAAGGTACTCGGATCGTGATTTATAACTTATGGGAAGATGATGAAGGGAAGATGGAACTTGATTTTGATACAGATCCTCATGATATTCAACTCAGAGGTGTGAACAGAGATGAGAAGAACATCGATATGGCTAAAACTTATCCTAACTCAAGGCATTTCCTGACTTATCGACACTCGCTACGTAGTTATGCATCAATTCTGTACCTCAAACGTCCGGATAATTTCAGAATCATTCTTCGTGGCGAAGATGTCGAACATCACAGCGTCTTAGACGACATGATGAAGATTGAAGAGAAAACATACAAACCTATGCGTTCTCCAGAATGGCCAGATCAAGAAGAGATGGTTGCTTCTCTAAAGCTTGGCTTTGTGAAAGATGCTCATCATCACATCGACATACAAGGTTTCAATGTTTACCATAAGAACCGGCTTATCAAGCCATTTTGGAGGGTTTGGAATGCTGCTGGAAGTGATGGACGTGGCGTTATTGGAATATTGGAAGCTAATTTCATACAACCAGCTCATAATAAGCAAGGATTTGAGCGAACCGTCGTTCTTGCTAAACTCGAAAGCCGATTGGTCACACACCAAAAGAACTATTGGTCTTCAAGGTGTCACGAAATTGGTTATGCTCCAAGAAGGAAACAAAAGAATTATGAAAGTAGCGTTACAGAAACCCCTCGACCTTTCAACAACATAAACGTTGTTAAGGGATCTTCTTCTAGTACTCCAGTACCAGTTCGAGTATTCAGGCCAAATGTTGAACCATCTGGAAGAAACCAAATCCCTCAGGTTGAAACACGAGAAAGGAGTTTTGACATCAATCCTGAGATCGGGGCTAAGAACAGAAGCTATTATGGGCTTGGGATAAGTAGTTTCAAAGAAACAGGCTCAGTTAATCTAGAAGCAGAGTTGCAGAAGGTGAAACAGGAATCAGCCAAACTAGTCTCTGAGCTGCAGAGACAAAAACAACTGCTTGAGTTGCAACTCCAGGAGTCAAAAGCTAAGATCCAAAACTTGGAAAAGGCGCAGAGGGAGAAAGAAGTGCTTGAGTTGCAACTTAAGGAGTCAAAAGCTAGGATCCAAAACTTGGAAAATCGGCAGGAGGGAGTAAGTACTATCTTTCAACAAGAAAGAGCCCGCAGAGATGTAACTGAGGATGGCTTAAGGAAAAAACTACGGGAAGCTTCTGATGTCATCGATGGGCTAAGGAAGCAAGTGGATACCTTCAAAGGAAAACGCATTTTGTAAACACAGTTTCAAGATCAGTACTCTTTTCTAGTTTGTTTTTTTGGTTTTAAGTTTTAAGGGTTTGTACATAAACTTCTCTCCTTAAGCAGAATGTAATGTATATTATGTAGACTTAGGGACTTTTGTGAAAGACCCCAACTCAAAATGTAAGCAGGCAGTGGTTTTTTGCTAATCAAGGTCAAGCATGCATATC
CDS Sequence
Protein Sequence