Gene Details:
- Gene ID: AT5G06600
- Gene Symbol: AtUBP12, UBP12
- Gene Name: ubiquitin-specific protease 12
- Description: ubiquitin-specific protease 12;(source:Araport11)
- TAIR Accession:
- Genome: Araport11_genome_release
- Species: Arabidopsis thaliana
Transcripts:
Plant Ontology Annotations:
- PO:0009005 — root — raíz (Spanish, exact), radices (exact, plural), radix (exact), 根 (Japanese, exact), aerial root (narrow), climbing root (narrow)
- PO:0000084 — plant sperm cell — célula espermática o esperma (Spanish, exact), male gamete (exact), microgamete (exact), 植物精子細胞 (Japanese, exact), sperm nucleus (related), sperm cell (broad)
- PO:0000293 — guard cell — célula guardiana (Spanish, exact), occlusive cell (exact), 孔辺細胞 (Japanese, exact)
Function-related keywords:
Literature:
- The ubiquitin-specific protease family from Arabidopsis. AtUBP1 and 2 are required for the resistance to the amino acid analog canavanine. DOI: 10.1104/pp.124.4.1828 ; PMID: 11115897
- Transcriptome analysis of O3-exposed Arabidopsis reveals that multiple signal pathways act mutually antagonistically to induce gene expression. DOI: 10.1023/B:PLAN.0000019064.55734.52 ; PMID: 15010611
- Comparative genomics in salt tolerance between Arabidopsis and aRabidopsis-related halophyte salt cress using Arabidopsis microarray. DOI: 10.1104/pp.104.039909 ; PMID: 15247402
- Genome-wide identification and testing of superior reference genes for transcript normalization in Arabidopsis. DOI: 10.1104/pp.105.063743 ; PMID: 16166256
- Genetic interactions of a putative Arabidopsis thaliana ubiquitin-ligase with components of the Saccharomyces cerevisiae ubiquitination machinery. DOI: 10.1007/s00294-006-0093-y ; PMID: 16897085
- Functional characterization of the Arabidopsis ubiquitin-specific protease gene family reveals specific role and redundancy of individual members in development. DOI: 10.1111/j.1365-313X.2008.03557.x ; PMID: 18485060
- Transcriptome analyses show changes in gene expression to accompany pollen germination and tube growth in Arabidopsis. DOI: 10.1104/pp.108.126375 ; PMID: 18775970
- Ubiquitin-specific proteases UBP12 and UBP13 act in circadian clock and photoperiodic flowering regulation in Arabidopsis. DOI: 10.1104/pp.112.213009 ; PMID: 23645632
- ROTUNDA3 function in plant development by phosphatase 2A-mediated regulation of auxin transporter recycling. DOI: 10.1073/pnas.1501343112 ; PMID: 26888284
- The Deubiquitinating Enzymes UBP12 and UBP13 Positively Regulate MYC2 Levels in Jasmonate Responses. DOI: 10.1105/tpc.17.00216 ; PMID: 28536144
- UBIQUITIN-SPECIFIC PROTEASES function in plant development and stress responses. DOI: 10.1007/s11103-017-0633-5 ; PMID: 28695315
- Capturing the phosphorylation and protein interaction landscape of the plant TOR kinase. DOI: 10.1038/s41477-019-0378-z ; PMID: 30833711
- Arabidopsis ubiquitin-specific proteases UBP12 and UBP13 shape ORE1 levels during leaf senescence induced by nitrogen deficiency. DOI: 10.1111/nph.15879 ; PMID: 31050353
- UVSSA, UBP12, and RDO2/TFIIS Contribute to Arabidopsis UV Tolerance. DOI: 10.3389/fpls.2019.00516 ; PMID: 31105721
- UBP12 and UBP13 negatively regulate the activity of the ubiquitin-dependent peptidases DA1, DAR1 and DAR2. DOI: 10.7554/eLife.52276 ; PMID: 32209225
- The deubiquitinases UBP12 and UBP13 integrate with the E3 ubiquitin ligase XBAT35.2 to modulate VPS23A stability in ABA signaling. DOI: 10.1126/sciadv.abl5765 ; PMID: 35385312
- UBP12 and UBP13 deubiquitinases destabilize the CRY2 blue light receptor to regulate Arabidopsis growth. DOI: 10.1016/j.cub.2022.05.046 ; PMID: 35700731
- UBP12/UBP13-mediated deubiquitination of salicylic acid receptor NPR3 suppresses plant immunity. DOI: 10.1016/j.molp.2022.11.008 ; PMID: 36415131
- Analysis of protein complexes in Arabidopsis leaves using size exclusion chromatography and label-free protein correlation profiling. DOI: 10.1016/j.jprot.2017.06.004 ; PMID: 28627464
Sequence:
cDNA Sequence
- >AT5G06600.1 CGTAAGTCTTATACGTGCCGCTTTCTCATTGGTCTGTCTCGCTTGATAGACCCAACCTCGGAGAAATTATAAATCTGAGCCCGTATACTGTGAAATTACATTAATGACCCTTTAAATTCTCGAAAATATCAGAATAATCAATATATCGAAGCCGAGAAAGAGTAAGAATGAGCGATTGTATTTCTCCCTAAGAGTCACTTTGCCTTTGTCTTTGATTTTTCTCTGTATCGTCGGTCTCTCTTTTGCGTTTCTCGATCCCACCGTCTAATCCTTCTCCGGCCAATGACTATGATGACTCCGCCTCCCGTTGATCAGCCAGAAGATGAGGAGATGCTTGTGCCGAATTCAGATTTGGTCGACGGTCCTGCTCAGCCCATGGAAGTTACCCAACCCGAGACTGCTGCGAGTACTGTGGAGAACCAGCCAGCTGAGGATCCTCCTACTCTGAAATTCACGTGGACTATCCCTAATTTCTCTAGGCAAAACACCAGGAAGCATTACTCCGATGTATTTGTCGTTGGAGGTTACAAATGGCGCATATTAATTTTCCCGAAAGGGAACAATGTTGATCATTTGTCCATGTACTTGGATGTTTCTGATGCTGCGAGTTTGCCGTACGGTTGGAGCAGATATGCTCAGTTCAGTCTGGCTGTAGTCAATCAAATCCACACCAGATATACCGTTAGAAAAGAGACGCAACATCAATTCAATGCTAGAGAAAGCGATTGGGGATTTACATCATTCATGCCACTTAGCGAACTTTATGATCCTAGTAGAGGATATTTAGTGAATGATACTGTTTTGGTTGAAGCTGAAGTCGCTGTACGTAAGGTTCTTGATTACTGGTCATATGACTCTAAAAAAGAGACTGGTTTTGTTGGACTCAAGAACCAAGGTGCAACATGCTACATGAATTCTCTCCTACAGACACTATACCACATACCTTACTTCAGAAAGGCTGTATACCACATGCCAACAACTGAGAATGATGCACCCACAGCAAGTATACCGTTGGCTCTCCAAAGTTTGTTTTACAAGCTCCAATACAATGACACTAGTGTTGCAACAAAAGAGCTGACAAAGTCGTTTGGTTGGGATACATATGATTCCTTCATGCAGCATGATGTGCAAGAACTCAATCGGGTTCTCTGCGAAAAGCTTGAGGACAAAATGAAGGGAACTGTTGTGGAGGGAACAATACAACAACTTTTTGAGGGCCACCATATGAATTACATTGAGTGCATAAATGTAGATTTTAAATCTACACGGAAAGAATCATTTTACGACCTTCAGCTGGATGTTAAAGGCTGCAAGGATGTTTATGCTTCTTTTGACAAGTATGTTGAAGTTGAACGTCTTGAAGGAGACAACAAATATCATGCAGAAGGACATGGTTTACAGGATGCAAAAAAAGGTGTTCTTTTCATTGACTTTCCACCGGTTCTTCAACTCCAGCTCAAGAGGTTTGAATATGACTTTATGAGGGACACCATGGTGAAGATAAATGATCGGTATGAGTTTCCGCTTGAACTGGATCTTGATAGAGAAGATGGAAAGTATCTGTCGCCTGATGCTGACAGGAGTGTCCGCAACCTTTATACTCTTCACAGTGTTTTAGTTCATAGTGGAGGAGTACATGGTGGGCACTATTATGCTTTTATAAGGCCTACGCTCTCAGATCAGTGGTATAAATTTGATGATGAACGAGTAACCAAGGAAGATTTGAAAAGGGCTTTGGAGGAGCAATATGGTGGTGAAGAAGAGCTACCACAGACTAATCCTGGTTTCAATAATAACCCTCCTTTCAAATTCACAAAGTACTCGAATGCTTACATGCTTGTATATATCCGAGAAAGTGACAAAGATAAAATAATCTGCAACGTTGATGAGAAAGACATAGCAGAACATTTAAGGGTGAGGCTAAAGAAAGAGCAAGAAGAAAAGGAAGATAAAAGAAGATACAAGGCACAAGCTCACTTATATACCATAATTAAGGTTGCAAGAGATGAAGACCTTAAGGAACAAATTGGGAAGGATATATATTTTGATCTTGTGGATCATGACAAAGTTCGCAGTTTCCGTATCCAGAAACAGACACCATTTCAACAGTTTAAGGAGGAGGTAGCAAAAGAATTTGGTGTACCTGTTCAGTTACAGAGGTTCTGGATTTGGGCAAAGAGACAAAACCATACCTATCGTCCCAATCGCCCCCTTACGCCTCAAGAGGAATTACAACCGGTTGGACAAATAAGGGAAGCATCTAATAAGGCAAACACTGCAGAACTCAAGCTTTTTTTGGAAGTAGAGCACCTGGATTTACGTCCTATTCCTCCTCCTGAAAAATCAAAAGAAGATATTCTTCTTTTCTTCAAGCTTTATGACCCCGAGAAGGCAGTATTAAGCTATGCTGGCAGGCTGATGGTGAAAAGTTCCAGTAAGCCTATGGATATAACTGGAAAACTGAATGAAATGGTTGGCTTTGCTCCTGATGAAGAAATAGAACTTTTTGAGGAAATCAAGTTTGAACCTTGTGTTATGTGCGAACACTTGGATAAGAAAACTTCATTCAGATTGTGTCAAATTGAAGATGGAGATATCATTTGCTTTCAGAAACCTCTTGTTAACAAGGAGATTGAATGCCTCTACCCAGCTGTGCCTTCGTTTCTTGAATATGTCCAGAATAGACAGCTGGTCCGGTTTCGTGCTCTGGAAAAACCTAAAGAAGATGAGTTTGTTCTGGAGTTGTCGAAGCAGCACACTTATGACGATGTTGTGGAGAAAGTGGCTGAGAAGCTTGGTCTTGACGATCCATCCAAACTTAGGCTTACATCTCACAATTGCTATTCCCAGCAACCCAAGCCTCAGCCTATCAAGTACCGTGGAGTAGACCATTTGTCAGATATGTTAGTTCATTACAATCAGACGTCTGACATTTTGTATTATGAAGTTCTGGACATCCCTCTTCCAGAATTACAAGGTCTTAAAACCTTAAAAGTTGCTTTCCATCATGCCACGAAGGAAGAAGTGGTAATCCACAATATCAGACTACCTAAACAAAGCACGGTCGGAGATGTTATTAATGAACTTAAAACAAAGGTGGAGCTTTCGCATCCAGATGCAGAACTGAGATTGCTCGAGGTGTTTTACCACAAGATCTACAAGATTTTCCCATCAACTGAAAGAATTGAGAATATAAATGACCAGTACTGGACTTTACGAGCTGAGGAGATTCCGGAAGAAGAGAAGAATATTGGTCCAAATGATCGCTTAATTCTTGTGTACCATTTTGCCAAGGAGACTGGACAAAACCAGCAAGTGCAAAACTTTGGCGAGCCCTTCTTCTTGGTAATCCATGAAGGTGAAACTCTTGAAGAAATCAAGAACCGTATCCAAAAGAAGCTTCATGTATCTGATGAAGATTTTGCCAAGTGGAAGTTTGCGTTCATGTCAATGGGGCGTCCAGAGTACTTGCAGGACACAGATGTTGTTTATAATCGCTTCCAGAGAAGAGATGTCTATGGTGCTTTTGAGCAGTACCTCGGGTTGGAGCATGCTGACACTACTCCTAAGAGGGCTTATGCTGCAAACCAGAACCGCCATGCTTACGAGAAGCCGGTAAAAATATACAATTAGCCCCAAAACATGAACACAAATGTCAGGAGACATTGTGGCAGCAACGTTGGACCAAGGCATTGATTGGACCAATGCATCGAATAAGAAGGGAAAGGGCGAGTGTGAGGGTGTGATGATGACCGTAGGATGTTGTAGAGAATCTGGTCTGATAGGGTTTTGGGTTGCGCATTGATAGTGGTGTGTTTTCTATTTTTTTCTTTTCAATCTATCCTTATTTTATTTCGTGCTTCAATACTTTGTGTTAATATCTGGAATGTGTGAAGACCATTGCACATGCAATTTTTATTTTCCAAAAAAAGAATATGGAAGCCCTTCGCTTGGATTCGGGAGCGCGGTTTGGCTTTCAGAGTTTATAGAATACCGAAACATTTGTAATTTTAGAGATTGTGGTTTAAGAAGATTTTTGACTGAGGAGATTTGTATTCTTTTTGCATTTTCAAATTATTCGTCATCTGCCTAAA
- >AT5G06600.2 CGTAAGTCTTATACGTGCCGCTTTCTCATTGGTCTGTCTCGCTTGATAGACCCAACCTCGGAGAAATTATAAATCTGAGCCCGTATACTGTGAAATTACATTAATGACCCTTTAAATTCTCGAAAATATCAGAATAATCAATATATCGAAGCCGAGAAAGAGTAAGAATGAGCGATTGTATTTCTCCCTAAGAGTCACTTTGCCTTTGTCTTTGATTTTTCTCTGTATCGTCGGTCTCTCTTTTGCGTTTCTCGATCCCACCGTCTAATCCTTCTCCGGCCAATGACTATGATGACTCCGCCTCCCGTTGATCAGCCAGAAGATGAGGAGATGCTTGTGCCGAATTCAGATTTGGTCGACGGTCCTGCTCAGCCCATGGAAGTTACCCAACCCGAGACTGCTGCGAGTACTGTGGAGAACCAGCCAGCTGAGGATCCTCCTACTCTGAAATTCACGTGGACTATCCCTAATTTCTCTAGGCAAAACACCAGGAAGCATTACTCCGATGTATTTGTCGTTGGAGGTTACAAATGGCGCATATTAATTTTCCCGAAAGGGAACAATGTTGATCATTTGTCCATGTACTTGGATGTTTCTGATGCTGCGAGTTTGCCGTACGGTTGGAGCAGATATGCTCAGTTCAGTCTGGCTGTAGTCAATCAAATCCACACCAGATATACCGTTAGAAAAGAGACGCAACATCAATTCAATGCTAGAGAAAGCGATTGGGGATTTACATCATTCATGCCACTTAGCGAACTTTATGATCCTAGTAGAGGATATTTAGTGAATGATACTGTTTTGGTTGAAGCTGAAGTCGCTGTACGTAAGGTTCTTGATTACTGGTCATATGACTCTAAAAAAGAGACTGGTTTTGTTGGACTCAAGAACCAAGGTGCAACATGCTACATGAATTCTCTCCTACAGACACTATACCACATACCTTACTTCAGAAAGGCTGTATACCACATGCCAACAACTGAGAATGATGCACCCACAGCAAGTATACCGTTGGCTCTCCAAAGTTTGTTTTACAAGCTCCAATACAATGACACTAGTGTTGCAACAAAAGAGCTGACAAAGTCGTTTGGTTGGGATACATATGATTCCTTCATGCAGCATGATGTGCAAGAACTCAATCGGGTTCTCTGCGAAAAGCTTGAGGACAAAATGAAGGGAACTGTTGTGGAGGGAACAATACAACAACTTTTTGAGGGCCACCATATGAATTACATTGAGTGCATAAATGTAGATTTTAAATCTACACGGAAAGAATCATTTTACGACCTTCAGCTGGATGTTAAAGGCTGCAAGGATGTTTATGCTTCTTTTGACAAGTATGTTGAAGTTGAACGTCTTGAAGGAGACAACAAATATCATGCAGAAGGACATGGTTTACAGGATGCAAAAAAAGGTGTTCTTTTCATTGACTTTCCACCGGTTCTTCAACTCCAGCTCAAGAGGTTTGAATATGACTTTATGAGGGACACCATGGTGAAGATAAATGATCGGTATGAGTTTCCGCTTGAACTGGATCTTGATAGAGAAGATGGAAAGTATCTGTCGCCTGATGCTGACAGGAGTGTCCGCAACCTTTATACTCTTCACAGTGTTTTAGTTCATAGTGGAGGAGTACATGGTGGGCACTATTATGCTTTTATAAGGCCTACGCTCTCAGATCAGTGGTATAAATTTGATGATGAACGAGTAACCAAGGAAGATTTGAAAAGGGCTTTGGAGGAGCAATATGGTGGTGAAGAAGAGCTACCACAGACTAATCCTGGTTTCAATAATAACCCTCCTTTCAAATTCACAAAGTACTCGAATGCTTACATGCTTGTATATATCCGAGAAAGTGACAAAGATAAAATAATCTGCAACGTTGATGAGAAAGACATAGCAGAACATTTAAGGGTGAGGCTAAAGAAAGAGCAAGAAGAAAAGGAAGATAAAAGAAGATACAAGGCACAAGCTCACTTATATACCATAATTAAGGTTGCAAGAGATGAAGACCTTAAGGAACAAATTGGGAAGGATATATATTTTGATCTTGTGGATCATGACAAAGTTCGCAGTTTCCGTATCCAGAAACAGACACCATTTCAACAGTTTAAGGAGGAGGTAGCAAAAGAATTTGGTGTACCTGTTCAGTTACAGAGGTTCTGGATTTGGGCAAAGAGACAAAACCATACCTATCGTCCCAATCGCCCCCTTACGCCTCAAGAGGAATTACAACCGGTTGGACAAATAAGGGAAGCATCTAATAAGGCAAACACTGCAGAACTCAAGCTTTTTTTGGAAGTAGAGCACCTGGATTTACGTCCTATTCCTCCTCCTGAAAAATCAAAAGAAGATATTCTTCTTTTCTTCAAGCTTTATGACCCCGAGAAGGCAGTATTAAGCTATGCTGGCAGGCTGATGGTGAAAAGTTCCAGTAAGCCTATGGATATAACTGGAAAACTGAATGAAATGGTTGGCTTTGCTCCTGATGAAGAAATAGAACTTTTTGAGGAAATCAAGTTTGAACCTTGTGTTATGTGCGAACACTTGGATAAGAAAACTTCATTCAGATTGTGTCAAATTGAAGATGGAGATATCATTTGCTTTCAGAAACCTCTTGTTAACAAGGAGATTGAATGCCTCTACCCAGCTGTGCCTTCGTTTCTTGAATATGTCCAGAATAGACAGCTGGTCCGGTTTCGTGCTCTGGAAAAACCTAAAGAAGATGAGTTTGTTCTGGAGTTGTCGAAGCAGCACACTTATGACGATGTTGTGGAGAAAGTGGCTGAGAAGCTTGGTCTTGACGATCCATCCAAACTTAGGCTTACATCTCACAATTGCTATTCCCAGCAACCCAAGCCTCAGCCTATCAAGTACCGTGGAGTAGACCATTTGTCAGATATGTTAGTTCATTACAATCAGACGTCTGACATTTTGTATTATGAAGTTCTGGACATCCCTCTTCCAGAATTACAAGGTCTTAAAACCTTAAAAGTTGCTTTCCATCATGCCACGAAGGAAGAAGTGGTAATCCACAATATCAGACTACCTAAACAAAGCACGGTCGGAGATGTTATTAATGAACTTAAAACAAAGGTGGAGCTTTCGCATCCAGATGCAGAACTGAGATTGCTCGAGGTGTTTTACCACAAGATCTACAAGATTTTCCCATCAACTGAAAGAATTGAGAATATAAATGACCAGTACTGGACTTTACGAGCTGAGGAGATTCCGGAAGAAGAGAAGAATATTGGTCCAAATGATCGCTTAATTCTTGTGTACCATTTTGCCAAGGAGACTGGACAAAACCAGCAAGTGCAAAACTTTGGCGAGCCCTTCTTCTTGGTAATCCATGAAGGTGAAACTCTTGAAGAAATCAAGAACCGTATCCAAAAGAAGCTTCATGTATCTGATGAAGATTTTGCCAAGTGGAAGTTTGCGTTCATGTCAATGGGGCGTCCAGAGTACTTGCAGGACACAGATGTTGTTTATAATCGCTTCCAGAGAAGAGATGTCTATGGTGCTTTTGAGCAGTACCTCGGGTTGGAGCATGCTGACACTACTCCTAAGAGGGCTTATGCTGCAAACCAGAACCGCCATGCTTACGAGAAGCCGGTAAAAATATACAATTAGCCCCAAAACATGAACACAAATGTCAGGAGACATTGTGGCAGCAACGTTGGACCAAGGCATTGATTGGACCAATGCATCGAATAAGAAGGGAAAGGGCGAGTGTGAGGGTGTGATGATGACCGTAGGATGTTGTAGAGAATCTGGTCTGATAGGGTTTTGGGTTGCGCATTGATAGTGGTGTGTTTTCTATTTTTTTCTTTTCAATCTATCCTTATTTTATTTCGTGCTTCAATACTTTGTGTTAATATCTGGAATGTGTGAAGACCATTGCACATGCAATTTTTATTTTCCAAAAAAAGAATATGGAAGCCCTTCGCTTGGATTCGGGAGCGCGGTTTGGCTTTCAGAGTTTATAGAATACCGAAACATTTGTAATTTTAGAGATTGTGGTTTAAGAAGATTTTTGACTGAGGAGATTTGTATTCTTTTTGCATTTTCAAATTATTCGTCATCTGCCTAAA
- >AT5G06600.3 CGTAAGTCTTATACGTGCCGCTTTCTCATTGGTCTGTCTCGCTTGATAGACCCAACCTCGGAGAAATTATAAATCTGAGCCCGTATACTGTGAAATTACATTAATGACCCTTTAAATTCTCGAAAATATCAGAATAATCAATATATCGAAGCCGAGAAAGAGTAAGAATGAGCGATTGTATTTCTCCCTAAGAGTCACTTTGCCTTTGTCTTTGATTTTTCTCTGTATCGTCGGTCTCTCTTTTGCGTTTCTCGATCCCACCGTCTAATCCTTCTCCGGCCAATGACTATGATGACTCCGCCTCCCGTTGATCAGCCAGAAGATGAGGAGATGCTTGTGCCGAATTCAGATTTGGTCGACGGTCCTGCTCAGCCCATGGAAGTTACCCAACCCGAGACTGCTGCGAGTACTGTGGAGAACCAGCCAGCTGAGGATCCTCCTACTCTGAAATTCACGTGGACTATCCCTAATTTCTCTAGGCAAAACACCAGGAAGCATTACTCCGATGTATTTGTCGTTGGAGGTTACAAATGGCGCATATTAATTTTCCCGAAAGGGAACAATGTTGATCATTTGTCCATGTACTTGGATGTTTCTGATGCTGCGAGTTTGCCGTACGGTTGGAGCAGATATGCTCAGTTCAGTCTGGCTGTAGTCAATCAAATCCACACCAGATATACCGTTAGAAAAGAGACGCAACATCAATTCAATGCTAGAGAAAGCGATTGGGGATTTACATCATTCATGCCACTTAGCGAACTTTATGATCCTAGTAGAGGATATTTAGTGAATGATACTGTTTTGGTTGAAGCTGAAGTCGCTGTACGTAAGGTTCTTGATTACTGGTCATATGACTCTAAAAAAGAGACTGGTTTTGTTGGACTCAAGAACCAAGGTGCAACATGCTACATGAATTCTCTCCTACAGACACTATACCACATACCTTACTTCAGAAAGGCTGTATACCACATGCCAACAACTGAGAATGATGCACCCACAGCAAGTATACCGTTGGCTCTCCAAAGTTTGTTTTACAAGCTCCAATACAATGACACTAGTGTTGCAACAAAAGAGCTGACAAAGTCGTTTGGTTGGGATACATATGATTCCTTCATGCAGCATGATGTGCAAGAACTCAATCGGGTTCTCTGCGAAAAGCTTGAGGACAAAATGAAGGGAACTGTTGTGGAGGGAACAATACAACAACTTTTTGAGGGCCACCATATGAATTACATTGAGTGCATAAATGTAGATTTTAAATCTACACGGAAAGAATCATTTTACGACCTTCAGCTGGATGTTAAAGGCTGCAAGGATGTTTATGCTTCTTTTGACAAGTATGTTGAAGTTGAACGTCTTGAAGGAGACAACAAATATCATGCAGAAGGACATGGTTTACAGGATGCAAAAAAAGGTGTTCTTTTCATTGACTTTCCACCGGTTCTTCAACTCCAGCTCAAGAGGTTTGAATATGACTTTATGAGGGACACCATGGTGAAGATAAATGATCGGTATGAGTTTCCGCTTGAACTGGATCTTGATAGAGAAGATGGAAAGTATCTGTCGCCTGATGCTGACAGGAGTGTCCGCAACCTTTATACTCTTCACAGTGTTTTAGTTCATAGTGGAGGAGTACATGGTGGGCACTATTATGCTTTTATAAGGCCTACGCTCTCAGATCAGTGGTATAAATTTGATGATGAACGAGTAACCAAGGAAGATTTGAAAAGGGCTTTGGAGGAGCAATATGGTGGTGAAGAAGAGCTACCACAGACTAATCCTGGTTTCAATAATAACCCTCCTTTCAAATTCACAAAGTACTCGAATGCTTACATGCTTGTATATATCCGAGAAAGTGACAAAGATAAAATAATCTGCAACGTTGATGAGAAAGACATAGCAGAACATTTAAGGGTGAGGCTAAAGAAAGAGCAAGAAGAAAAGGAAGATAAAAGAAGATACAAGGCACAAGCTCACTTATATACCATAATTAAGGTTGCAAGAGATGAAGACCTTAAGGAACAAATTGGGAAGGATATATATTTTGATCTTGTGGATCATGACAAAGTTCGCAGTTTCCGTATCCAGAAACAGACACCATTTCAACAGTTTAAGGAGGAGGTAGCAAAAGAATTTGGTGTACCTGTTCAGTTACAGAGGTTCTGGATTTGGGCAAAGAGACAAAACCATACCTATCGTCCCAATCGCCCCCTTACGCCTCAAGAGGAATTACAACCGGTTGGACAAATAAGGGAAGCATCTAATAAGGCAAACACTGCAGAACTCAAGCTTTTTTTGGAAGTAGAGCACCTGGATTTACGTCCTATTCCTCCTCCTGAAAAATCAAAAGAAGATATTCTTCTTTTCTTCAAGCTTTATGACCCCGAGAAGGCAGTATTAAGCTATGCTGGCAGGCTGATGGTGAAAAGTTCCAGTAAGCCTATGGATATAACTGGAAAACTGAATGAAATGGTTGGCTTTGCTCCTGATGAAGAAATAGAACTTTTTGAGGAAATCAAGTTTGAACCTTGTGTTATGTGCGAACACTTGGATAAGAAAACTTCATTCAGATTGTGTCAAATTGAAGATGGAGATATCATTTGCTTTCAGAAACCTCTTGTTAACAAGGAGATTGAATGCCTCTACCCAGCTGTGCCTTCGTTTCTTGAATATGTCCAGAATAGACAGCTGGTCCGGTTTCGTGCTCTGGAAAAACCTAAAGAAGATGAGTTTGTTCTGGAGTTGTCGAAGCAGCACACTTATGACGATGTTGTGGAGAAAGTGGCTGAGAAGCTTGGTCTTGACGATCCATCCAAACTTAGGCTTACATCTCACAATTGCTATTCCCAGCAACCCAAGCCTCAGCCTATCAAGTACCGTGGAGTAGACCATTTGTCAGATATGTTAGTTCATTACAATCAGACGTCTGACATTTTGTATTATGAAGTTCTGGACATCCCTCTTCCAGAATTACAAGGTCTTAAAACCTTAAAAGTTGCTTTCCATCATGCCACGAAGGAAGAAGTGGTAATCCACAATATCAGACTACCTAAACAAAGCACGGTCGGAGATGTTATTAATGAACTTAAAACAAAGGTGGAGCTTTCGCATCCAGATGCAGAACTGAGATTGCTCGAGGTGTTTTACCACAAGATCTACAAGATTTTCCCATCAACTGAAAGAATTGAGAATATAAATGACCAGTACTGGACTTTACGAGCTGAGGAGATTCCGGAAGAAGAGAAGAATATTGGTCCAAATGATCGCTTAATTCTTGTGTACCATTTTGCCAAGGAGACTGGACAAAACCAGCAAGTGCAAAACTTTGGCGAGCCCTTCTTCTTGGTAATCCATGAAGGTGAAACTCTTGAAGAAATCAAGAACCGTATCCAAAAGAAGCTTCATGTATCTGATGAAGATTTTGCCAAGTGGAAGTTTGCGTTCATGTCAATGGGGCGTCCAGAGTACTTGCAGGACACAGATGTTGTTTATAATCGCTTCCAGAGAAGAGATGTCTATGGTGCTTTTGAGCAGTACCTCGGGTTGGAGCATGCTGACACTACTCCTAAGAGGGCTTATGCTGCAAACCAGAACCGCCATGCTTACGAGAAGCCGGTAAAAATATACAATTAGCCCCAAAACATGAACACAAATGTCAGGAGACATTGTGGCAGCAACGTTGGACCAAGGCATTGATTGGACCAATGCATCGAATAAGAAGGGAAAGGGCGAGTGTGAGGGTGTGATGATGACCGTAGGATGTTGTAGAGAATCTGGTCTGATAGGGTTTTGGGTTGCGCATTGATAGTGGTGTGTTTTCTATTTTTTTCTTTTCAATCTATCCTTATTTTATTTCGTGCTTCAATACTTTGTGTTAATATCTGGAATGTGTGAAGACCATTGCACATGCAATTTTTATTTTCCAAAAAAAGAATATGGAAGCCCTTCGCTTGGATTCGGGAGCGCGGTTTGGCTTTCAGAGTTTATAGAATACCGAAACATTTGTAATTTTAGAGATTGTGGTTTAAGAAGATTTTTGACTGAGGAGATTTGTATTCTTTTTGCATTTTCAAATTATTCGTCATCTGCCTAAA
CDS Sequence
Protein Sequence