Gene Details:
- Gene ID: AT3G20540
- Gene Symbol: POLGAMMA1, PolIB
- Gene Name: polymerase gamma 1, polymerase I B
- Description: polymerase gamma 1;(source:Araport11)
- TAIR Accession:
- Genome: Araport11_genome_release
- Species: Arabidopsis thaliana
Transcripts:
Plant Ontology Annotations:
- PO:0025281 — pollen — polen (Spanish, exact), pollen grain (exact), 花粉 (Japanese, exact)
Function-related keywords:
Literature:
- Nuclear genes that encode mitochondrial proteins for DNA and RNA metabolism are clustered in the Arabidopsis genome. DOI: 10.1105/tpc.010009 ; PMID: 12837951
- Dual-domain, dual-targeting organellar protein presequences in Arabidopsis can use non-AUG start codons. DOI: 10.1105/tpc.105.035287 ; PMID: 16169894
- pTAC2, -6, and -12 are components of the transcriptionally active plastid chromosome that are required for plastid gene expression. DOI: 10.1105/tpc.105.036392 ; PMID: 16326926
- Divergent roles for the two PolI-like organelle DNA polymerases of Arabidopsis. DOI: 10.1104/pp.111.173849 ; PMID: 21427281
- Arabidopsis thaliana organellar DNA polymerase IB mutants exhibit reduced mtDNA levels with a decrease in mitochondrial area density. DOI: 10.1111/ppl.12009 ; PMID: 23167278
- Plastid genome instability leads to reactive oxygen species production and plastid-to-nucleus retrograde signaling in Arabidopsis. DOI: 10.1104/pp.113.223560 ; PMID: 23969600
- Chloroplast DNA Copy Number Changes during Plant Development in Organelle DNA Polymerase Mutants. DOI: 10.3389/fpls.2016.00057 ; PMID: 26870072
- Plant organellar DNA polymerases are replicative and translesion DNA synthesis polymerases. DOI: 10.1093/nar/gkx744 ; PMID: 28977655
- Transcription is a major driving force for plastid genome instability in Arabidopsis. DOI: 10.1371/journal.pone.0214552 ; PMID: 30943245
- Arabidopsis thaliana organelles mimic the T7 phage DNA replisome with specific interactions between Twinkle protein and DNA polymerases Pol1A and Pol1B. DOI: 10.1186/s12870-019-1854-3 ; PMID: 31170927
- MSH1 is required for maintenance of the low mutation rates in plant mitochondrial and plastid genomes. DOI: 10.1073/pnas.2001998117 ; PMID: 32601224
- Arabidopsis mitochondrial single-stranded DNA-binding proteins SSB1 and SSB2 are essential regulators of mtDNA replication and homologous recombination. DOI: 10.1111/jipb.13338 ; PMID: 35925893
- Dual-domain, dual-targeting organellar protein presequences in Arabidopsis can use non-AUG start codons. DOI: 10.1105/tpc.105.035287 ; PMID: 16169894
- pTAC2, -6, and -12 are components of the transcriptionally active plastid chromosome that are required for plastid gene expression. DOI: 10.1105/tpc.105.036392 ; PMID: 16326926
Sequences:
cDNA Sequence
- >AT3G20540.1
TTGGTTTATGTATTTTTTTTTAAAAGTGAAATGATTAATTAAAGAAGATAAAAGGGGAAAAGGGTTTAAGGGTTTGTCATAGAGCAATGGCTACCAGCTCAGCTTTGTGATAAAACGACAAAATTGGACAACGATAAACCCTACTTTTATCTCTGGAAGACTCAAAATTCCTTCAAGCTGGGGAGATTAGCTTCACTTACTACGGCCATGGGGGTTTCTCTTCGTCACTTGTCTCCTTCCTCTTTCTGGGTTTCGCGTCGTCCTCGTGTTTCTTCTTCAATTCTTTCTTTTCTTGTCCCTCGCCGTCGAATCCTTTGCACCAGGAAAGTAGCAATCATAAAGGGAAATGCGGGATATTCGACTGCTACTGATTGTGGTGGTTCTCATGGGTTTCATCATTCAGGTCATCAAAGGTCATCCTCTGTTGAGTTTAGTGGAGAGTGGAAACTTAATTTGGGATCTAAGACGGCGAGAATGGTTCCGCCAACTGTGAAACAAGCTGGAGCTGTAAGTGCTTGGAGGGAGGAAGTCAATAATAAGTTAAGAGGAAGAAATAGAGAATATGCTAACAACCAGGATGATGCTTTTGGTAATGGCAGTTATATTTTAAAAGGCTTTGTCCCCAAAATAGATGATGTCCATTCTTATGGAAACGGCCAGAACTTTGATTACAATCTGAAGCCTGGAACTGATATTACCACACTTGGTAGAGAATTGAATGGCTTTATGCAAACGAATAGTATAAGAGGATCGGTCGTAGCATTACCAAGCAAGGATATTGAGGTTGGGGAAACAACAGACGTGACTCTGAAACCTCTTAACAGTGATACGACTCTTGACAATGCCAGCTATAAGAAAACAGCAACCATTTCCAAAGTGGAAAAATGCACCAACCTATCGCAAGTCCGTGCAAACCTCAAGAAAATATACAATAGAGTTCGTGTTGTTGATAATGTGTCTAGTGCAAAGGAAACCGTGGCTCTGCTCATGAATCAATATAGGAATCTTGTCCATGCTTGCGATACAGAGGTATCCAGGATTGATGTGAAGACTGAAACACCTGTAGACCATGGGGAGATGATTTGTTTCAGTATCTATTGTGGATCAGAAGCAGATTTTGGAGATGGTAAATCATGTATCTGGGTAGATGTGCTTGGCGAAAATGGAAGGGATATCCTGGCTGAGTTTAAGCCATTTTTCGAAGACTCATCCATAAAAAAAGTATGGCATAACTACAGCTTTGATAACCACATCATCAGAAATTATGGAATCAAGCTTTCTGGTTTTCATGGTGATACAATGCACATGGCACGATTGTGGGATTCATCTAGACGGATATCGGGTGGTTATTCGCTTGAAGCACTTACAAGTGACCCAAAAGTTCTTGGGGGAACTGAGACAAAGGAGGAAGCAGAATTATTTGGTAAAATATCAATGAAGAAGATTTTCGGCAAGGGAAAATTGAAAAAAGATGGATCAGAAGGAAAATTGGTGATCATTCCTCCTGTTAAAGAGCTACAAATGGAGGATCGAGAAGCTTGGATTTCGTACTCAGCGTTGGATTCAATAAGCACTCTAAAGCTTTATGAGAGCATGAAGAAGCAACTGCAAGCGAAGAAATGGTTTCTTGATGGAAAACTAATTTCAAAAAAGAACATGTTTGATTTCTACCAAGAATATTGGCAACCTTTTGGTGAACTTCTTGCCAAAATGGAATCGGAAGGAATGCTTGTAGATAGGGATTATTTGGCGCAGATTGAGATTGTAGCCAAAGCAGAACAAGAAATTGCTGTTTCGAGGTTCCGTAATTGGGCTTCAAAGCATTGTCCAGATGCAAAGCATATGAATGTTGGCAGTGACACGCAATTGCGACAACTCTTTTTTGGTGGCATTTCTAACAGTTGTAATGATGAGGATCTTCCATATGAAAAACTTTTCAAAGTTCCCAATGTGGATAAGGTGATTGAAGAAGGAAAAAAGAGAGCCACAAAATTCCGGAATATCAAACTGCATAGGATAAGCGACAGACCTTTGCCCACTGAAAAGTTCACTGCCTCAGGCTGGCCCTCTGTTAGTGGAGACACCTTGAAAGCCTTAGCTGGGAAAGTCTCTGCAGAATATGACTATATGGAGGGCGTTTTAGATACTTGTCTAGAAGAAAACATTGGAGATGATGATTGTATTTCGCTACCAGATGAAGTTGTAGAAACACAACACGTCAATACCTCTGTTGAATCAGACACATCTGCTTATGGAACAGCATTTGATGCATTTGGAGGGGGTGAAAGTGGAAAGGAAGCTTGCCATGCTATTGCTGCATTATGTGAAGTTTGCTCCATTGATTCCTTAATATCAAATTTTATCCTTCCTTTACAGGGAAGTAACGTGTCAGGAAAAGATGGTCGTGTCCACTGCTCCCTGAATATCAACACTGAAACTGGACGCTTATCGGCTAGAAGGCCAAATTTGCAGAACCAACCTGCATTGGAGAAAGATCGGTACAAAATCCGTCAGGCCTTCATAGCATCACCTGGAAATTCACTTATTGTTGCTGATTATGGACAGCTGGAACTTAGGATTCTGGCACATCTTGCTAGTTGCGAAAGCATGAAGGAAGCTTTCATAGCTGGTGGAGACTTCCACTCAAGAACAGCCATGAATATGTATCCTCATATTCGTGAAGCTGTTGAAAATGGTGAAGTGCTCCTTGAATGGCATCCACAACCTGGACAAGAGAAGCCGCCAGTGCCATTGTTGAAGGATGCCTTTGCTTCTGAGAGAAGAAAAGCAAAGATGCTTAACTTCTCGATTGCGTATGGGAAGACTGCTATTGGGCTGTCTAGAGATTGGAAGGTATCAAGAGAAGAAGCTCAAGATACAGTTAATCTCTGGTATAATGACAGACAAGAAGTCCGGAAATGGCAAGAACTACGCAAGAAAGAAGCTATACAAAAAGGGTATGTACTCACTTTGTTGGGAAGGGCTCGTAAATTCCCTGAATACCGTTCACGTGCCCAAAAGAACCATATCGAGCGAGCAGCAATCAACACTCCTGTTCAGGGAAGTGCGGCTGATGTTGCTATGTGCGCTATGCTGGAGATATCAAATAATCAACGGCTAAAAGAGCTTGGTTGGAAATTGCTTCTACAAGTTCATGATGAAGTAATCTTGGAAGGACCAAGTGAGTCAGCGGAGAACGCTAAAGACATAGTTGTGAACTGCATGTCTGAACCCTTCAACGGCAAGAATATTCTCTCAGTCGACTTATCTGTTGATGCTAAGTGTGCTCAGAACTGGTATGCTGGCAAATAAGAGGAAAATAGAAAAAGATCTTGCTAGTGAAAGCTAACAATGAGGCAGTGCTTGAGGTTTTTTTTTTTTTTGTCTCATTGGCTCTGAGAAAATCTGTTCATATGTGAGAAAGGGTCATTTTGTTTATGCTAATGAAAGCTAATTGTTGTCATCTTCTTTATGTTAAAAGATACATTGCTGTGTAAATTAGTAGGCTTGAAGAGTCGGTGTTTTTAATGAGAAAACAGAGTAATCTTATCA - >AT3G20540.2
TTGGTTTATGTATTTTTTTTTAAAAGTGAAATGATTAATTAAAGAAGATAAAAGGGGAAAAGGGTTTAAGGGTTTGTCATAGAGCAATGGCTACCAGCTCAGCTTTGTGATAAAACGACAAAATTGGACAACGATAAACCCTACTTTTATCTCTGGAAGACTCAAAATTCCTTCAAGCTGGGGAGATTAGCTTCACTTACTACGGCCATGGGGGTTTCTCTTCGTCACTTGTCTCCTTCCTCTTTCTGGGTTTCGCGTCGTCCTCGTGTTTCTTCTTCAATTCTTTCTTTTCTTGTCCCTCGCCGTCGAATCCTTTGCACCAGGAAAGTAGCAATCATAAAGGGAAATGCGGGATATTCGACTGCTACTGATTGTGGTGGTTCTCATGGGTTTCATCATTCAGGTCATCAAAGGTCATCCTCTGTTGAGTTTAGTGGAGAGTGGAAACTTAATTTGGGATCTAAGACGGCGAGAATGGTTCCGCCAACTGTGAAACAAGCTGGAGCTGTAAGTGCTTGGAGGGAGGAAGTCAATAATAAGTTAAGAGGAAGAAATAGAGAATATGCTAACAACCAGGATGATGCTTTTGGTAATGGCAGTTATATTTTAAAAGGCTTTGTCCCCAAAATAGATGATGTCCATTCTTATGGAAACGGCCAGAACTTTGATTACAATCTGAAGCCTGGAACTGATATTACCACACTTGGTAGAGAATTGAATGGCTTTATGCAAACGAATAGTATAAGAGGATCGGTCGTAGCATTACCAAGCAAGGATATTGAGGTTGGGGAAACAACAGACGTGACTCTGAAACCTCTTAACAGTGATACGACTCTTGACAATGCCAGCTATAAGAAAACAGCAACCATTTCCAAAGTGGAAAAATGCACCAACCTATCGCAAGTCCGTGCAAACCTCAAGAAAATATACAATAGAGTTCGTGTTGTTGATAATGTGTCTAGTGCAAAGGAAACCGTGGCTCTGCTCATGAATCAATATAGGAATCTTGTCCATGCTTGCGATACAGAGGTATCCAGGATTGATGTGAAGACTGAAACACCTGTAGACCATGGGGAGATGATTTGTTTCAGTATCTATTGTGGATCAGAAGCAGATTTTGGAGATGGTAAATCATGTATCTGGGTAGATGTGCTTGGCGAAAATGGAAGGGATATCCTGGCTGAGTTTAAGCCATTTTTCGAAGACTCATCCATAAAAAAAGTATGGCATAACTACAGCTTTGATAACCACATCATCAGAAATTATGGAATCAAGCTTTCTGGTTTTCATGGTGATACAATGCACATGGCACGATTGTGGGATTCATCTAGACGGATATCGGGTGGTTATTCGCTTGAAGCACTTACAAGTGACCCAAAAGTTCTTGGGGGAACTGAGACAAAGGAGGAAGCAGAATTATTTGGTAAAATATCAATGAAGAAGATTTTCGGCAAGGGAAAATTGAAAAAAGATGGATCAGAAGGAAAATTGGTGATCATTCCTCCTGTTAAAGAGCTACAAATGGAGGATCGAGAAGCTTGGATTTCGTACTCAGCGTTGGATTCAATAAGCACTCTAAAGCTTTATGAGAGCATGAAGAAGCAACTGCAAGCGAAGAAATGGTTTCTTGATGGAAAACTAATTTCAAAAAAGAACATGTTTGATTTCTACCAAGAATATTGGCAACCTTTTGGTGAACTTCTTGCCAAAATGGAATCGGAAGGAATGCTTGTAGATAGGGATTATTTGGCGCAGATTGAGATTGTAGCCAAAGCAGAACAAGAAATTGCTGTTTCGAGGTTCCGTAATTGGGCTTCAAAGCATTGTCCAGATGCAAAGCATATGAATGTTGGCAGTGACACGCAATTGCGACAACTCTTTTTTGGTGGCATTTCTAACAGTTGTAATGATGAGGATCTTCCATATGAAAAACTTTTCAAAGTTCCCAATGTGGATAAGGTGATTGAAGAAGGAAAAAAGAGAGCCACAAAATTCCGGAATATCAAACTGCATAGGATAAGCGACAGACCTTTGCCCACTGAAAAGTTCACTGCCTCAGGCTGGCCCTCTGTTAGTGGAGACACCTTGAAAGCCTTAGCTGGGAAAGTCTCTGCAGAATATGACTATATGGAGGGCGTTTTAGATACTTGTCTAGAAGAAAACATTGGAGATGATGATTGTATTTCGCTACCAGATGAAGTTGTAGAAACACAACACGTCAATACCTCTGTTGAATCAGACACATCTGCTTATGGAACAGCATTTGATGCATTTGGAGGGGGTGAAAGTGGAAAGGAAGCTTGCCATGCTATTGCTGCATTATGTGAAGTTTGCTCCATTGATTCCTTAATATCAAATTTTATCCTTCCTTTACAGGGAAGTAACGTGTCAGGAAAAGATGGTCGTGTCCACTGCTCCCTGAATATCAACACTGAAACTGGACGCTTATCGGCTAGAAGGCCAAATTTGCAGAACCAACCTGCATTGGAGAAAGATCGGTACAAAATCCGTCAGGCCTTCATAGCATCACCTGGAAATTCACTTATTGTTGCTGATTATGGACAGCTGGAACTTAGGATTCTGGCACATCTTGCTAGTTGCGAAAGCATGAAGGAAGCTTTCATAGCTGGTGGAGACTTCCACTCAAGAACAGCCATGAATATGTATCCTCATATTCGTGAAGCTGTTGAAAATGGTGAAGTGCTCCTTGAATGGCATCCACAACCTGGACAAGAGAAGCCGCCAGTGCCATTGTTGAAGGATGCCTTTGCTTCTGAGAGAAGAAAAGCAAAGATGCTTAACTTCTCGATTGCGTATGGGAAGACTGCTATTGGGCTGTCTAGAGATTGGAAGGTATCAAGAGAAGAAGCTCAAGATACAGTTAATCTCTGGTATAATGACAGACAAGAAGTCCGGAAATGGCAAGAACTACGCAAGAAAGAAGCTATACAAAAAGGGTATGTACTCACTTTGTTGGGAAGGGCTCGTAAATTCCCTGAATACCGTTCACGTGCCCAAAAGAACCATATCGAGCGAGCAGCAATCAACACTCCTGTTCAGGGAAGTGCGGCTGATGTTGCTATGTGCGCTATGCTGGAGATATCAAATAATCAACGGCTAAAAGAGCTTGGTTGGAAATTGCTTCTACAAGTTCATGATGAAGTAATCTTGGAAGGACCAAGTGAGTCAGCGGAGAACGCTAAAGACATAGTTGTGAACTGCATGTCTGAACCCTTCAACGGCAAGAATATTCTCTCAGTCGACTTATCTGTTGATGCTAAGTGTGCTCAGAACTGGTATGCTGGCAAATAAGAGGAAAATAGAAAAAGATCTTGCTAGTGAAAGCTAACAATGAGGCAGTGCTTGAGGTTTTTTTTTTTTTTGTCTCATTGGCTCTGAGAAAATCTGTTCATATGTGAGAAAGGGTCATTTTGTTTATGCTAATGAAAGCTAATTGTTGTCATCTTCTTTATGTTAAAAGATACATTGCTGTGTAAATTAGTAGGCTTGAAGAGTCGGTGTTTTTAATGAGAAAACAGAGTAATCTTATCA
CDS Sequence
- >AT3G20540.1
ATGGGGGTTTCTCTTCGTCACTTGTCTCCTTCCTCTTTCTGGGTTTCGCGTCGTCCTCGTGTTTCTTCTTCAATTCTTTCTTTTCTTGTCCCTCGCCGTCGAATCCTTTGCACCAGGAAAGTAGCAATCATAAAGGGAAATGCGGGATATTCGACTGCTACTGATTGTGGTGGTTCTCATGGGTTTCATCATTCAGGTCATCAAAGGTCATCCTCTGTTGAGTTTAGTGGAGAGTGGAAACTTAATTTGGGATCTAAGACGGCGAGAATGGTTCCGCCAACTGTGAAACAAGCTGGAGCTGTAAGTGCTTGGAGGGAGGAAGTCAATAATAAGTTAAGAGGAAGAAATAGAGAATATGCTAACAACCAGGATGATGCTTTTGGTAATGGCAGTTATATTTTAAAAGGCTTTGTCCCCAAAATAGATGATGTCCATTCTTATGGAAACGGCCAGAACTTTGATTACAATCTGAAGCCTGGAACTGATATTACCACACTTGGTAGAGAATTGAATGGCTTTATGCAAACGAATAGTATAAGAGGATCGGTCGTAGCATTACCAAGCAAGGATATTGAGGTTGGGGAAACAACAGACGTGACTCTGAAACCTCTTAACAGTGATACGACTCTTGACAATGCCAGCTATAAGAAAACAGCAACCATTTCCAAAGTGGAAAAATGCACCAACCTATCGCAAGTCCGTGCAAACCTCAAGAAAATATACAATAGAGTTCGTGTTGTTGATAATGTGTCTAGTGCAAAGGAAACCGTGGCTCTGCTCATGAATCAATATAGGAATCTTGTCCATGCTTGCGATACAGAGGTATCCAGGATTGATGTGAAGACTGAAACACCTGTAGACCATGGGGAGATGATTTGTTTCAGTATCTATTGTGGATCAGAAGCAGATTTTGGAGATGGTAAATCATGTATCTGGGTAGATGTGCTTGGCGAAAATGGAAGGGATATCCTGGCTGAGTTTAAGCCATTTTTCGAAGACTCATCCATAAAAAAAGTATGGCATAACTACAGCTTTGATAACCACATCATCAGAAATTATGGAATCAAGCTTTCTGGTTTTCATGGTGATACAATGCACATGGCACGATTGTGGGATTCATCTAGACGGATATCGGGTGGTTATTCGCTTGAAGCACTTACAAGTGACCCAAAAGTTCTTGGGGGAACTGAGACAAAGGAGGAAGCAGAATTATTTGGTAAAATATCAATGAAGAAGATTTTCGGCAAGGGAAAATTGAAAAAAGATGGATCAGAAGGAAAATTGGTGATCATTCCTCCTGTTAAAGAGCTACAAATGGAGGATCGAGAAGCTTGGATTTCGTACTCAGCGTTGGATTCAATAAGCACTCTAAAGCTTTATGAGAGCATGAAGAAGCAACTGCAAGCGAAGAAATGGTTTCTTGATGGAAAACTAATTTCAAAAAAGAACATGTTTGATTTCTACCAAGAATATTGGCAACCTTTTGGTGAACTTCTTGCCAAAATGGAATCGGAAGGAATGCTTGTAGATAGGGATTATTTGGCGCAGATTGAGATTGTAGCCAAAGCAGAACAAGAAATTGCTGTTTCGAGGTTCCGTAATTGGGCTTCAAAGCATTGTCCAGATGCAAAGCATATGAATGTTGGCAGTGACACGCAATTGCGACAACTCTTTTTTGGTGGCATTTCTAACAGTTGTAATGATGAGGATCTTCCATATGAAAAACTTTTCAAAGTTCCCAATGTGGATAAGGTGATTGAAGAAGGAAAAAAGAGAGCCACAAAATTCCGGAATATCAAACTGCATAGGATAAGCGACAGACCTTTGCCCACTGAAAAGTTCACTGCCTCAGGCTGGCCCTCTGTTAGTGGAGACACCTTGAAAGCCTTAGCTGGGAAAGTCTCTGCAGAATATGACTATATGGAGGGCGTTTTAGATACTTGTCTAGAAGAAAACATTGGAGATGATGATTGTATTTCGCTACCAGATGAAGTTGTAGAAACACAACACGTCAATACCTCTGTTGAATCAGACACATCTGCTTATGGAACAGCATTTGATGCATTTGGAGGGGGTGAAAGTGGAAAGGAAGCTTGCCATGCTATTGCTGCATTATGTGAAGTTTGCTCCATTGATTCCTTAATATCAAATTTTATCCTTCCTTTACAGGGAAGTAACGTGTCAGGAAAAGATGGTCGTGTCCACTGCTCCCTGAATATCAACACTGAAACTGGACGCTTATCGGCTAGAAGGCCAAATTTGCAGAACCAACCTGCATTGGAGAAAGATCGGTACAAAATCCGTCAGGCCTTCATAGCATCACCTGGAAATTCACTTATTGTTGCTGATTATGGACAGCTGGAACTTAGGATTCTGGCACATCTTGCTAGTTGCGAAAGCATGAAGGAAGCTTTCATAGCTGGTGGAGACTTCCACTCAAGAACAGCCATGAATATGTATCCTCATATTCGTGAAGCTGTTGAAAATGGTGAAGTGCTCCTTGAATGGCATCCACAACCTGGACAAGAGAAGCCGCCAGTGCCATTGTTGAAGGATGCCTTTGCTTCTGAGAGAAGAAAAGCAAAGATGCTTAACTTCTCGATTGCGTATGGGAAGACTGCTATTGGGCTGTCTAGAGATTGGAAGGTATCAAGAGAAGAAGCTCAAGATACAGTTAATCTCTGGTATAATGACAGACAAGAAGTCCGGAAATGGCAAGAACTACGCAAGAAAGAAGCTATACAAAAAGGGTATGTACTCACTTTGTTGGGAAGGGCTCGTAAATTCCCTGAATACCGTTCACGTGCCCAAAAGAACCATATCGAGCGAGCAGCAATCAACACTCCTGTTCAGGGAAGTGCGGCTGATGTTGCTATGTGCGCTATGCTGGAGATATCAAATAATCAACGGCTAAAAGAGCTTGGTTGGAAATTGCTTCTACAAGTTCATGATGAAGTAATCTTGGAAGGACCAAGTGAGTCAGCGGAGAACGCTAAAGACATAGTTGTGAACTGCATGTCTGAACCCTTCAACGGCAAGAATATTCTCTCAGTCGACTTATCTGTTGATGCTAAGTGTGCTCAGAACTGGTATGCTGGCAAATAA - >AT3G20540.2
ATGGGGGTTTCTCTTCGTCACTTGTCTCCTTCCTCTTTCTGGGTTTCGCGTCGTCCTCGTGTTTCTTCTTCAATTCTTTCTTTTCTTGTCCCTCGCCGTCGAATCCTTTGCACCAGGAAAGTAGCAATCATAAAGGGAAATGCGGGATATTCGACTGCTACTGATTGTGGTGGTTCTCATGGGTTTCATCATTCAGGTCATCAAAGGTCATCCTCTGTTGAGTTTAGTGGAGAGTGGAAACTTAATTTGGGATCTAAGACGGCGAGAATGGTTCCGCCAACTGTGAAACAAGCTGGAGCTGTAAGTGCTTGGAGGGAGGAAGTCAATAATAAGTTAAGAGGAAGAAATAGAGAATATGCTAACAACCAGGATGATGCTTTTGGTAATGGCAGTTATATTTTAAAAGGCTTTGTCCCCAAAATAGATGATGTCCATTCTTATGGAAACGGCCAGAACTTTGATTACAATCTGAAGCCTGGAACTGATATTACCACACTTGGTAGAGAATTGAATGGCTTTATGCAAACGAATAGTATAAGAGGATCGGTCGTAGCATTACCAAGCAAGGATATTGAGGTTGGGGAAACAACAGACGTGACTCTGAAACCTCTTAACAGTGATACGACTCTTGACAATGCCAGCTATAAGAAAACAGCAACCATTTCCAAAGTGGAAAAATGCACCAACCTATCGCAAGTCCGTGCAAACCTCAAGAAAATATACAATAGAGTTCGTGTTGTTGATAATGTGTCTAGTGCAAAGGAAACCGTGGCTCTGCTCATGAATCAATATAGGAATCTTGTCCATGCTTGCGATACAGAGGTATCCAGGATTGATGTGAAGACTGAAACACCTGTAGACCATGGGGAGATGATTTGTTTCAGTATCTATTGTGGATCAGAAGCAGATTTTGGAGATGGTAAATCATGTATCTGGGTAGATGTGCTTGGCGAAAATGGAAGGGATATCCTGGCTGAGTTTAAGCCATTTTTCGAAGACTCATCCATAAAAAAAGTATGGCATAACTACAGCTTTGATAACCACATCATCAGAAATTATGGAATCAAGCTTTCTGGTTTTCATGGTGATACAATGCACATGGCACGATTGTGGGATTCATCTAGACGGATATCGGGTGGTTATTCGCTTGAAGCACTTACAAGTGACCCAAAAGTTCTTGGGGGAACTGAGACAAAGGAGGAAGCAGAATTATTTGGTAAAATATCAATGAAGAAGATTTTCGGCAAGGGAAAATTGAAAAAAGATGGATCAGAAGGAAAATTGGTGATCATTCCTCCTGTTAAAGAGCTACAAATGGAGGATCGAGAAGCTTGGATTTCGTACTCAGCGTTGGATTCAATAAGCACTCTAAAGCTTTATGAGAGCATGAAGAAGCAACTGCAAGCGAAGAAATGGTTTCTTGATGGAAAACTAATTTCAAAAAAGAACATGTTTGATTTCTACCAAGAATATTGGCAACCTTTTGGTGAACTTCTTGCCAAAATGGAATCGGAAGGAATGCTTGTAGATAGGGATTATTTGGCGCAGATTGAGATTGTAGCCAAAGCAGAACAAGAAATTGCTGTTTCGAGGTTCCGTAATTGGGCTTCAAAGCATTGTCCAGATGCAAAGCATATGAATGTTGGCAGTGACACGCAATTGCGACAACTCTTTTTTGGTGGCATTTCTAACAGTTGTAATGATGAGGATCTTCCATATGAAAAACTTTTCAAAGTTCCCAATGTGGATAAGGTGATTGAAGAAGGAAAAAAGAGAGCCACAAAATTCCGGAATATCAAACTGCATAGGATAAGCGACAGACCTTTGCCCACTGAAAAGTTCACTGCCTCAGGCTGGCCCTCTGTTAGTGGAGACACCTTGAAAGCCTTAGCTGGGAAAGTCTCTGCAGAATATGACTATATGGAGGGCGTTTTAGATACTTGTCTAGAAGAAAACATTGGAGATGATGATTGTATTTCGCTACCAGATGAAGTTGTAGAAACACAACACGTCAATACCTCTGTTGAATCAGACACATCTGCTTATGGAACAGCATTTGATGCATTTGGAGGGGGTGAAAGTGGAAAGGAAGCTTGCCATGCTATTGCTGCATTATGTGAAGTTTGCTCCATTGATTCCTTAATATCAAATTTTATCCTTCCTTTACAGGGAAGTAACGTGTCAGGAAAAGATGGTCGTGTCCACTGCTCCCTGAATATCAACACTGAAACTGGACGCTTATCGGCTAGAAGGCCAAATTTGCAGAACCAACCTGCATTGGAGAAAGATCGGTACAAAATCCGTCAGGCCTTCATAGCATCACCTGGAAATTCACTTATTGTTGCTGATTATGGACAGCTGGAACTTAGGATTCTGGCACATCTTGCTAGTTGCGAAAGCATGAAGGAAGCTTTCATAGCTGGTGGAGACTTCCACTCAAGAACAGCCATGAATATGTATCCTCATATTCGTGAAGCTGTTGAAAATGGTGAAGTGCTCCTTGAATGGCATCCACAACCTGGACAAGAGAAGCCGCCAGTGCCATTGTTGAAGGATGCCTTTGCTTCTGAGAGAAGAAAAGCAAAGATGCTTAACTTCTCGATTGCGTATGGGAAGACTGCTATTGGGCTGTCTAGAGATTGGAAGGTATCAAGAGAAGAAGCTCAAGATACAGTTAATCTCTGGTATAATGACAGACAAGAAGTCCGGAAATGGCAAGAACTACGCAAGAAAGAAGCTATACAAAAAGGGTATGTACTCACTTTGTTGGGAAGGGCTCGTAAATTCCCTGAATACCGTTCACGTGCCCAAAAGAACCATATCGAGCGAGCAGCAATCAACACTCCTGTTCAGGGAAGTGCGGCTGATGTTGCTATGTGCGCTATGCTGGAGATATCAAATAATCAACGGCTAAAAGAGCTTGGTTGGAAATTGCTTCTACAAGTTCATGATGAAGTAATCTTGGAAGGACCAAGTGAGTCAGCGGAGAACGCTAAAGACATAGTTGTGAACTGCATGTCTGAACCCTTCAACGGCAAGAATATTCTCTCAGTCGACTTATCTGTTGATGCTAAGTGTGCTCAGAACTGGTATGCTGGCAAATAA
Protein Sequence
- >AT3G20540.1
MGVSLRHLSPSSFWVSRRPRVSSSILSFLVPRRRILCTRKVAIIKGNAGYSTATDCGGSHGFHHSGHQRSSSVEFSGEWKLNLGSKTARMVPPTVKQAGAVSAWREEVNNKLRGRNREYANNQDDAFGNGSYILKGFVPKIDDVHSYGNGQNFDYNLKPGTDITTLGRELNGFMQTNSIRGSVVALPSKDIEVGETTDVTLKPLNSDTTLDNASYKKTATISKVEKCTNLSQVRANLKKIYNRVRVVDNVSSAKETVALLMNQYRNLVHACDTEVSRIDVKTETPVDHGEMICFSIYCGSEADFGDGKSCIWVDVLGENGRDILAEFKPFFEDSSIKKVWHNYSFDNHIIRNYGIKLSGFHGDTMHMARLWDSSRRISGGYSLEALTSDPKVLGGTETKEEAELFGKISMKKIFGKGKLKKDGSEGKLVIIPPVKELQMEDREAWISYSALDSISTLKLYESMKKQLQAKKWFLDGKLISKKNMFDFYQEYWQPFGELLAKMESEGMLVDRDYLAQIEIVAKAEQEIAVSRFRNWASKHCPDAKHMNVGSDTQLRQLFFGGISNSCNDEDLPYEKLFKVPNVDKVIEEGKKRATKFRNIKLHRISDRPLPTEKFTASGWPSVSGDTLKALAGKVSAEYDYMEGVLDTCLEENIGDDDCISLPDEVVETQHVNTSVESDTSAYGTAFDAFGGGESGKEACHAIAALCEVCSIDSLISNFILPLQGSNVSGKDGRVHCSLNINTETGRLSARRPNLQNQPALEKDRYKIRQAFIASPGNSLIVADYGQLELRILAHLASCESMKEAFIAGGDFHSRTAMNMYPHIREAVENGEVLLEWHPQPGQEKPPVPLLKDAFASERRKAKMLNFSIAYGKTAIGLSRDWKVSREEAQDTVNLWYNDRQEVRKWQELRKKEAIQKGYVLTLLGRARKFPEYRSRAQKNHIERAAINTPVQGSAADVAMCAMLEISNNQRLKELGWKLLLQVHDEVILEGPSESAENAKDIVVNCMSEPFNGKNILSVDLSVDAKCAQNWYAGK - >AT3G20540.2
MGVSLRHLSPSSFWVSRRPRVSSSILSFLVPRRRILCTRKVAIIKGNAGYSTATDCGGSHGFHHSGHQRSSSVEFSGEWKLNLGSKTARMVPPTVKQAGAVSAWREEVNNKLRGRNREYANNQDDAFGNGSYILKGFVPKIDDVHSYGNGQNFDYNLKPGTDITTLGRELNGFMQTNSIRGSVVALPSKDIEVGETTDVTLKPLNSDTTLDNASYKKTATISKVEKCTNLSQVRANLKKIYNRVRVVDNVSSAKETVALLMNQYRNLVHACDTEVSRIDVKTETPVDHGEMICFSIYCGSEADFGDGKSCIWVDVLGENGRDILAEFKPFFEDSSIKKVWHNYSFDNHIIRNYGIKLSGFHGDTMHMARLWDSSRRISGGYSLEALTSDPKVLGGTETKEEAELFGKISMKKIFGKGKLKKDGSEGKLVIIPPVKELQMEDREAWISYSALDSISTLKLYESMKKQLQAKKWFLDGKLISKKNMFDFYQEYWQPFGELLAKMESEGMLVDRDYLAQIEIVAKAEQEIAVSRFRNWASKHCPDAKHMNVGSDTQLRQLFFGGISNSCNDEDLPYEKLFKVPNVDKVIEEGKKRATKFRNIKLHRISDRPLPTEKFTASGWPSVSGDTLKALAGKVSAEYDYMEGVLDTCLEENIGDDDCISLPDEVVETQHVNTSVESDTSAYGTAFDAFGGGESGKEACHAIAALCEVCSIDSLISNFILPLQGSNVSGKDGRVHCSLNINTETGRLSARRPNLQNQPALEKDRYKIRQAFIASPGNSLIVADYGQLELRILAHLASCESMKEAFIAGGDFHSRTAMNMYPHIREAVENGEVLLEWHPQPGQEKPPVPLLKDAFASERRKAKMLNFSIAYGKTAIGLSRDWKVSREEAQDTVNLWYNDRQEVRKWQELRKKEAIQKGYVLTLLGRARKFPEYRSRAQKNHIERAAINTPVQGSAADVAMCAMLEISNNQRLKELGWKLLLQVHDEVILEGPSESAENAKDIVVNCMSEPFNGKNILSVDLSVDAKCAQNWYAGK