Gene Details:
- Gene ID: AT2G32780
- Gene Symbol: ATUBP1, UBP1
- Gene Name: ubiquitin-specific protease 1
- Description: ubiquitin-specific protease 1;(source:Araport11)
- TAIR Accession: locus:2046392
- Genome: Araport11_genome_release
- Species: Arabidopsis thaliana
Transcripts:
Gene Ontology:
- GO:0005634 — located in — nucleus
- GO:0004843 — enables — cysteine-type deubiquitinase activity
- GO:0006511 — involved in — ubiquitin-dependent protein catabolic process
- GO:0005634 — is active in — nucleus
- GO:0008270 — enables — zinc ion binding
- GO:0016579 — involved in — protein deubiquitination
- GO:0005829 — is active in — cytosol
Germplasm Phenotype:
- CS860081 — No visible phenotype.
Literature:
- Heat stress phenotypes of Arabidopsis mutants implicate multiple signaling pathways in the acquisition of thermotolerance. DOI: 10.1104/pp.105.062257 ; PMID: 15923322
- 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
- UBIQUITIN-SPECIFIC PROTEASES function in plant development and stress responses. DOI: 10.1007/s11103-017-0633-5 ; PMID: 28695315
- Protease Inhibitor-Dependent Inhibition of Light-Induced Stomatal Opening. DOI: 10.3389/fpls.2021.735328 ; PMID: 34567048
- 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
Sequence:
cDNA Sequence
- >AT2G32780.1 ATGAGGTTTGCTGCAACGGTCTCCGAGAAGCAATCTGAGCAAAGCGTGGAAGTAACTGAGGAGTTTGCTGTGACAATGACAGAAAAAAGATCTTGTGTCCATTTTGATAAATATGTTGATTTGGATAAGTTGTTGAAAATTATCAAATCTTATCAACAAATCAAGTGTGGAGAATGCAATGAAAGAGTTCACGTGAAGAGAGGAAGTAGATGGGGTGCTAGTAACAGGAGAGACTGGTATTCTTCCTCTGACCAGAATTGTGCTAGAAATGCTATTTGGCTTTGTTTGGAATGTGGCTATTATGTTTGTGGAGATGTTGGTTTGCCGACTGAGGCTCAGAGTCATGTTATGGGGCATAACAGGTTGACGCGTCACCGTTTGGTGATTCAATGTAAAAATCCTCAGTTAAGGTGGTGTTTCTCATGCCAATCACTTCTCCCTTTTGATAATGAAGAGAATGGTGAGAAAAAAGATTTGTTGCTGGAAGTTGTGAAATTGATTAGAGAAAGATCTCCAAACACGTACTCTGCTTCATTTGAAACTGAATTTTCATGTTCAGGAAGTATCTATGGTGGTATAGAAGCAAGAGATGGTTATGCTGTAAGAGGTTTAGTTAACCTTGGGAACACATGTTTCTTTAATTCTGTAATGCAGAACCTTCTCTCTTTGGATCAATTACGTGAGCACTTCTTGAAAGAGGATCTATCTGTTAGCGGGCCTCTCGTTTCTTCCCTGAAGGAACTATTTGCTGAATCAAATTCAGAGGCAAGCGTTTTTAGGAATGAGATAAATCCAAGAGACCTTTTCTTTTCTGTCTGTTCTCAGGCTCCCCAATTTAGGGGATATCAGCAGCATGACAGTCATGAGTTGCTAAGATGTTTGTTGGATGGTTTGAGCATTGAAGAATCGAGCCTGAGGAAGAAGCTTGGTGTTTCTGATAGTAATGACAGTTCTACATATCAGAAACCTACTCTCATAGATTCTGTATTTGGAGGTGAAATATCGAGCACTGTTTCTTGTTTAGAATGCGGACATTTCTCAAAAGTGTATGAACCCTTTATGGATCTCTCTTTACCCGTTCCGTCCATGAAACTTCCTCCTAAAAAGCAACAAATCCTTTCTCAGGCAAAGGAGGTCCTTAAGAATGGGGCAGTCAGCAAAGATTCAGAAGTTGTGTCCGCTAAACCTGCATCGGATCACAATTCCACAGTTCCACTCTTTCCATCGGATCACAAGATTCAAAGCAGACCAGAAACCTCTGACAATGAAACCGATTTGGTTTTGCTAAGCGATGTTAGTGATACTGCCCCATCAACCGAGGCTAAAGGAGTTAATCAGATTTTGGTAGGTAGCACAGAAACGCTGATGCATGATAATGATCGAACTGGAAAAACTGTACCAGATAAAGAAGATGTACGAGCTACGCAGTCTAATGAAGAAACATCTGCAAGTGGGATTTCAGCAGTGATAGATGAGGCTCAAGTTTGCGGTTGTCCTGATTTAGAGCAAAGTTCTTCATCTGCAAATCAGGGGGCTGATGAAGAGCTTGCCTTGATGGTTGCAGATTCTCAGGTTCTGTATATGCCTTATAAAGATCACTTATTCTATGATGATTATATGGTTGCAGAAGCTTCCTCGTCATTCGTGAGCGGTGACCATGAACCAAAAAAAGACTATTTTGACTTTAGCAGTTTTCTTGATGAGCCTGAGATACGCGAAGGACCTGTTTTTAGACCACTATCTAAATCTGAAGTTTATGAAGCTGGTTTTAAGGCTGACTGCAGTGATGATAAAACAGTTAGTGCAGGTAAGGGTGAAGCTTCCTCGTCATTCATAAGTAGTGACCATGAACAAAACATAGATTATGTTGACTTTAGCAGTTTTTTTGACGAGCCTGAGATATCCGAAAGACCTTTCTTTCGACCGCTATCTAAATCTGAAGTTTCTGAAGCTGGTTTTAAGGCTGACTGCAGTGATGATAAAACAGTTAGTGCAGGTAAGGGTGAAGCTTCCTCGTCATTCGTAAGCAGTGACCATGAACAAAACATAGATTATGTTGACTTTAGCAGTTTTTTTGATGAGCCTGAGATATCCGAAAGACCTTTCTTTCGACCGCTATCTAAATCTGAAGTTTCTGAAGCAGGTTTTATGGCTGTCAGCGGTAATGATAAAACAGTTAGGGCAGGTAAGGGTGAAACTTTTTCTTCATTCATGAGCGGTGACAATGAACGAAACATAGATTATGTTGAGTTTACTAACAGAATATTCGATGATCGTGGGACATCTGAAAGACCTGTTTTTGGACCACCATCTAAAGCTAAAGTTTCTGAAGCTGGTTTTGTGGCTGTAAGCAGCGACTCTGATCCTGCAGTTCTTGATGAATCGGATTCACCAGTGTCTGTAGATAGGTGTTTGGCTCAGTTCACGAAGCATGAGATTTTGTCAGAAGACAATGCTTGGCATTGTGAGAATTGTTCGAAGAACCTAAAACTTCAGCGGTTGAGAGAAAAGAGAAGAACTAAAGAAGGATTGAGCAACAGATGGGTGAATGAAAATGGAGCTAGTTCGGCTTTTGATGAGTGTAGAGACAGTTCACTAAATCAATCCTGTATAGATCTCGAAAACGGTTACAAAGCTGCTCCTCCGATCACAAAATTGCCAAACTGCAAGGAAGAGGAAAGCGCAATAGATGATGGATTTGTGGGAGAGGAAAATACAAAGCAAGCTCCAATTACTTCTGTTACTGAAACACCTCTCCTCGGTGGAGAAACCATCAGTTCTCAACCAGCCAGTGACAATGAATGTGAAAATTGGGAAGACTTGGCAGTAGATTCTGAAGAAGTGATAGTAAAAAGAGATGCTAGGAAAAAGGTACTTATAAACAAGGCACCACCTGTCTTGACCATACATCTCAAAAGGTTCAGCCAAGATGCTCGAGGCAGGGTAAGCAAGCTAAGTGGCCATGTTGATTTCCAAGAGTTCATCGATCTTAGCAAATACATGGACACTAGGTGCTCCGAAGAAGACGAGCCGGTTTACAGGTTGGCCGGGTTAGTGGAACATTTAGGGGCAATGAGTCGAGGTCATTATGTTTCTTACATTAGAGGAGGCCACAAGGAGAGGAGAGACTCTGATACTAAAGAACCAAACTCATCCATATGGTATCACGCAAGCGATTCTCAGGTTCGACCGGCTTCTTTGGAAGAAGTTCTCCGTTCTGAAGCCTATATCTTATTTTACGAACGAATCTGAGAACACGGAGGCTGGATATCT
CDS Sequence
- >AT2G32780.1 ATGAGGTTTGCTGCAACGGTCTCCGAGAAGCAATCTGAGCAAAGCGTGGAAGTAACTGAGGAGTTTGCTGTGACAATGACAGAAAAAAGATCTTGTGTCCATTTTGATAAATATGTTGATTTGGATAAGTTGTTGAAAATTATCAAATCTTATCAACAAATCAAGTGTGGAGAATGCAATGAAAGAGTTCACGTGAAGAGAGGAAGTAGATGGGGTGCTAGTAACAGGAGAGACTGGTATTCTTCCTCTGACCAGAATTGTGCTAGAAATGCTATTTGGCTTTGTTTGGAATGTGGCTATTATGTTTGTGGAGATGTTGGTTTGCCGACTGAGGCTCAGAGTCATGTTATGGGGCATAACAGGTTGACGCGTCACCGTTTGGTGATTCAATGTAAAAATCCTCAGTTAAGGTGGTGTTTCTCATGCCAATCACTTCTCCCTTTTGATAATGAAGAGAATGGTGAGAAAAAAGATTTGTTGCTGGAAGTTGTGAAATTGATTAGAGAAAGATCTCCAAACACGTACTCTGCTTCATTTGAAACTGAATTTTCATGTTCAGGAAGTATCTATGGTGGTATAGAAGCAAGAGATGGTTATGCTGTAAGAGGTTTAGTTAACCTTGGGAACACATGTTTCTTTAATTCTGTAATGCAGAACCTTCTCTCTTTGGATCAATTACGTGAGCACTTCTTGAAAGAGGATCTATCTGTTAGCGGGCCTCTCGTTTCTTCCCTGAAGGAACTATTTGCTGAATCAAATTCAGAGGCAAGCGTTTTTAGGAATGAGATAAATCCAAGAGACCTTTTCTTTTCTGTCTGTTCTCAGGCTCCCCAATTTAGGGGATATCAGCAGCATGACAGTCATGAGTTGCTAAGATGTTTGTTGGATGGTTTGAGCATTGAAGAATCGAGCCTGAGGAAGAAGCTTGGTGTTTCTGATAGTAATGACAGTTCTACATATCAGAAACCTACTCTCATAGATTCTGTATTTGGAGGTGAAATATCGAGCACTGTTTCTTGTTTAGAATGCGGACATTTCTCAAAAGTGTATGAACCCTTTATGGATCTCTCTTTACCCGTTCCGTCCATGAAACTTCCTCCTAAAAAGCAACAAATCCTTTCTCAGGCAAAGGAGGTCCTTAAGAATGGGGCAGTCAGCAAAGATTCAGAAGTTGTGTCCGCTAAACCTGCATCGGATCACAATTCCACAGTTCCACTCTTTCCATCGGATCACAAGATTCAAAGCAGACCAGAAACCTCTGACAATGAAACCGATTTGGTTTTGCTAAGCGATGTTAGTGATACTGCCCCATCAACCGAGGCTAAAGGAGTTAATCAGATTTTGGTAGGTAGCACAGAAACGCTGATGCATGATAATGATCGAACTGGAAAAACTGTACCAGATAAAGAAGATGTACGAGCTACGCAGTCTAATGAAGAAACATCTGCAAGTGGGATTTCAGCAGTGATAGATGAGGCTCAAGTTTGCGGTTGTCCTGATTTAGAGCAAAGTTCTTCATCTGCAAATCAGGGGGCTGATGAAGAGCTTGCCTTGATGGTTGCAGATTCTCAGGTTCTGTATATGCCTTATAAAGATCACTTATTCTATGATGATTATATGGTTGCAGAAGCTTCCTCGTCATTCGTGAGCGGTGACCATGAACCAAAAAAAGACTATTTTGACTTTAGCAGTTTTCTTGATGAGCCTGAGATACGCGAAGGACCTGTTTTTAGACCACTATCTAAATCTGAAGTTTATGAAGCTGGTTTTAAGGCTGACTGCAGTGATGATAAAACAGTTAGTGCAGGTAAGGGTGAAGCTTCCTCGTCATTCATAAGTAGTGACCATGAACAAAACATAGATTATGTTGACTTTAGCAGTTTTTTTGACGAGCCTGAGATATCCGAAAGACCTTTCTTTCGACCGCTATCTAAATCTGAAGTTTCTGAAGCTGGTTTTAAGGCTGACTGCAGTGATGATAAAACAGTTAGTGCAGGTAAGGGTGAAGCTTCCTCGTCATTCGTAAGCAGTGACCATGAACAAAACATAGATTATGTTGACTTTAGCAGTTTTTTTGATGAGCCTGAGATATCCGAAAGACCTTTCTTTCGACCGCTATCTAAATCTGAAGTTTCTGAAGCAGGTTTTATGGCTGTCAGCGGTAATGATAAAACAGTTAGGGCAGGTAAGGGTGAAACTTTTTCTTCATTCATGAGCGGTGACAATGAACGAAACATAGATTATGTTGAGTTTACTAACAGAATATTCGATGATCGTGGGACATCTGAAAGACCTGTTTTTGGACCACCATCTAAAGCTAAAGTTTCTGAAGCTGGTTTTGTGGCTGTAAGCAGCGACTCTGATCCTGCAGTTCTTGATGAATCGGATTCACCAGTGTCTGTAGATAGGTGTTTGGCTCAGTTCACGAAGCATGAGATTTTGTCAGAAGACAATGCTTGGCATTGTGAGAATTGTTCGAAGAACCTAAAACTTCAGCGGTTGAGAGAAAAGAGAAGAACTAAAGAAGGATTGAGCAACAGATGGGTGAATGAAAATGGAGCTAGTTCGGCTTTTGATGAGTGTAGAGACAGTTCACTAAATCAATCCTGTATAGATCTCGAAAACGGTTACAAAGCTGCTCCTCCGATCACAAAATTGCCAAACTGCAAGGAAGAGGAAAGCGCAATAGATGATGGATTTGTGGGAGAGGAAAATACAAAGCAAGCTCCAATTACTTCTGTTACTGAAACACCTCTCCTCGGTGGAGAAACCATCAGTTCTCAACCAGCCAGTGACAATGAATGTGAAAATTGGGAAGACTTGGCAGTAGATTCTGAAGAAGTGATAGTAAAAAGAGATGCTAGGAAAAAGGTACTTATAAACAAGGCACCACCTGTCTTGACCATACATCTCAAAAGGTTCAGCCAAGATGCTCGAGGCAGGGTAAGCAAGCTAAGTGGCCATGTTGATTTCCAAGAGTTCATCGATCTTAGCAAATACATGGACACTAGGTGCTCCGAAGAAGACGAGCCGGTTTACAGGTTGGCCGGGTTAGTGGAACATTTAGGGGCAATGAGTCGAGGTCATTATGTTTCTTACATTAGAGGAGGCCACAAGGAGAGGAGAGACTCTGATACTAAAGAACCAAACTCATCCATATGGTATCACGCAAGCGATTCTCAGGTTCGACCGGCTTCTTTGGAAGAAGTTCTCCGTTCTGAAGCCTATATCTTATTTTACGAACGAATCTGA
Protein Sequence
- >AT2G32780.1 MRFAATVSEKQSEQSVEVTEEFAVTMTEKRSCVHFDKYVDLDKLLKIIKSYQQIKCGECNERVHVKRGSRWGASNRRDWYSSSDQNCARNAIWLCLECGYYVCGDVGLPTEAQSHVMGHNRLTRHRLVIQCKNPQLRWCFSCQSLLPFDNEENGEKKDLLLEVVKLIRERSPNTYSASFETEFSCSGSIYGGIEARDGYAVRGLVNLGNTCFFNSVMQNLLSLDQLREHFLKEDLSVSGPLVSSLKELFAESNSEASVFRNEINPRDLFFSVCSQAPQFRGYQQHDSHELLRCLLDGLSIEESSLRKKLGVSDSNDSSTYQKPTLIDSVFGGEISSTVSCLECGHFSKVYEPFMDLSLPVPSMKLPPKKQQILSQAKEVLKNGAVSKDSEVVSAKPASDHNSTVPLFPSDHKIQSRPETSDNETDLVLLSDVSDTAPSTEAKGVNQILVGSTETLMHDNDRTGKTVPDKEDVRATQSNEETSASGISAVIDEAQVCGCPDLEQSSSSANQGADEELALMVADSQVLYMPYKDHLFYDDYMVAEASSSFVSGDHEPKKDYFDFSSFLDEPEIREGPVFRPLSKSEVYEAGFKADCSDDKTVSAGKGEASSSFISSDHEQNIDYVDFSSFFDEPEISERPFFRPLSKSEVSEAGFKADCSDDKTVSAGKGEASSSFVSSDHEQNIDYVDFSSFFDEPEISERPFFRPLSKSEVSEAGFMAVSGNDKTVRAGKGETFSSFMSGDNERNIDYVEFTNRIFDDRGTSERPVFGPPSKAKVSEAGFVAVSSDSDPAVLDESDSPVSVDRCLAQFTKHEILSEDNAWHCENCSKNLKLQRLREKRRTKEGLSNRWVNENGASSAFDECRDSSLNQSCIDLENGYKAAPPITKLPNCKEEESAIDDGFVGEENTKQAPITSVTETPLLGGETISSQPASDNECENWEDLAVDSEEVIVKRDARKKVLINKAPPVLTIHLKRFSQDARGRVSKLSGHVDFQEFIDLSKYMDTRCSEEDEPVYRLAGLVEHLGAMSRGHYVSYIRGGHKERRDSDTKEPNSSIWYHASDSQVRPASLEEVLRSEAYILFYERI