Gene Details:
- Gene ID: AT5G41360
- Gene Symbol: ATXPB2, XPB2
- Gene Name: ARABIDOPSIS HOMOLOG OF XERODERMA PIGMENTOSUM COMPLEMENTATION GROUP B 2, homolog of Xeroderma pigmentosum complementation group B 2
- Description: homolog of Xeroderma pigmentosum complementation group B 2;(source:Araport11)
- TAIR Accession:
- Genome: Araport11_genome_release
- Species: Arabidopsis thaliana
Transcripts:
Plant Ontology Annotations:
- PO:0000003 — whole plant — planta entera (Spanish, exact), 植物体全体 (Japanese, exact), clonal colony (related), colony (related), bush (narrow), frutex (narrow), frutices (narrow), gametophyte (narrow), herb (narrow), liana (narrow), prothalli (narrow), prothallium (narrow), prothallus (narrow), seedling (narrow), shrub (narrow), sporophyte (narrow), suffrutex (narrow), suffrutices (narrow), tree (narrow), vine (narrow), woody clump (narrow), genet (broad), ramet (broad)
Function-related keywords:
Literature:
- Analysis of the genome sequence of the flowering plant Arabidopsis thaliana. DOI: 10.1038/35048692 ; PMID: 11130711
- Arabidopsis UVH6, a homolog of human XPD and yeast RAD3 DNA repair genes, functions in DNA repair and is essential for plant growth. DOI: 10.1104/pp.103.021808 ; PMID: 12857822
- Unexpected protein families including cell defense components feature in the N-myristoylome of a higher eukaryote. DOI: 10.1074/jbc.M307321200 ; PMID: 12912986
- Components of nucleotide excision repair and DNA damage tolerance in Arabidopsis thaliana. DOI: 10.1002/em.20094 ; PMID: 15645454
- AGRONOMICS1: a new resource for Arabidopsis transcriptome profiling. DOI: 10.1104/pp.109.150185 ; PMID: 20032078
- Unexpected protein families including cell defense components feature in the N-myristoylome of a higher eukaryote. DOI: 10.1074/jbc.M307321200 ; PMID: 12912986
- Components of nucleotide excision repair and DNA damage tolerance in Arabidopsis thaliana. DOI: 10.1002/em.20094 ; PMID: 15645454
Sequences:
cDNA Sequence
- >AT5G41360.1
AACAATTTCCTTCCTCCGCTTCAAACGAGTCACCGACTCGACACAGGAATCCGAATTCGCCGGAGACGCAGCTTGCTTCGTTGAATAGCTTACAACGGGAAATTACCACGAAGACGGTTGTATATTCCCTCCGTCGTACAATTTAGGTTATGTGCGAATTCACAAATTGAAAATACAAGAGAAACAATCCCTAAAATCGATTTGATTAAGAGGAGCGAAAAGAAGAAAATCAATATGGGAAACGATGAAAGAAAACGACCTACAAAGAAGATGAAGTACGGTGGGAAGGATGATCAAAAGATGAAGAACATACAAAACGTTGAAGATTACTATGATGATGCTGATGAGGATTCTCGTGATGGTGAAGGAGAGGAGAAGAGGAGAGATTTTACTGATTTGGAGTTGAAGCCGGATCATGGAAATAGGCCTTTGTGGGCTTGTGCTGATGGAAAGATTTTCTTGGAGACATTTTCTCCTCTCTATAAACAAGCTTATGACTTTCTTATCGCCATTGCTGAACCCGTTTGCAGGCCTGAGTCAATGCACGAGTATAATTTAACCCCACACTCGTTGTATGCTGCTGTTTCCGTTGGTCTTGAGACAGAAACTATCATCTCTGTTTTGAATAAGCTATCTAAGACCAAGCTACCCGGGGAGATCATTGATTTCATCCATGCTTCTACTGCTAATTATGGGAAAGTGAAGTTGGTATTGAAGAAAAATCGGTATTTTATTGAATCACCATTCCCGGAGGTGTTGAAAAGGCTTCTCAGTGATGATGTCATAAATCGAGCAAGATTTACTTCTGAGCCATATTATGGTGGTGATGGATTTACGATCGGCAAAACAAGTGGTGAACTTGAAGCAGGACCTGGGGAGTTGTTGAATGAAGCAGAATTGGCAGCAGCAGCAGAAGAGAAAGAAACTCACTCATTTGAGATAGACCCTGCACTGGTGGAGAATGTTAAGCAGCGTTGCTTGCCAAATGCCTTGAATTACCCTATGTTAGAGGAATATGACTTCAGGAACGATAATGTTAATCCTGATCTTGACATGGAACTGAAGCCCCATGCACAACCAAGGCCATACCAGGAAAAAAGTTTGAGCAAAATGTTTGGAAACGGACGAGCAAGATCTGGGATTATAGTGTTACCTTGTGGAGCTGGTAAATCTCTAGTTGGTGTTTCTGCAGCGGCTCGTATAAAGAAGAGTTGTCTTTGTTTGGCAACGAATGCTGTCTCGGTGGATCAATGGGCCTACCAATTTAAGTTGTGGTCTACTATAAAAGATGACCAAATATGCCGTTTCACTTCTGATAGTAAAGAACGATTCCGTGGAAATGCTGGTGTTGTTGTGACAACCTATAATATGATTGCCTTTGGTGGTAAACGATCTGAAGAAGCAGAGAAGATTATAGAAGAAATGAGAAACAGAGAGTGGGGGTTGCTGCTTATGGACGAGGTGCATGTGGTTCCAGCCCATATGTTTAGGAAAGTTATCAGTATTACAAAATCTCACTGCAAGCTAGGACTTACAGCCACCCTTGTGAGAGAAGACGAAAAAATTACAGATTTAAACTTCCTCATTGGCCCGAAACTCTATGAAGCCAATTGGCTAGATTTAGTTAAAGGAGGCTTTATTGCAAATGTTCAGTGTGCTGAAGTATGGTGTCCCATGACCAAAGAGTTTTTTGCAGAATATCTGAAGAAAGAGAACTCGAAAAAAAAACAGGCGCTTTATGTCATGAACCCTAACAAGTTCAGAGCCTGTGAATTTTTGATACGTTTCCATGAACAACAACGTGGGGATAAAATCATCGTCTTTGCAGACAATCTTTTTGCACTTACAGAGTATGCAATGAAACTCCGGAAACCGATGATTTACGGTGCAACCAGCCATATCGAACGAACAAAAATTCTCGAGGCGTTTAAAACCAGTAAAACCGTGAACACTGTATTCCTGTCAAAGGTTGGTGATAACTCCATAGATATCCCTGAAGCGAATGTGATCATCCAGATTTCGTCACATGCTGGTTCTAGACGTCAAGAGGCTCAACGTTTGGGTCGTATCCTTAGGGCTAAGGGTAAACTTGAAGATAGAATGGCTGGTGGAAAAGAAGAGTACAATGCATTCTTCTACTCGCTTGTTTCTACCGATACACAGGAAATGTATTATTCAACGAAAAGACAGCAGTTTTTGATCGACCAAGGTTATAGCTTCAAGGTAATAACAAGCCTCCCACCTCCGGACGCGGGTTCAAGCTTGGGCTACCACAGTCAAGAAGAACAGTTGTCTCTTCTCGGAAAGGTGTTGAATGCTGGAGACGATATGGTTGGTTTAGAACAACTTGAAGAAGACACAGATGGAAAGGCTCTAAAGACGCGACGAAGCATGGGATCGATGAGTGCAATGTCCGGTGCAAATGGAAGGGTCTACATGGAATACAACTCAGGTCGTCAAAAATCTGGTAACCAATCCAAGAAACCTAAAGACCCAACCAAACGACACAATATCTTCAAAAAACGTTATGTTTGAGACAAGAGAACTCATATTCGGCTATATGTTTTGAGTTGTAACTTTGGTGCAAATTTGTTTCAGGCACAAAATCAAGAAAACCTAAACGAAGACACCCTACCTTAAAAGACCGTTAACATTTGATATTTGTTTTATTATGTGAATTGATTAATTGATATTAGAAAGTTCTTTCCTTTTTTTTGATATTTGTTTTCTAGCATATCATG - >AT5G41360.2
AACAATTTCCTTCCTCCGCTTCAAACGAGTCACCGACTCGACACAGGAATCCGAATTCGCCGGAGACGCAGCTTGCTTCGTTGAATAGCTTACAACGGGAAATTACCACGAAGACGGTTGTATATTCCCTCCGTCGTACAATTTAGGTTATGTGCGAATTCACAAATTGAAAATACAAGAGAAACAATCCCTAAAATCGATTTGATTAAGAGGAGCGAAAAGAAGAAAATCAATATGGGAAACGATGAAAGAAAACGACCTACAAAGAAGATGAAGTACGGTGGGAAGGATGATCAAAAGATGAAGAACATACAAAACGTTGAAGATTACTATGATGATGCTGATGAGGATTCTCGTGATGGTGAAGGAGAGGAGAAGAGGAGAGATTTTACTGATTTGGAGTTGAAGCCGGATCATGGAAATAGGCCTTTGTGGGCTTGTGCTGATGGAAAGATTTTCTTGGAGACATTTTCTCCTCTCTATAAACAAGCTTATGACTTTCTTATCGCCATTGCTGAACCCGTTTGCAGGCCTGAGTCAATGCACGAGTATAATTTAACCCCACACTCGTTGTATGCTGCTGTTTCCGTTGGTCTTGAGACAGAAACTATCATCTCTGTTTTGAATAAGCTATCTAAGACCAAGCTACCCGGGGAGATCATTGATTTCATCCATGCTTCTACTGCTAATTATGGGAAAGTGAAGTTGGTATTGAAGAAAAATCGGTATTTTATTGAATCACCATTCCCGGAGGTGTTGAAAAGGCTTCTCAGTGATGATGTCATAAATCGAGCAAGATTTACTTCTGAGCCATATTATGGTGGTGATGGATTTACGATCGGCAAAACAAGTGGTGAACTTGAAGCAGGACCTGGGGAGTTGTTGAATGAAGCAGAATTGGCAGCAGCAGCAGAAGAGAAAGAAACTCACTCATTTGAGATAGACCCTGCACTGGTGGAGAATGTTAAGCAGCGTTGCTTGCCAAATGCCTTGAATTACCCTATGTTAGAGGAATATGACTTCAGGAACGATAATGTTAATCCTGATCTTGACATGGAACTGAAGCCCCATGCACAACCAAGGCCATACCAGGAAAAAAGTTTGAGCAAAATGTTTGGAAACGGACGAGCAAGATCTGGGATTATAGTGTTACCTTGTGGAGCTGGTAAATCTCTAGTTGGTGTTTCTGCAGCGGCTCGTATAAAGAAGAGTTGTCTTTGTTTGGCAACGAATGCTGTCTCGGTGGATCAATGGGCCTACCAATTTAAGTTGTGGTCTACTATAAAAGATGACCAAATATGCCGTTTCACTTCTGATAGTAAAGAACGATTCCGTGGAAATGCTGGTGTTGTTGTGACAACCTATAATATGATTGCCTTTGGTGGTAAACGATCTGAAGAAGCAGAGAAGATTATAGAAGAAATGAGAAACAGAGAGTGGGGGTTGCTGCTTATGGACGAGGTGCATGTGGTTCCAGCCCATATGTTTAGGAAAGTTATCAGTATTACAAAATCTCACTGCAAGCTAGGACTTACAGCCACCCTTGTGAGAGAAGACGAAAAAATTACAGATTTAAACTTCCTCATTGGCCCGAAACTCTATGAAGCCAATTGGCTAGATTTAGTTAAAGGAGGCTTTATTGCAAATGTTCAGTGTGCTGAAGTATGGTGTCCCATGACCAAAGAGTTTTTTGCAGAATATCTGAAGAAAGAGAACTCGAAAAAAAAACAGGCGCTTTATGTCATGAACCCTAACAAGTTCAGAGCCTGTGAATTTTTGATACGTTTCCATGAACAACAACGTGGGGATAAAATCATCGTCTTTGCAGACAATCTTTTTGCACTTACAGAGTATGCAATGAAACTCCGGAAACCGATGATTTACGGTGCAACCAGCCATATCGAACGAACAAAAATTCTCGAGGCGTTTAAAACCAGTAAAACCGTGAACACTGTATTCCTGTCAAAGGTTGGTGATAACTCCATAGATATCCCTGAAGCGAATGTGATCATCCAGATTTCGTCACATGCTGGTTCTAGACGTCAAGAGGCTCAACGTTTGGGTCGTATCCTTAGGGCTAAGGGTAAACTTGAAGATAGAATGGCTGGTGGAAAAGAAGAGTACAATGCATTCTTCTACTCGCTTGTTTCTACCGATACACAGGAAATGTATTATTCAACGAAAAGACAGCAGTTTTTGATCGACCAAGGTTATAGCTTCAAGGTAATAACAAGCCTCCCACCTCCGGACGCGGGTTCAAGCTTGGGCTACCACAGTCAAGAAGAACAGTTGTCTCTTCTCGGAAAGGTGTTGAATGCTGGAGACGATATGGTTGGTTTAGAACAACTTGAAGAAGACACAGATGGAAAGGCTCTAAAGACGCGACGAAGCATGGGATCGATGAGTGCAATGTCCGGTGCAAATGGAAGGGTCTACATGGAATACAACTCAGGTCGTCAAAAATCTGGTAACCAATCCAAGAAACCTAAAGACCCAACCAAACGACACAATATCTTCAAAAAACGTTATGTTTGAGACAAGAGAACTCATATTCGGCTATATGTTTTGAGTTGTAACTTTGGTGCAAATTTGTTTCAGGCACAAAATCAAGAAAACCTAAACGAAGACACCCTACCTTAAAAGACCGTTAACATTTGATATTTGTTTTATTATGTGAATTGATTAATTGATATTAGAAAGTTCTTTCCTTTTTTTTGATATTTGTTTTCTAGCATATCATG
CDS Sequence
Protein Sequence