Information report for AT4G29730
Gene Details
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Functional Descriptions
Functional Keywords
Literature and News
- Arabidopsis MSI1 is required for epigenetic maintenance of reproductive development. DOI: 10.1242/dev.00470 ; PMID: 12736201
- Characterization of Arabidopsis and rice DWD proteins and their roles as substrate receptors for CUL4-RING E3 ubiquitin ligases. DOI: 10.1105/tpc.107.055418 ; PMID: 18223036
- Arabidopsis DDB1-CUL4 ASSOCIATED FACTOR1 forms a nuclear E3 ubiquitin ligase with DDB1 and CUL4 that is involved in multiple plant developmental processes. DOI: 10.1105/tpc.108.058891 ; PMID: 18552200
- Global analysis of Arabidopsis gene expression uncovers a complex array of changes impacting pathogen response and cell cycle during geminivirus infection. DOI: 10.1104/pp.108.121038 ; PMID: 18650403
- AGRONOMICS1: a new resource for Arabidopsis transcriptome profiling. DOI: 10.1104/pp.109.150185 ; PMID: 20032078
- Arabidopsis homologs of retinoblastoma-associated protein 46/48 associate with a histone deacetylase to act redundantly in chromatin silencing. DOI: 10.1371/journal.pgen.1002366 ; PMID: 22102827
- Arabidopsis PWWP domain proteins mediate H3K27 trimethylation on FLC and regulate flowering time. DOI: 10.1111/jipb.12630 ; PMID: 29314758
- The DREAM complex represses growth in response to DNA damage in Arabidopsis. DOI: 10.26508/lsa.202101141 ; PMID: 34583930
- Characterization of Arabidopsis and rice DWD proteins and their roles as substrate receptors for CUL4-RING E3 ubiquitin ligases. DOI: 10.1105/tpc.107.055418 ; PMID: 18223036
- Arabidopsis DDB1-CUL4 ASSOCIATED FACTOR1 forms a nuclear E3 ubiquitin ligase with DDB1 and CUL4 that is involved in multiple plant developmental processes. DOI: 10.1105/tpc.108.058891 ; PMID: 18552200
Gene Resources
- UniProt: A0A654FUH5
- EMBL: CACRSJ010000109
- AlphaFoldDB: A0A654FUH5
- EnsemblPlants: AT4G29730.1
- Gramene: AT4G29730.1
- KEGG: ath:AT4G29730
- Orthologous matrix: HQPRSTE
Sequences
cDNA Sequence
- >AT4G29730.1
GTTTACTCCACGTGGCATAAATAATAATATTATAAAAAAAACAAAGGAGAGTAGAGAGAAAACGAGAGAAAAGAAGGAAATGGAAAGCGAAGCAGCAGCGACTGTTCAAGCCACCAGGCCGAGAAGAGCACCTAGGACTCCGGTGACAGCCATTTTGACGGATAAGAGAAGACGGAAACCTAAGAGCAACAACGAGTCTCAGTTACCATTTTTGCTACAGCAGAGTCAAAAGGCCACCGTTGACGACACTTACTCTCAGTGGAAGACTCTTCTTCCCATTCTCTATGATTCGTTTGTTAATCATACCCTCGTCTGGCCCTCTCTCTCTTGCAGATGGGGGCCACAGCTTGAGCAAGCAGGTTCTAAGACTCAACGTCTCTATCTCTCGGAACAAACGAATGGCAGTGTGCCTAATACTTTGGTCATAGCCAATTGCGAAACTGTTAATAGGCAGCTTAATGAAAAGGCACACTCTCCATTTGTGAAGAAGTACAAGACCATCATCCACCCTGGAGAGGTCAACAGAATTAGGGAACTCCCTCAAAATAGCAAGATTGTAGCTACTCACACCGACAGTCCTGATATTCTCATTTGGAACACTGAGACTCAACCAGACCGGTATGCTGTGCTTGGAGCTCCAGATTCTCGTCCAGATTTGTTACTAATTGGGCACCAGGATGATGCTGAATTTGCTCTTGCAATGTGCCCAACCGAACCTTTTGTTCTCTCTGGAGGCAAGGACAAGTCCGTTATTTTGTGGAATATCCAAGACCATATCACAATGGCTGGTTCGGATTCCAAATCCCCTGGATCCAGCTTCAAGCAGACTGGTGAAGGTAGTGATAAAACTGGTGGTCCTTCTGTTGGCCCTCGAGGCATATATAATGGCCACAAAGATACTGTTGAAGACGTGGCATTCTGTCCATCTAGTGCACAAGAATTCTGCAGTGTTGGTGACGATTCTTGCCTTATGCTATGGGACGCAAGAACTGGCACTAGTCCTGCCATGAAGGTTGAGAAGGCACATGATGCTGATCTTCACTGTGTCGATTGGAATCCTCATGACAATAATCTGATCCTGACTGGGTCAGCAGATAACACTGTCCGTGTGTTTGACCGCCGAAACCTTACCTCAAATGGAGTTGGTTCACCTGTTTACAAATTTGAAGGCCACAGAGCTGCTGTTCTTTGTGTTCAGTGGTCTCCTGATAAATCATCTGTTTTTGGGAGTTCTGCAGAAGATGGTCTCTTGAACATATGGGATTGTGATAGGGTTGGCAAGAAGTCTGAGCGTGCAACCAAAACTCCTGATGGGCTTTTCTTCCAGCATGCTGGTCACAGGGACAAAGTGGTCGACTTCCACTGGAGCCTATTGAACCCTTGGACTATTGTCAGTGTTTCTGATAATTGTGAGAGTATCGGTGGAGGTGGTACATTGCAGATATGGCGGATGAGTGACTTGATTTACAGACCGGAAGATGAAGTCCTGACAGAGCTAGAGAAATTCAAGTCACATGTTTTCACATGTACCTCCAAGTCTTGAGGAAGCAATCCCATCATGTCTATTAGTATTAGTAAGTTGCTGGGGTTTAGTGTCAGTTTTTGCGAGGAAAATCAGTTTACTTATGCGATTTAGGTGTTATTTTTGCGGAATATTACTTGGTTTATGTAGGCCAGTAATTCAACATATTGGTAGATTTAGGACTTCCGGAATCTTGTATGGTACTTGATCCTGTTTCTTCAGGTTAATCCTAGGCACCTAACTTGCTTGTATTTTCAACTTTTTTTTTTGTGAATCCAAACTTGGTTAAGCAAGACCAAACTAAAACAACAGATTGAATCAGTGAAATCCAAATCTCAAGTGCTTGACA - >AT4G29730.2
GTTTACTCCACGTGGCATAAATAATAATATTATAAAAAAAACAAAGGAGAGTAGAGAGAAAACGAGAGAAAAGAAGGAAATGGAAAGCGAAGCAGCAGCGACTGTTCAAGCCACCAGGCCGAGAAGAGCACCTAGGACTCCGGTGACAGCCATTTTGACGGATAAGAGAAGACGGAAACCTAAGAGCAACAACGAGTCTCAGTTACCATTTTTGCTACAGCAGAGTCAAAAGGCCACCGTTGACGACACTTACTCTCAGTGGAAGACTCTTCTTCCCATTCTCTATGATTCGTTTGTTAATCATACCCTCGTCTGGCCCTCTCTCTCTTGCAGATGGGGGCCACAGCTTGAGCAAGCAGGTTCTAAGACTCAACGTCTCTATCTCTCGGAACAAACGAATGGCAGTGTGCCTAATACTTTGGTCATAGCCAATTGCGAAACTGTTAATAGGCAGCTTAATGAAAAGGCACACTCTCCATTTGTGAAGAAGTACAAGACCATCATCCACCCTGGAGAGGTCAACAGAATTAGGGAACTCCCTCAAAATAGCAAGATTGTAGCTACTCACACCGACAGTCCTGATATTCTCATTTGGAACACTGAGACTCAACCAGACCGGTATGCTGTGCTTGGAGCTCCAGATTCTCGTCCAGATTTGTTACTAATTGGGCACCAGGATGATGCTGAATTTGCTCTTGCAATGTGCCCAACCGAACCTTTTGTTCTCTCTGGAGGCAAGGACAAGTCCGTTATTTTGTGGAATATCCAAGACCATATCACAATGGCTGGTTCGGATTCCAAATCCCCTGGATCCAGCTTCAAGCAGACTGGTGAAGGTAGTGATAAAACTGGTGGTCCTTCTGTTGGCCCTCGAGGCATATATAATGGCCACAAAGATACTGTTGAAGACGTGGCATTCTGTCCATCTAGTGCACAAGAATTCTGCAGTGTTGGTGACGATTCTTGCCTTATGCTATGGGACGCAAGAACTGGCACTAGTCCTGCCATGAAGGTTGAGAAGGCACATGATGCTGATCTTCACTGTGTCGATTGGAATCCTCATGACAATAATCTGATCCTGACTGGGTCAGCAGATAACACTGTCCGTGTGTTTGACCGCCGAAACCTTACCTCAAATGGAGTTGGTTCACCTGTTTACAAATTTGAAGGCCACAGAGCTGCTGTTCTTTGTGTTCAGTGGTCTCCTGATAAATCATCTGTTTTTGGGAGTTCTGCAGAAGATGGTCTCTTGAACATATGGGATTGTGATAGGGTTGGCAAGAAGTCTGAGCGTGCAACCAAAACTCCTGATGGGCTTTTCTTCCAGCATGCTGGTCACAGGGACAAAGTGGTCGACTTCCACTGGAGCCTATTGAACCCTTGGACTATTGTCAGTGTTTCTGATAATTGTGAGAGTATCGGTGGAGGTGGTACATTGCAGATATGGCGGATGAGTGACTTGATTTACAGACCGGAAGATGAAGTCCTGACAGAGCTAGAGAAATTCAAGTCACATGTTTTCACATGTACCTCCAAGTCTTGAGGAAGCAATCCCATCATGTCTATTAGTATTAGTAAGTTGCTGGGGTTTAGTGTCAGTTTTTGCGAGGAAAATCAGTTTACTTATGCGATTTAGGTGTTATTTTTGCGGAATATTACTTGGTTTATGTAGGCCAGTAATTCAACATATTGGTAGATTTAGGACTTCCGGAATCTTGTATGGTACTTGATCCTGTTTCTTCAGGTTAATCCTAGGCACCTAACTTGCTTGTATTTTCAACTTTTTTTTTTGTGAATCCAAACTTGGTTAAGCAAGACCAAACTAAAACAACAGATTGAATCAGTGAAATCCAAATCTCAAGTGCTTGACA - >AT4G29730.3
GTTTACTCCACGTGGCATAAATAATAATATTATAAAAAAAACAAAGGAGAGTAGAGAGAAAACGAGAGAAAAGAAGGAAATGGAAAGCGAAGCAGCAGCGACTGTTCAAGCCACCAGGCCGAGAAGAGCACCTAGGACTCCGGTGACAGCCATTTTGACGGATAAGAGAAGACGGAAACCTAAGAGCAACAACGAGTCTCAGTTACCATTTTTGCTACAGCAGAGTCAAAAGGCCACCGTTGACGACACTTACTCTCAGTGGAAGACTCTTCTTCCCATTCTCTATGATTCGTTTGTTAATCATACCCTCGTCTGGCCCTCTCTCTCTTGCAGATGGGGGCCACAGCTTGAGCAAGCAGGTTCTAAGACTCAACGTCTCTATCTCTCGGAACAAACGAATGGCAGTGTGCCTAATACTTTGGTCATAGCCAATTGCGAAACTGTTAATAGGCAGCTTAATGAAAAGGCACACTCTCCATTTGTGAAGAAGTACAAGACCATCATCCACCCTGGAGAGGTCAACAGAATTAGGGAACTCCCTCAAAATAGCAAGATTGTAGCTACTCACACCGACAGTCCTGATATTCTCATTTGGAACACTGAGACTCAACCAGACCGGTATGCTGTGCTTGGAGCTCCAGATTCTCGTCCAGATTTGTTACTAATTGGGCACCAGGATGATGCTGAATTTGCTCTTGCAATGTGCCCAACCGAACCTTTTGTTCTCTCTGGAGGCAAGGACAAGTCCGTTATTTTGTGGAATATCCAAGACCATATCACAATGGCTGGTTCGGATTCCAAATCCCCTGGATCCAGCTTCAAGCAGACTGGTGAAGGTAGTGATAAAACTGGTGGTCCTTCTGTTGGCCCTCGAGGCATATATAATGGCCACAAAGATACTGTTGAAGACGTGGCATTCTGTCCATCTAGTGCACAAGAATTCTGCAGTGTTGGTGACGATTCTTGCCTTATGCTATGGGACGCAAGAACTGGCACTAGTCCTGCCATGAAGGTTGAGAAGGCACATGATGCTGATCTTCACTGTGTCGATTGGAATCCTCATGACAATAATCTGATCCTGACTGGGTCAGCAGATAACACTGTCCGTGTGTTTGACCGCCGAAACCTTACCTCAAATGGAGTTGGTTCACCTGTTTACAAATTTGAAGGCCACAGAGCTGCTGTTCTTTGTGTTCAGTGGTCTCCTGATAAATCATCTGTTTTTGGGAGTTCTGCAGAAGATGGTCTCTTGAACATATGGGATTGTGATAGGGTTGGCAAGAAGTCTGAGCGTGCAACCAAAACTCCTGATGGGCTTTTCTTCCAGCATGCTGGTCACAGGGACAAAGTGGTCGACTTCCACTGGAGCCTATTGAACCCTTGGACTATTGTCAGTGTTTCTGATAATTGTGAGAGTATCGGTGGAGGTGGTACATTGCAGATATGGCGGATGAGTGACTTGATTTACAGACCGGAAGATGAAGTCCTGACAGAGCTAGAGAAATTCAAGTCACATGTTTTCACATGTACCTCCAAGTCTTGAGGAAGCAATCCCATCATGTCTATTAGTATTAGTAAGTTGCTGGGGTTTAGTGTCAGTTTTTGCGAGGAAAATCAGTTTACTTATGCGATTTAGGTGTTATTTTTGCGGAATATTACTTGGTTTATGTAGGCCAGTAATTCAACATATTGGTAGATTTAGGACTTCCGGAATCTTGTATGGTACTTGATCCTGTTTCTTCAGGTTAATCCTAGGCACCTAACTTGCTTGTATTTTCAACTTTTTTTTTTGTGAATCCAAACTTGGTTAAGCAAGACCAAACTAAAACAACAGATTGAATCAGTGAAATCCAAATCTCAAGTGCTTGACA
CDS Sequence
Protein Sequence