Information report for AT5G13840
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)
- GO:0031145 — involved in — anaphase-promoting complex-dependent catabolic process
- GO:0005515 — enables — protein binding
- GO:1905786 — involved in — positive regulation of anaphase-promoting complex-dependent catabolic process
- GO:0010997 — enables — anaphase-promoting complex binding
- GO:0005634 — located in — nucleus
- GO:0005680 — part of — anaphase-promoting complex
- GO:1904668 — involved in — positive regulation of ubiquitin protein ligase activity
- GO:1990757 — enables — ubiquitin ligase activator activity
Functional Keywords
Literature and News
- First glance at the plant APC/C, a highly conserved ubiquitin-protein ligase. DOI: 10.1016/S1360-1385(02)00028-6 ; PMID: 12597875
- Inactivation of the chloroplast ATP synthase gamma subunit results in high non-photochemical fluorescence quenching and altered nuclear gene expression in Arabidopsis thaliana. DOI: 10.1074/jbc.M308435200 ; PMID: 14576160
- Global analysis of the core cell cycle regulators of Arabidopsis identifies novel genes, reveals multiple and highly specific profiles of expression and provides a coherent model for plant cell cycle control. DOI: 10.1111/j.1365-313X.2004.02319.x ; PMID: 15686519
- The D-type cyclin CYCD3;1 is limiting for the G1-to-S-phase transition in Arabidopsis. DOI: 10.1105/tpc.105.039636 ; PMID: 16517759
- The Arabidopsis thaliana homolog of yeast BRE1 has a function in cell cycle regulation during early leaf and root growth. DOI: 10.1105/tpc.106.041319 ; PMID: 17329565
- Targeted interactomics reveals a complex core cell cycle machinery in Arabidopsis thaliana. DOI: 10.1038/msb.2010.53 ; PMID: 20706207
- An insight into critical endocycle genes for plant-parasitic nematode feeding sites establishment. DOI: 10.4161/psb.24223 ; PMID: 23518580
Gene Resources
Sequences
cDNA Sequence
- >AT5G13840.2
AAATGAAAAAAAAAAGAAACAAAAAAAGGAAAAAAAAAGAGAGAGATAAAGCTCTCTTCGATTCTTTTGCAATCTTCTCTCCTACGGTTGTTTCAATCTCCGACCAAACCGTGCTTTCGAATAGAACCCAGAAATGGCATCGCCACAGAGTACCAAAACCGGTTTGAATCTTCCCGCAGGGATGAACCAGACTTCGTTGCGTTTAGAAACGTTTTCGAGCTCATTTCGTGGGATTTCGAGTTTATCCTCGCCGTCTAAATCGACTTGCAGCGACAGATTCATACCGTGCAGATCTTCTTCGAGACTCCACGCTTTCGATCTGCAGGATAAGGAACCGACTACCCCGGTTAAAGAGGGAGGGAATGAAGCCTATTCTAGACTTTTGAAATCTGAGCTTTTCGGATCTGATTTTGCTTCTCCTCTTTTGTCTCCTGCAGGTGGTCAAGGATCTGCTTCTTCTCCGATGAGTCCATGTACTAACATGTTGAGATTCAAGACGGATCGTTCCAATTCAAGTCCTAGTTCGCCGTTTTCTCCTTCCATTCTCGGAAATGATAATGGTCACTCCAGTGACTCGTCTCCGCCTCCGAAGCCCCCTCGCAAGGTTCCTAAAACACCTCATAAGGTCTTGGATGCTCCTTCTTTACAAGATGACTTCTACTTGAATGTTGTGGACTGGAGTTCACAGAATGTTCTTGCCGTTGGGCTTGGTACTTGTGTTTATCTTTGGACGGCTTCCAATAGCAAAGTGACTAAGTTATGTGACCTAGGGCCTAATGACAGTGTGTGCTCGGTTCAGTGGACACGGGAAGGTTCATATATATCTATTGGTACAAGTCATGGTCAGGTTCAGGTTTGGGACGGAACACAGTGCAAGAGAGTCCGAACCATGGGAGGTCATCAAACAAGAACTGGTGTCTTGGCATGGAACTCAAGGATCTTATCATCAGGGAGCAGAGACAGAAACATCCTTCAGCATGATATCCGAGTCCAGAGCGATTTTGTCAGCAAACTCGTGGGCCACAAATCTGAAGTCTGCGGTCTGAAATGGTCTCATGATGATAGAGAGCTTGCGTCTGGAGGCAATGATAATCAGTTATTGGTATGGAACAATCATTCACAGCAACCTATTCTGAAGCTGACTGAGCATACAGCAGCGGTTAAGGCAATTACATGGTCTCCTCATCAGAGCAGCCTCCTTGCTTCGGGAGGTGGAACCGCAGACAGATGCATTAGATTCTGGAACACGACAAACGGAAATCAGTTAAACAGCATCGACACTGGGAGCCAGGTCTGCAATCTGGCGTGGAGCAAGAATGTTAACGAGATAGTGAGTACTCATGGATACTCTCAAAACCAAATCATGCTCTGGAAGTACCCATCCATGTCAAAGGTTGCAACACTTACGGGCCACAGTATGAGAGTACTTTACTTGGCTACGTCACCTGATGGCCAGACTATAGTGACCGGAGCAGGAGATGAGACCCTGCGGTTTTGGAACGTCTTTCCTTCAGTAAAAATGCAGACACCAGTGAAAGACACAGGTCTCTGGTCATTGGGGAGGACACAGATCCGATAATAACAGGGAGACATACACAACTGCACAGAGATACAGACAGAGAAGCTGGAATGTAACACGCAAAACCTGCATTCTATTTATTTCATTTGTTCTTTTCCTTTGTAAACTACACAATCCAAGAAAATACTGAATACATCTATAAAAACAAAAGAGTTACCATCGGATTTCC - >AT5G13840.1
AAATGAAAAAAAAAAGAAACAAAAAAAGGAAAAAAAAAGAGAGAGATAAAGCTCTCTTCGATTCTTTTGCAATCTTCTCTCCTACGGTTGTTTCAATCTCCGACCAAACCGTGCTTTCGAATAGAACCCAGAAATGGCATCGCCACAGAGTACCAAAACCGGTTTGAATCTTCCCGCAGGGATGAACCAGACTTCGTTGCGTTTAGAAACGTTTTCGAGCTCATTTCGTGGGATTTCGAGTTTATCCTCGCCGTCTAAATCGACTTGCAGCGACAGATTCATACCGTGCAGATCTTCTTCGAGACTCCACGCTTTCGATCTGCAGGATAAGGAACCGACTACCCCGGTTAAAGAGGGAGGGAATGAAGCCTATTCTAGACTTTTGAAATCTGAGCTTTTCGGATCTGATTTTGCTTCTCCTCTTTTGTCTCCTGCAGGTGGTCAAGGATCTGCTTCTTCTCCGATGAGTCCATGTACTAACATGTTGAGATTCAAGACGGATCGTTCCAATTCAAGTCCTAGTTCGCCGTTTTCTCCTTCCATTCTCGGAAATGATAATGGTCACTCCAGTGACTCGTCTCCGCCTCCGAAGCCCCCTCGCAAGGTTCCTAAAACACCTCATAAGGTCTTGGATGCTCCTTCTTTACAAGATGACTTCTACTTGAATGTTGTGGACTGGAGTTCACAGAATGTTCTTGCCGTTGGGCTTGGTACTTGTGTTTATCTTTGGACGGCTTCCAATAGCAAAGTGACTAAGTTATGTGACCTAGGGCCTAATGACAGTGTGTGCTCGGTTCAGTGGACACGGGAAGGTTCATATATATCTATTGGTACAAGTCATGGTCAGGTTCAGGTTTGGGACGGAACACAGTGCAAGAGAGTCCGAACCATGGGAGGTCATCAAACAAGAACTGGTGTCTTGGCATGGAACTCAAGGATCTTATCATCAGGGAGCAGAGACAGAAACATCCTTCAGCATGATATCCGAGTCCAGAGCGATTTTGTCAGCAAACTCGTGGGCCACAAATCTGAAGTCTGCGGTCTGAAATGGTCTCATGATGATAGAGAGCTTGCGTCTGGAGGCAATGATAATCAGTTATTGGTATGGAACAATCATTCACAGCAACCTATTCTGAAGCTGACTGAGCATACAGCAGCGGTTAAGGCAATTACATGGTCTCCTCATCAGAGCAGCCTCCTTGCTTCGGGAGGTGGAACCGCAGACAGATGCATTAGATTCTGGAACACGACAAACGGAAATCAGTTAAACAGCATCGACACTGGGAGCCAGGTCTGCAATCTGGCGTGGAGCAAGAATGTTAACGAGATAGTGAGTACTCATGGATACTCTCAAAACCAAATCATGCTCTGGAAGTACCCATCCATGTCAAAGGTTGCAACACTTACGGGCCACAGTATGAGAGTACTTTACTTGGCTACGTCACCTGATGGCCAGACTATAGTGACCGGAGCAGGAGATGAGACCCTGCGGTTTTGGAACGTCTTTCCTTCAGTAAAAATGCAGACACCAGTGAAAGACACAGGTCTCTGGTCATTGGGGAGGACACAGATCCGATAATAACAGGGAGACATACACAACTGCACAGAGATACAGACAGAGAAGCTGGAATGTAACACGCAAAACCTGCATTCTATTTATTTCATTTGTTCTTTTCCTTTGTAAACTACACAATCCAAGAAAATACTGAATACATCTATAAAAACAAAAGAGTTACCATCGGATTTCC
CDS Sequence
Protein Sequence