Gene Details:
- Gene ID: AT5G22470
- Gene Symbol: AtPARP3, PARP3
- Gene Name: Poly(ADP-Ribose) Polymerase 3
- Description: poly ADP-ribose polymerase 3;(source:Araport11)
- TAIR Accession:
- Genome: Araport11_genome_release
- Species: Arabidopsis thaliana
Transcripts:
Germplasm Phenotype:
- parp3-1 — No observed increase in stress tolerance. On agar plates containing 100 mM mannitol, root growth and shoot fresh weight of the double mutants was not di
Literature:
- Computational and experimental analysis identifies Arabidopsis genes specifically expressed during early seed development. DOI: 10.1186/1471-2164-7-38 ; PMID: 16504176
- Nicotinamidase activity is important for germination. DOI: 10.1111/j.1365-313X.2007.03151.x ; PMID: 17587307
- Analysis of poly(ADP-Ribose) polymerases in Arabidopsis telomere biology. DOI: 10.1371/journal.pone.0088872 ; PMID: 24551184
- Arabidopsis PARG1 is the key factor promoting cell survival among the enzymes regulating post-translational poly(ADP-ribosyl)ation. DOI: 10.1038/srep15892 ; PMID: 26516022
- Analysis of knockout mutants reveals non-redundant functions of poly(ADP-ribose)polymerase isoforms in Arabidopsis. DOI: 10.1007/s11103-015-0363-5 ; PMID: 26428915
- Canonical Poly(ADP-Ribose) Polymerases (PARPs) Are No Universal Factors of Abiotic and Biotic Stress Resistance of Arabidopsis thaliana. DOI: 10.3389/fpls.2017.00059 ; PMID: 28220129
- New perspectives on the plant PARP family: Arabidopsis PARP3 is inactive, and PARP1 exhibits predominant poly (ADP-ribose) polymerase activity in response to DNA damage. DOI: 10.1186/s12870-019-1958-9 ; PMID: 31426748
- The Arabidopsis thaliana Poly(ADP-Ribose) Polymerases 1 and 2 Modify DNA by ADP-Ribosylating Terminal Phosphate Residues. DOI: 10.3389/fcell.2020.606596 ; PMID: 33324653
Sequence:
cDNA Sequence
- >AT5G22470.1 GTCTCTCTAAAACACTCGAAAACAAAACTTAGTTGTGTGATCTTTGGTTTCCTTGAAATCATACAGTTCAAAGAGTTTGCTCAATGAAGGTTCACGAGACAAGATCTCACGCTCACATGTCTGGAGACGAACAAAAGAAGGGAAATTTGCGGAAGCACAAAGCAGAAGGGAAACTTCCAGAATCTGAACAGTCTCAGAAGAAGGCAAAGCCTGAAAACGATGACGGACGTTCTGTCAACGGCGCCGGAGATGCTGCTTCAGAGTACAATGAGTTCTGCAAAGCGGTTGAGGAGAATCTGTCCATTGATCAGATTAAAGAAGTTCTCGAAATCAACGGCCAAGATTGTTCTGCTCCAGAAGAGACCTTGCTAGCTCAATGTCAAGATTTGCTGTTCTATGGGGCATTAGCTAAATGTCCTTTATGCGGAGGAACTTTAATTTGCGACAATGAAAAGAGATTTGTATGTGGAGGTGAGATAAGTGAGTGGTGCAGTTGCGTGTTTAGTACGAAAGATCCTCCTAGAAAGGAAGAGCCAGTTAAAATCCCTGATTCTGTCATGAACTCTGCTATATCTGACTTGATCAAGAAACACCAGGACCCTAAAAGCCGACCTAAAAGAGAGTTAGGCTCTGCTGATAAACCCTTTGTGGGAATGATGATCTCTCTCATGGGACGTCTCACGAGAACACATCAATATTGGAAGAAAAAGATCGAGAGAAACGGTGGGAAAGTCTCCAATACTGTTCAAGGCGTAACATGTTTGGTGGTTTCGCCAGCTGAAAGAGAACGAGGTGGTACGTCAAAGATGGTGGAGGCAATGGAACAAGGTCTACCGGTTGTGAGCGAAGCATGGTTGATCGACAGCGTGGAGAAGCATGAAGCTCAGCCACTTGAAGCTTATGACGTGGTCAGTGATCTTTCAGTGGAAGGGAAAGGAATTCCATGGGATAAGCAAGATCCTAGTGAGGAGGCAATTGAATCCTTTTCTGCTGAGCTCAAAATGTATGGGAAAAGAGGAGTGTACATGGACACAAAACTTCAGGAGAGAGGAGGAAAGATCTTCGAGAAAGATGGACTCTTGTATAACTGTGCCTTCTCGATATGCGATTTGGGAAAAGGGCGTAATGAGTATTGTATTATGCAGCTAGTCACGGTACCCGATAGTAACCTGAACATGTACTTCAAGAGAGGGAAAGTAGGAGATGACCCTAATGCCGAAGAGAGGCTCGAGGAATGGGAGGACGAAGAAGCTGCGATCAAAGAGTTTGCAAGGCTTTTTGAGGAGATAGCAGGGAATGAGTTTGAGCCATGGGAACGTGAGAAGAAGATTCAAAAGAAGCCTCATAAGTTTTTCCCAATTGATATGGATGATGGAATCGAAGTAAGGAGTGGGGCTCTTGGTCTAAGGCAGCTTGGCATTGCTTCTGCTCATTGCAAGCTTGATTCGTTTGTTGCAAACTTCATTAAAGTTCTGTGTGGTCAAGAGATTTACAATTACGCGTTGATGGAGCTTGGATTGGATCCGCCCGATCTACCTATGGGAATGCTAACTGATATCCACTTGAAACGATGCGAAGAGGTATTACTCGAGTTTGTTGAGAAGGTCAAAACAACAAAAGAGACAGGTCAGAAAGCTGAAGCAATGTGGGCAGACTTCAGCTCACGATGGTTCTCTTTGATGCACAGCACTAGGCCGATGCGATTACACGATGTCAATGAACTTGCAGACCATGCGGCCTCTGCTTTTGAGACGGTGAGGGACATAAACACAGCATCTCGTTTGATAGGGGACATGCGAGGAGACACACTCGATGATCCGTTGTCTGATAGGTACAAAAAACTTGGCTGCAAGATATCTGTGGTAGACAAAGAGTCTGAAGATTACAAGATGGTTGTGAAGTATCTCGAGACTACTTATGAGCCTGTGAAAGTCTCTGATGTTGAGTACGGTGTGTCAGTGCAGAATGTTTTTGCGGTTGAGTCAGATGCAATTCCTTCATTAGATGATATCAAGAAGTTACCAAATAAGGTCCTTTTATGGTGTGGGTCTCGGAGCTCAAATCTATTGAGACATATCTACAAAGGGTTCTTACCTGCTGTATGCTCTCTTCCGGTTCCTGGTTATATGTTTGGGAGAGCGATAGTGTGTTCAGATGCAGCTGCAGAAGCAGCAAGGTATGGTTTTACGGCTGTGGATAGACCAGAAGGGTTTCTTGTATTAGCCGTAGCATCACTTGGTGAGGAAGTTACAGAATTTACAAGTCCACCAGAGGATACGAAGACGTTGGAAGATAAAAAGATTGGAGTGAAAGGATTAGGGAGGAAGAAAACTGAAGAGTCGGAGCATTTCATGTGGAGAGATGACATAAAAGTTCCTTGTGGACGGTTGGTTCCATCGGAACATAAGGACAGTCCACTTGAGTACAACGAGTACGCGGTTTATGATCCGAAACAGACAAGTATAAGGTTCTTGGTGGAAGTGAAGTACGAGGAGAAGGGAACTGAGATAGTCGATGTCGAACCAGAGTAGATTACAGACAGCCGTTTCTGATTTTTTGAGGTTACAGGCGGCGAGAAGCCATGGAAGAAGATGGTTTTTTGGTGTTTCGTGTTTTCATGTTTTCTTTTCTAGGTTGTGAATGTAAAAGAAATGGCTTCTTCTCTTATGATGGTTTTAAGGAAACTAGTTTAGCTATATAACTACTGCTGTGTAAAGCTTTTGGCTATGTAAATAGATTTACGCGATAATATGTACTCCCTACTGTTTTAAAGTTCTTTGGTAACAACAAAAAGTAGACTACTCTTTTTGGAAAGAAGTTTATGATAATTGTTCATC
CDS Sequence
Protein Sequence