Gene Details:
- Gene ID: AT3G18730
- Gene Symbol: BRU1, MGO3, RPL30, TSK
- Gene Name: BRUSHY1, MGOUN3, TONSOKU
- Description: tetratricopeptide repeat (TPR)-containing protein;(source:Araport11)
- TAIR Accession:
- Genome: Araport11_genome_release
- Species: Arabidopsis thaliana
Transcripts:
Germplasm Phenotype:
- SALK_099025 — Compromised nonhost resistance against P. syringae pv. tomato T1 and P. syringae pv. tabaci.
- tsk — tsk mutant has reduced root growth, fasciated stem, disorganized shoot and root meristem. Mutants contain increased proportion of cells with 4C nuclei and cells expressing cyclin B1 compared to the wild type, suggesting that TSK is required during the cell cycle and defects of TSK cause the arrest of cell cycle progression at G2/M phase.
Literature:
- BRU1, a novel link between responses to DNA damage and epigenetic gene silencing in Arabidopsis. DOI: 10.1101/gad.295404 ; PMID: 15082530
- A novel Arabidopsis gene TONSOKU is required for proper cell arrangement in root and shoot apical meristems. DOI: 10.1111/j.1365-313X.2004.02074.x ; PMID: 15125773
- An Arabidopsis protein with a novel calcium-binding repeat sequence interacts with TONSOKU/MGOUN3/BRUSHY1 involved in meristem maintenance. DOI: 10.1093/pcp/pci155 ; PMID: 15964904
- MGOUN3: evidence for chromatin-mediated regulation of FLC expression. DOI: 10.1093/jxb/erj169 ; PMID: 16728410
- Comprehensive analysis of silencing mutants reveals complex regulation of the Arabidopsis methylome. DOI: 10.1016/j.cell.2012.10.054 ; PMID: 23313553
- Ribosomal protein QM/RPL10 positively regulates defence and protein translation mechanisms during nonhost disease resistance. DOI: 10.1111/mpp.12991 ; PMID: 32964634
- Membrane proteomic analysis of Arabidopsis thaliana using alternative solubilization techniques. DOI: 10.1021/pr060525b ; PMID: 17432890
Sequences:
cDNA Sequence
- >AT3G18730.1
GAATTTTGGCGGGATAGTTTGGGATGGGACCAAAAATTTGGCGACTGGAGAAAATGAGAAAATCAAAATCACTGAGAAAGAAATTTCGAGAAATCTGAAAATCGGAAGGAAGAAAACAAAAACCTTTCAATTGAAGAACGGAGAAATCATCATCCGATGGGTCGATTAGATGTAGCTGCGGCGAAGAGAGCGTACCGGAAAGCAGAAGAAGTGGGTGACCGGAGAGAACAGGCGAGGTGGGCTAACAATGTCGGCGATATCCTTAAGAATCATGGAGAGTACGTTGATGCTCTCAAGTGGTTTAGGATTGATTACGATATCTCCGTCAAGTATTTACCTGGGAAAGATTTGTTACCTACTTGTCAGTCTCTTGGCGAGATCTATCTCCGCCTCGAAAATTTCGAAGAAGCCTTGATTTATCAGAAGAAGCATTTACAGCTAGCTGAAGAAGCTAATGACACTGTGGAGAAGCAAAGAGCATGTACTCAACTTGGACGTACTTACCATGAAATGTTCTTGAAGTCTGAGGATGATTGTGAAGCCATTCAGAGTGCTAAAAAGTACTTTAAGAAAGCCATGGAACTTGCACAGATTCTCAAGGAGAAACCACCTCCTGGAGAATCTAGCGGATTCCTTGAGGAGTATATTAACGCACATAACAACATCGGTATGCTTGACCTTGATCTTGATAATCCTGAAGCAGCCCGTACTATTCTTAAGAAAGGGCTGCAGATTTGCGATGAAGAGGAGGTGAGAGAGTATGATGCTGCTCGGAGTAGGCTTCATCATAACCTTGGAAACGTTTTTATGGCGCTGAGAAGTTGGGATGAAGCAAAGAAACACATTGAGATGGATATTAATATCTGTCATAAGATTAATCATGTCCAAGGAGAAGCGAAGGGGTATATCAATCTCGCTGAATTACACAACAAGACCCAAAAGTACATTGATGCTCTTTTATGTTATGGTAAAGCTTCTAGTCTAGCGAAATCTATGCAAGACGAGAGTGCATTGGTTGAACAGATAGAGCATAATACCAAGATAGTCAAGAAATCCATGAAAGTTATGGAAGAATTGAGAGAAGAAGAGCTTATGCTTAAGAAGTTGTCTGCAGAAATGACTGATGCCAAAGGCACTTCGGAGGAACGAAAGTCTATGCTCCAAGTAAATGCTTGTCTTGGAAGTCTTATTGATAAATCTAGCATGGTATTCGCATGGCTGAAGCATCTTCAATATTCAAAAAGGAAGAAGAAAATATCAGATGAACTCTGTGACAAGGAAAAGCTGAGTGATGCCTTCATGATTGTTGGAGAATCTTACCAAAATCTCAGAAATTTCAGAAAGTCCCTGAAGTGGTTCATAAGAAGTTATGAGGGACATGAAGCAATTGGTAATCTGGAGGGTCAAGCACTAGCGAAGATTAATATTGGTAATGGTTTGGACTGTATTGGGGAATGGACAGGAGCACTTCAGGCATATGAAGAGGGGTACAGAATTGCTTTGAAAGCTAATCTTCCTTCAATCCAGCTTTCTGCACTGGAAGATATACACTATATCCATATGATGAGATTTGGGAATGCTCAAAAAGCCAGTGAATTGAAGGAAACAATACAAAATCTGAAGGAGTCAGAACATGCTGAGAAAGCCGAATGTAGTACACAAGATGAATGCTCTGAAACTGACTCAGAAGGGCATGCGAATGTATCGAATGATAGGCCAAATGCATGTAGCTCACCGCAAACACCAAATTCACTTAGATCAGAACGGTTAGCAGATCTGGATGAAGCAAATGATGATGTGCCACTAATTTCATTTCTCCAGCCTGGAAAACGTCTGTTCAAAAGGAAACAAGTTTCAGGAAAACAAGATGCTGACACTGATCAGACGAAGAAAGATTTCTCTGTAGTAGCAGACTCTCAGCAGACAGTTGCTGGTCGAAAGCGTATTCGAGTAATCCTCTCTGATGATGAAAGTGAGACCGAATATGAGCTGGGATGCCCTAAAGACAGTTCTCACAAAGTTCTAAGGCAGAATGAAGAGGTTTCTGAGGAAAGTATGTATTTTGATGGTGCTATTAATTATACGGATAATCGTGCCATCCAAGATAATGTAGAAGAAGGTTCTTGCTCGTATACGCCTCTCCATCCTATTAAGGTGGCTCCAAATGTCAGCAATTGTAGATCTTTGAGTAATAATATAGCTGTTGAAACAACTGGTCGTCGTAAAAAAGGATCTCAATGTGATGTTGGCGACTCCAACGGCACGTCCTGCAAAACTGGAGCTGCTCTCGTGAACTTCCACGCTTACTCAAAAACTGAGGATCGAAAAATAAAAATTGAAATTGAAAATGAACACATAGCTTTAGACTCCTGTTCTCACGATGATGAGTCTGTGAAGGTGGAACTTACTTGCCTATACTATTTACAGCTTCCTGACGATGAGAAATCTAAAGGTCTGTTGCCGATCATTCATCATTTGGAATATGGTGGAAGAGTTCTGAAACCATTGGAACTATATGCGATTCTCAGGGACTCTTCTGAAAATGTTGTTATTGAAGCTTCCGTTGATGGCTGGGTTCACAAGCGCCTGATGAAACTATACATGGACTGTTGCCAGTCGTTGTCAGAGAAACCCAGTATGAAATTGCTTAAGAAATTATATATTTCGGAGGTAGAAGATGATATCAATGTGTCAGAATGTGAACTGCAAGACATATCAGCTGCTCCATTATTGTGTGCCCTCCATGTCCACAATATTGCTATGTTGGATCTCTCCCACAATATGCTAGGGAATGGAACAATGGAGAAATTGAAACAACTTTTTGCCTCATCAAGCCAGATGTATGGTGCTTTAACTTTGGATTTGCACTGCAATCGATTTGGTCCAACTGCTTTGTTTCAGATCTGTGAATGCCCTGTTCTGTTCACTCGACTTGAAGTCCTCAATGTGTCCAGGAATCGACTTACAGATGCTTGTGGATCATACCTCTCAACTATAGTGAAAAATTGCCGGGCACTTTACAGCTTGAATGTGGAACATTGTTCACTTACATCAAGAACAATCCAAAAGGTAGCTAATGCTTTGGATTCGAAGTCAGGACTTTCACAACTCTGTATAGGTTATAATAATCCTGTTTCAGGGAGTAGTATTCAAAACCTCTTGGCTAAATTGGCTACTCTAAGCAGCTTTGCAGAACTGAGCATGAATGGCATAAAGCTGAGCAGCCAAGTTGTTGATAGCCTTTATGCACTTGTTAAGACTCCATCTCTGTCAAAACTTTTGGTTGGCAGCAGTGGAATAGGAACGGACGGGGCTATAAAAGTTACTGAATCTCTATGTTATCAGAAGGAAGAAACTGTGAAGCTCGACCTTTCATGTTGTGGACTAGCTTCCTCTTTCTTTATTAAGCTCAACCAAGATGTTACTCTAACCTCTAGCATTCTTGAGTTTAATGTTGGAGGAAATCCAATCACCGAAGAGGGAATCAGTGCACTTGGGGAGCTGCTTAGGAATCCTTGTTCAAACATAAAAGTTCTTATTCTAAGCAAGTGTCATCTGAAGCTCGCTGGGCTTCTATGCATAATTCAAGCACTTTCAGATAATAAGAATCTTGAAGAGCTTAATCTTTCTGACAATGCTAAGATAGAAGATGAGACTGTGTTTGGCCAACCTGTGAAGGAAAGATCAGTAATGGTAGAGCAAGAACATGGAACATGTAAATCTGTCACCTCAATGGACAAAGAACAAGAGCTATGTGAAACCAATATGGAGTGTGATGATCTCGAAGTTGCAGACAGCGAAGATGAACAAATAGAGGAAGGAACTGCAACCTCGAGTAGTCTTAGTTTGCCACGCAAGAACCATATCGTGAAAGAGCTTTCTACCGCTCTTTCAATGGCTAACCAGTTGAAGATTCTGGACTTAAGCAACAATGGGTTCTCAGTTGAAGCCTTGGAAACATTATACATGTCATGGTCATCATCAAGCTCCCGAACTGGCATCGCCCAAAGGCATGTAAAAGAAGAGACTGTCCATTTTTATGTCGAAGGAAAGATGTGTTGCGGAGTCAAATCATGCTGCAGAAAGGACTGAAGAAGATCTTGTCTGAAACTGTATTTGCCAATAATAAACCTCTGTTTTTAAATATTGAGTATTTTTATTTAGAGCGTTTGCAGAAATTTTTACATATTGATATTTACACATTTGGGTTGTGATGTGTAAATTTGCTGCAGTTTAAGCGTTAATGCTCATATAAATTTAGTGACGTTAATCTTATGCAACTTTTTAAAAAATGTAAAAATT
CDS Sequence
- >AT3G18730.1
ATGGGTCGATTAGATGTAGCTGCGGCGAAGAGAGCGTACCGGAAAGCAGAAGAAGTGGGTGACCGGAGAGAACAGGCGAGGTGGGCTAACAATGTCGGCGATATCCTTAAGAATCATGGAGAGTACGTTGATGCTCTCAAGTGGTTTAGGATTGATTACGATATCTCCGTCAAGTATTTACCTGGGAAAGATTTGTTACCTACTTGTCAGTCTCTTGGCGAGATCTATCTCCGCCTCGAAAATTTCGAAGAAGCCTTGATTTATCAGAAGAAGCATTTACAGCTAGCTGAAGAAGCTAATGACACTGTGGAGAAGCAAAGAGCATGTACTCAACTTGGACGTACTTACCATGAAATGTTCTTGAAGTCTGAGGATGATTGTGAAGCCATTCAGAGTGCTAAAAAGTACTTTAAGAAAGCCATGGAACTTGCACAGATTCTCAAGGAGAAACCACCTCCTGGAGAATCTAGCGGATTCCTTGAGGAGTATATTAACGCACATAACAACATCGGTATGCTTGACCTTGATCTTGATAATCCTGAAGCAGCCCGTACTATTCTTAAGAAAGGGCTGCAGATTTGCGATGAAGAGGAGGTGAGAGAGTATGATGCTGCTCGGAGTAGGCTTCATCATAACCTTGGAAACGTTTTTATGGCGCTGAGAAGTTGGGATGAAGCAAAGAAACACATTGAGATGGATATTAATATCTGTCATAAGATTAATCATGTCCAAGGAGAAGCGAAGGGGTATATCAATCTCGCTGAATTACACAACAAGACCCAAAAGTACATTGATGCTCTTTTATGTTATGGTAAAGCTTCTAGTCTAGCGAAATCTATGCAAGACGAGAGTGCATTGGTTGAACAGATAGAGCATAATACCAAGATAGTCAAGAAATCCATGAAAGTTATGGAAGAATTGAGAGAAGAAGAGCTTATGCTTAAGAAGTTGTCTGCAGAAATGACTGATGCCAAAGGCACTTCGGAGGAACGAAAGTCTATGCTCCAAGTAAATGCTTGTCTTGGAAGTCTTATTGATAAATCTAGCATGGTATTCGCATGGCTGAAGCATCTTCAATATTCAAAAAGGAAGAAGAAAATATCAGATGAACTCTGTGACAAGGAAAAGCTGAGTGATGCCTTCATGATTGTTGGAGAATCTTACCAAAATCTCAGAAATTTCAGAAAGTCCCTGAAGTGGTTCATAAGAAGTTATGAGGGACATGAAGCAATTGGTAATCTGGAGGGTCAAGCACTAGCGAAGATTAATATTGGTAATGGTTTGGACTGTATTGGGGAATGGACAGGAGCACTTCAGGCATATGAAGAGGGGTACAGAATTGCTTTGAAAGCTAATCTTCCTTCAATCCAGCTTTCTGCACTGGAAGATATACACTATATCCATATGATGAGATTTGGGAATGCTCAAAAAGCCAGTGAATTGAAGGAAACAATACAAAATCTGAAGGAGTCAGAACATGCTGAGAAAGCCGAATGTAGTACACAAGATGAATGCTCTGAAACTGACTCAGAAGGGCATGCGAATGTATCGAATGATAGGCCAAATGCATGTAGCTCACCGCAAACACCAAATTCACTTAGATCAGAACGGTTAGCAGATCTGGATGAAGCAAATGATGATGTGCCACTAATTTCATTTCTCCAGCCTGGAAAACGTCTGTTCAAAAGGAAACAAGTTTCAGGAAAACAAGATGCTGACACTGATCAGACGAAGAAAGATTTCTCTGTAGTAGCAGACTCTCAGCAGACAGTTGCTGGTCGAAAGCGTATTCGAGTAATCCTCTCTGATGATGAAAGTGAGACCGAATATGAGCTGGGATGCCCTAAAGACAGTTCTCACAAAGTTCTAAGGCAGAATGAAGAGGTTTCTGAGGAAAGTATGTATTTTGATGGTGCTATTAATTATACGGATAATCGTGCCATCCAAGATAATGTAGAAGAAGGTTCTTGCTCGTATACGCCTCTCCATCCTATTAAGGTGGCTCCAAATGTCAGCAATTGTAGATCTTTGAGTAATAATATAGCTGTTGAAACAACTGGTCGTCGTAAAAAAGGATCTCAATGTGATGTTGGCGACTCCAACGGCACGTCCTGCAAAACTGGAGCTGCTCTCGTGAACTTCCACGCTTACTCAAAAACTGAGGATCGAAAAATAAAAATTGAAATTGAAAATGAACACATAGCTTTAGACTCCTGTTCTCACGATGATGAGTCTGTGAAGGTGGAACTTACTTGCCTATACTATTTACAGCTTCCTGACGATGAGAAATCTAAAGGTCTGTTGCCGATCATTCATCATTTGGAATATGGTGGAAGAGTTCTGAAACCATTGGAACTATATGCGATTCTCAGGGACTCTTCTGAAAATGTTGTTATTGAAGCTTCCGTTGATGGCTGGGTTCACAAGCGCCTGATGAAACTATACATGGACTGTTGCCAGTCGTTGTCAGAGAAACCCAGTATGAAATTGCTTAAGAAATTATATATTTCGGAGGTAGAAGATGATATCAATGTGTCAGAATGTGAACTGCAAGACATATCAGCTGCTCCATTATTGTGTGCCCTCCATGTCCACAATATTGCTATGTTGGATCTCTCCCACAATATGCTAGGGAATGGAACAATGGAGAAATTGAAACAACTTTTTGCCTCATCAAGCCAGATGTATGGTGCTTTAACTTTGGATTTGCACTGCAATCGATTTGGTCCAACTGCTTTGTTTCAGATCTGTGAATGCCCTGTTCTGTTCACTCGACTTGAAGTCCTCAATGTGTCCAGGAATCGACTTACAGATGCTTGTGGATCATACCTCTCAACTATAGTGAAAAATTGCCGGGCACTTTACAGCTTGAATGTGGAACATTGTTCACTTACATCAAGAACAATCCAAAAGGTAGCTAATGCTTTGGATTCGAAGTCAGGACTTTCACAACTCTGTATAGGTTATAATAATCCTGTTTCAGGGAGTAGTATTCAAAACCTCTTGGCTAAATTGGCTACTCTAAGCAGCTTTGCAGAACTGAGCATGAATGGCATAAAGCTGAGCAGCCAAGTTGTTGATAGCCTTTATGCACTTGTTAAGACTCCATCTCTGTCAAAACTTTTGGTTGGCAGCAGTGGAATAGGAACGGACGGGGCTATAAAAGTTACTGAATCTCTATGTTATCAGAAGGAAGAAACTGTGAAGCTCGACCTTTCATGTTGTGGACTAGCTTCCTCTTTCTTTATTAAGCTCAACCAAGATGTTACTCTAACCTCTAGCATTCTTGAGTTTAATGTTGGAGGAAATCCAATCACCGAAGAGGGAATCAGTGCACTTGGGGAGCTGCTTAGGAATCCTTGTTCAAACATAAAAGTTCTTATTCTAAGCAAGTGTCATCTGAAGCTCGCTGGGCTTCTATGCATAATTCAAGCACTTTCAGATAATAAGAATCTTGAAGAGCTTAATCTTTCTGACAATGCTAAGATAGAAGATGAGACTGTGTTTGGCCAACCTGTGAAGGAAAGATCAGTAATGGTAGAGCAAGAACATGGAACATGTAAATCTGTCACCTCAATGGACAAAGAACAAGAGCTATGTGAAACCAATATGGAGTGTGATGATCTCGAAGTTGCAGACAGCGAAGATGAACAAATAGAGGAAGGAACTGCAACCTCGAGTAGTCTTAGTTTGCCACGCAAGAACCATATCGTGAAAGAGCTTTCTACCGCTCTTTCAATGGCTAACCAGTTGAAGATTCTGGACTTAAGCAACAATGGGTTCTCAGTTGAAGCCTTGGAAACATTATACATGTCATGGTCATCATCAAGCTCCCGAACTGGCATCGCCCAAAGGCATGTAAAAGAAGAGACTGTCCATTTTTATGTCGAAGGAAAGATGTGTTGCGGAGTCAAATCATGCTGCAGAAAGGACTGA
Protein Sequence
- >AT3G18730.1
MGRLDVAAAKRAYRKAEEVGDRREQARWANNVGDILKNHGEYVDALKWFRIDYDISVKYLPGKDLLPTCQSLGEIYLRLENFEEALIYQKKHLQLAEEANDTVEKQRACTQLGRTYHEMFLKSEDDCEAIQSAKKYFKKAMELAQILKEKPPPGESSGFLEEYINAHNNIGMLDLDLDNPEAARTILKKGLQICDEEEVREYDAARSRLHHNLGNVFMALRSWDEAKKHIEMDINICHKINHVQGEAKGYINLAELHNKTQKYIDALLCYGKASSLAKSMQDESALVEQIEHNTKIVKKSMKVMEELREEELMLKKLSAEMTDAKGTSEERKSMLQVNACLGSLIDKSSMVFAWLKHLQYSKRKKKISDELCDKEKLSDAFMIVGESYQNLRNFRKSLKWFIRSYEGHEAIGNLEGQALAKINIGNGLDCIGEWTGALQAYEEGYRIALKANLPSIQLSALEDIHYIHMMRFGNAQKASELKETIQNLKESEHAEKAECSTQDECSETDSEGHANVSNDRPNACSSPQTPNSLRSERLADLDEANDDVPLISFLQPGKRLFKRKQVSGKQDADTDQTKKDFSVVADSQQTVAGRKRIRVILSDDESETEYELGCPKDSSHKVLRQNEEVSEESMYFDGAINYTDNRAIQDNVEEGSCSYTPLHPIKVAPNVSNCRSLSNNIAVETTGRRKKGSQCDVGDSNGTSCKTGAALVNFHAYSKTEDRKIKIEIENEHIALDSCSHDDESVKVELTCLYYLQLPDDEKSKGLLPIIHHLEYGGRVLKPLELYAILRDSSENVVIEASVDGWVHKRLMKLYMDCCQSLSEKPSMKLLKKLYISEVEDDINVSECELQDISAAPLLCALHVHNIAMLDLSHNMLGNGTMEKLKQLFASSSQMYGALTLDLHCNRFGPTALFQICECPVLFTRLEVLNVSRNRLTDACGSYLSTIVKNCRALYSLNVEHCSLTSRTIQKVANALDSKSGLSQLCIGYNNPVSGSSIQNLLAKLATLSSFAELSMNGIKLSSQVVDSLYALVKTPSLSKLLVGSSGIGTDGAIKVTESLCYQKEETVKLDLSCCGLASSFFIKLNQDVTLTSSILEFNVGGNPITEEGISALGELLRNPCSNIKVLILSKCHLKLAGLLCIIQALSDNKNLEELNLSDNAKIEDETVFGQPVKERSVMVEQEHGTCKSVTSMDKEQELCETNMECDDLEVADSEDEQIEEGTATSSSLSLPRKNHIVKELSTALSMANQLKILDLSNNGFSVEALETLYMSWSSSSSRTGIAQRHVKEETVHFYVEGKMCCGVKSCCRKD