Gene Details:
- Gene ID: AT5G10540
- Gene Symbol: TOP2
- Gene Name: thimet metalloendopeptidase 2
- Description: Zincin-like metalloproteases family protein;(source:Araport11)
- TAIR Accession: locus:2142484
- 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:0000293 — guard cell — célula guardiana (Spanish, exact), occlusive cell (exact), 孔辺細胞 (Japanese, exact)
Gene Ontology:
- GO:0004222 — enables — metalloendopeptidase activity
- GO:0005886 — located in — plasma membrane
- GO:0009507 — located in — chloroplast
- GO:0006508 — involved in — proteolysis
- GO:0048046 — located in — apoplast
- GO:0006518 — involved in — peptide metabolic process
- GO:0005829 — located in — cytosol
Function-related keywords:
Literature:
- The gene complement for proteolysis in the cyanobacterium Synechocystis sp. PCC 6803 and Arabidopsis thaliana chloroplasts. DOI: 10.1007/s00294-002-0309-8 ; PMID: 12185496
- A proteomic approach to apoplastic proteins involved in cell wall regeneration in protoplasts of Arabidopsis suspension-cultured cells. DOI: 10.1093/pcp/pci089 ; PMID: 15769804
- The early responses of Arabidopsis thaliana cells to cadmium exposure explored by protein and metabolite profiling analyses. DOI: 10.1002/pmic.200500543 ; PMID: 16502469
- Site-specific phosphorylation profiling of Arabidopsis proteins by mass spectrometry and peptide chip analysis. DOI: 10.1021/pr8000173 ; PMID: 18433157
- Divergent evolution of the M3A family of metallopeptidases in plants. DOI: 10.1111/ppl.12457 ; PMID: 27100569
- Nitrogen remobilization during leaf senescence: lessons from Arabidopsis to crops. DOI: 10.1093/jxb/erw365 ; PMID: 27707774
- Arabidopsis thimet oligopeptidases are redox-sensitive enzymes active in the local and systemic plant immune response. DOI: 10.1016/j.jbc.2021.100695 ; PMID: 33894200
- The Arabidopsis thaliana chloroplast proteome reveals pathway abundance and novel protein functions. DOI: 10.1016/j.cub.2004.02.039 ; PMID: 15028209
- The early responses of Arabidopsis thaliana cells to cadmium exposure explored by protein and metabolite profiling analyses. DOI: 10.1002/pmic.200500543 ; PMID: 16502469
- Site-specific phosphorylation profiling of Arabidopsis proteins by mass spectrometry and peptide chip analysis. DOI: 10.1021/pr8000173 ; PMID: 18433157
- Hydroponic isotope labelling of entire plants (HILEP) for quantitative plant proteomics; an oxidative stress case study. DOI: 10.1016/j.phytochem.2008.04.007 ; PMID: 18538804
- 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
Sequences:
cDNA Sequence
- >AT5G10540.1
GCCCATTAGCCCAGCCCAAAAGAGTCGAGACACCAGAAAAACTGAAAATAAGACCTTGTCATTTTTTAGCACAAGGACCGAGTACAAACAGTGAAACACACACACGCACACACAAGAAACAAGAGTAAGAAAAAGGCTATATTACACACAGCAACAAGGGATCTGCTCAACGACCATGTTGAGCACTTGAAAACGTTACCGTAGCTCCACCAGAGCTTACCGATGTAGTATTCGAAGAGGATACATGATATGTTGCGACAGGCATTTTGGTCGGAAGATGAGGCACTGGTGCTTCAAGATTCAAGACTTGGATTGCTTGTTTTATTGAAGGCCTCGTGTTTACATCAGGATGAGCACACCATAATCCTACAATCATGAGACATTCTGCTTGTTTCTCATCGAAACCACCGATCCTGAGTTTCTCGTCGATAGCTGTAATAACTTCTCCTTTTCCATAAAGGTCCCACATTTTCTCTACAAGGTTTGTTACAGGCTCTACTCTTCCTTGTCTTCGATCCACAGATTTTCTTCCTGTAACAATCTCTAATGTAACCACTCCAAAGCTATACACATCAGATTCTTTGCTCGCCCTTCCGGTGCTTATGTATTCAGGAGCCATGTAACCAAATGTTCCTGCTAACCCTGTAGTCTGTGGACCTAGCTCGTGGTCCATCAATCTAGCCAACCCGAAATCACCAAGCTTGGCATTGAAATTGGAGTCGAGCATCACATTACTCGCCTTGATGTCTCTGTGTACAACACACTGCTCCCACTCCTCGTGAAGATAAAGCAGTGCAGAGGCGAGACCGAGAGTTATTTTGCATCTCACATGCCAAGCGAGATGCGGCTTTTTACCAAATAGATGGGCGTCAAGGCTACCATTTGGCATGAACTCGTATATCATTAGAAACTCATCTTTCTCATGGCACCAACCAATGAGTTGCACAAGGTTTCGATGTCTCAAACTGCTGATTATCTTTACTTCGGTTACGAACTCTCTTTTTCCCTGCTTAGACCCACCCGCAAACTTCTTTATCGCAACCATCATATCTAAGCTGTTTAAGTACCCTCTATAAACCGCTCCAAACCCTCCTTCCCCTAGCTTCCTATCATCTGCGAAATTGTTTGCAGCTGATGCAAGATCTTTATAAGTAAACTTTCTTGGTCCTGCTCCTCTTTCGAGATCTTCATTTATCGATGTTAAGTTTTCTGTCTCCTCTGCTTTCTTCTTCTGCTGCTTCCGTTTCAAGAAGACGATGAGCGAGGTAATAAAAAAGGTCAGCAAAACGAACCCAGAAACTGAAATACCAATTATCATCCCCTTCTTGTCATTCTGACTTTTCTTTATATCTATTAGCTCCAGGCTTGAACTGAACTCCCATGACAGAAGTCTATTTCCCTCGGTGACCCCTCCAGATGTCGCAGAAAACCCAATTGTAACTTCTGATGGCAGTACCTTTGAGAGATCAATGATGTAAGATAGGCTTGAATTCTCCAGAGGATCAGATGTTAAGTCGTAAGTCCAAGAGACACTCAAGTTTCTTCTAGCGGAATCATAGAATATCAGGACACGGCCTATATCTTGGTTGTGTGACGTTGCATTCCAAGAAGTGTAGTTAGAAGAAACAAGAGAGTTGTTGTTGATTCCTACATGGGATTTGACATCGAGAGGATCCCATTCTGGATTAGTAAATGTGTCGAACTCGACATAAACAAGTGGGAAAGCAGAAGACTGATTATTGGTTCCATTGAATAGACCCAAGAAACCACCAGCTGAGTTGGGAGGCAATTGGATTCTCGCTGGAGCTAGAAAGAAAGCAAACCCATGACCGTAATTACCATACCCAACATTACGGGTATCAATTCTGAAGGAGAAACGCGTACTAAAATCCGAAGGCTTACTGGTACCTGGATTCCATAAAGGAACCTGCTTACCATAAGTAGCCCAACCGGCACGGCATGTGTAGTCAATGTTGGTAAGCTCAACAGCCCCATTTGCTCTTGCATCTCCTTGGTATGCTATTTCAGAAACATCTGATCCAAAACGAGATATGTTAAATTGAACTGAACAGACAAAAGGGAGAACCAAAACAAAGGAAAATAACAGAATTGAGTTGGCCATTTGCAGGCAGAAACAACAATTAGCTCAAGAGACAAAATTGGTGCAACTGATATGTATATTTATCAGCAAGTCAATGACTAAACCTTGATTATAAGAATGAAATCATTTGAGAGCGTGATCCAAGCTATCACAGGAATTAAATTTTTTGATAAACAACCATAAAAGTCACCATATAGTTGACCCTAAGAGTAAACAGATCATATCTCTGTATTGATTGCTTATAACAGATTAGAAAAATGAGGAAGACATGTTTGATACTCATCCTAAATTGTAAGACAGCTTATGATAATCACAAAGGAACTCAAGTATATCAAAGAGAAGACTTATTTTTTCCTCAAGCCAATGGGTGAACAAGCAGAGTCAAACTTTATAGACTTCAAAAATAAGAAATCACAATCAAAAAGTCCATGTAACACTGATATTTTCCACAGAACAAGTTTATTCACAACCACGATTAGTTATTTGAACATGACATGATTAATCATCAACACAGATGAACCAAACTCAAGAACATGTCAATGCACAGTAAAAAAGGTCAAAAGATCTGTTCTTTTAAGAAATCGATTAAAAACATACACATCAAGAGACCATTATAAGCGAATATACTTCCATCAAGTCAATGCCAAACCTAGGATTAGAAAAATAAGATAGCCAGCTCAACCTCAGATAAAACTAATTAGCATCAACCTTAAAAGTAGTCAACTAAGTCTATCTGTTATCATGAGAGGAATGTGATAAACAATTGTATATGATCTTATCCTACGTGCAAGAACAAACCCAGATACAAAAACAAAATTATCTTTGAAAACGATGTGAAATCATTAAGAAAAAAGTAGGAACTTATTTAAATATTTGTAACCCTGGATCATGGCCATTCAGAAAACAATAAACTTTCTATGACTTATCCAGTTATCTTCATTTTCGTCGAACACTTGGTGAGCATGTCCTTAAACCAACCCAACGAACTACCTGAAAAATCTCCAAGCCCGGTTCAAAAAAAACTCAGAATGATAGAATTTATGATTTGACAAAATTATCCTTTAGCATTAACGAAACGCAAGTTTCTATTATTATCATTTTCGTCCCTCAAGTTTCCCTTAAGTCACATTATTGCCCCATCTGGCTTCCCTCAGATTCACTTCCACTACCGCCGCTTCTCATTCTCTTTCTCGTCAATCTCAATCAATGGCTTCTGAAGATACTCTCTCCTCGAATCCTCTATTGCAGAATTTTGACTTCCCTCCGTTTGACTCCGTTGATGCTCACCATGTCAGACCTGGGATTCGTGCTCTGTTGCAGCAGCTCGAAGCTGAATTGGAGCAGCTAGAAAAAGCTGTAGAGCCTTCATGGCCAAAACTAGTGGAGCCATTAGAGAAGATTATTGATCGGTTATCTGTTGTTTGGGGAATGATCAATCATCTTAAGGCTGTCAAGGACACACCTGAGCTTCGTGCTGCCATTGAAGAAGTTCAGCCGGAGAAGGTGAAGTTCCAGCTCAGGTTGGGACAGAGCAAACCCATTTACAATGCATTTAAGGCTATTCGAGAATCTCCAGACTGGAATTCATTGAGCGAAGCTCGTCAACGATTAGTTGAAGCCCAAATAAAGGAGGCGGTTCTGAGTGGTATTGCTCTTGAAGATGATAAGAGGGAAGAATTTAACAAAATTGAACAGGAACTTGAAAAACTTTCTCATAAGTTTTCTGAGAATGTTTTGGACGCTACAAAGAAGTTTGAAAAGTTGATAACAGACAAGAAAGAGATTGAGGGGTTGCCACCATCTGCACTTGGATTGTTCGCACAAGCAGCTGTTTCCAAGGGCCATGAAACTGCAACTGCTGACACTGGACCATGGCTCATTACACTCGATGCTCCTAGTTATCTTCCCGTTATGCAACATGCCAAAAACCGAGCTCTGCGCGAGGAAGTCTACCGTGCTTACTTATCCCGTGCCTCTTCGGGTGATTTAGATAATACAGCAATTATCGACCAAATCTTGAAGCTTCGACTGGAAAAGGCTAAGCTTCTTGGTTACAGAAATTATGCTGAGGTAAGCATGGCCACGAAAATGGCTACTGTGGAGAAAGCAGATGAGCTACTAGAAAAGCTTCGCAGTGCTTCATGGGATCCGGCTGTTCAAGACATAGAAGACCTTAAGAGTTTTGCGAAGAACCAAGGTGCTGCAGAGGCTGACAGTTTGACTCACTGGGACATCACTTTCTGGAGTGAGAGGCTTCGTGAATCCAAATACGATATTAATGAGGAAGAACTGCGACCTTACTTCTCATTGCCAAAGGTTATGGATGCGTTATTCGGTCTAGCTAAGACACTATTTGGAATTGATGTTGTGCCAGCAGACGGTGTAGCGCCGGTCTGGAACAGCGATGTTAGGTTCTACTGTGTCAAAGATTCTTCTGGAAATCCAACTGCTTATTTCTACTTTGATCCCTACTCTCGCCCTTCAGAAAAGAGAGACGGCGCTTGGATGGATGAAGTTTTTTCTCGTAGCCGAGTCATGGCCCAGAAGGGTTCCTCCGTTAGACTCCCTGTTGCTCAAATGGTCTGCAACCAAACTCCACCTGTTGGTGACAAGCCAAGCCTTATGACATTCCGTGAGGTAGAGACTGTGTTCCATGAATTTGGCCATGCTCTTCAGCATATGCTTACCAAAGAGGATGAGGGGCTAGTGGCTGGTATCCGGAATATCGAGTGGGATGCAGTTGAATTACCGTCACAGTTTATGGAGAACTGGTGCTACCACAGGGATACCTTAATGAGCATTGCTAAGCATTATCAAACAGGAGAAACTCTTCCCGAGAATGTATACAAGAAGCTACTGGCTGCAAGAACATTCCGTGCAGGGTCCCTTAGTCTTCGCCAGTTGAAGTTTGCTACAGTTGATCTGGAGCTGCACACAAAATACATGCCAGGTGGGGCAGAGACCATCTACGAAGTTGATCAAAGGGTGTCCATAAAAACACAAGTGATCCCTCCACTTCCTGAAGATAGATTCCTCTGTAGCTTCAGTCATATATTTGCAGGTGGTTATGCAGCTGGATACTACAGTTACAAGTGGGCGGAGGTTTTGTCTGCAGATGCGTTTTCAGCTTTTGAAGATGCTGGGTTGGATGACATTAAGGCTGTCAAAGAAACAGGACAGAGATTCAGAAACACTATACTTGCTCTGGGAGGAGGAAAAGCTCCTCTAAAAGTGTTTGTGGAGTTCAGAGGACGAGAACCTTCCCCAGAGCCTCTGCTCAGACACAATGGACTCTTGGCTGCTTCTGCTTGAACTAATTATGTCCTTTGCTACTCTCACACTCAACTTTGGGTTTATTAATGTCATTAAATAAAATTAAACTTTTTCCTTGCTTGTTTCCTGAGCATGCTTTCTTCAAGTGTTGTAGTAATCATCTCATAGAAGTGCAGCTGGTAAAAAAAAAAATGGTTCATAAACGAAACGAACAGAGATAATATTTTTCTTCGAACCATTTTCACATTCTCCACTACATTTTTCTTAGATCCTCTCGATCTTTTCTTACTAAGTCACTCTGTTCATGGTGTCACCAATAATCTAAAGAACCTTAATCTGAAAGAGGAAAAGGACAGAAAACTTCCACCTCTTTGCTCAACCTAGAAATTCACTAACTACCCTTTACATGTTTTCCTCTATCTACTGTTTCCCTAACACTCAAAATCTTTTCTTTCGAGTTTCCCTTCCTTCCTTTCCCTTCCATTTACACAAAGGTTCCACCTCCACCCAAATTCTCCGATTCTAGTCTCCTGGAGTTGTTAAGCATATTTCAACGTACGGTCAACAATTATTACGGGGCTTCTTTTGCTTCCACAAATGGAGACTGCACACTATCCGCATCCGAATCACTTCCTGATGAACTCCCTGACTCTGAATCTGCATAGAGTGCCATACAAAACTCGAAGGGCACAAGATCATTTCAGAGGGATATGATCTCTTTCTCCCTTCGC
CDS Sequence
Protein Sequence