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Field | Value |
---|---|
Gene ID | LotjaGi4g1v0026900 |
Transcript ID | LotjaGi4g1v0026900.1 |
Related isoforms 4 | |
Lotus japonicus genome version | Gifu v1.2 |
Description | Tubulin beta chain; TAIR: AT2G29550.1 tubulin beta-7 chain; Swiss-Prot: sp|Q9ZPP0|TBB1_ELEIN Tubulin beta-1 chain; TrEMBL-Plants: tr|A0A067GIJ4|A0A067GIJ4_CITSI Tubulin beta chain; Found in the gene: LotjaGi4g1v0026900 |
Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr4:3263112..3274563) extracted from Lotus japonicus Gifu genome v1.2.
GATCGCTTTTCCCTCTTGTGTTCTTTTGTGCTCCTGCTGCGCATTCTTCCTCCCAATGAGAGTTGGAGAGGGGGGAGGGG GACGAGGAGGAGTGCACGCTTGTGCACGACATCTCATTCCAGGTGATTTTGCGATAAATGTCATTATGTCTTCAAGAGAT ACATAATCTATATTGATATTATAAATTCTATTATAGATCTCGGGTTGGAAATTCTCCATCGCATGTATAAGGGAAGAAAC GATGCACACTTGTGCTTGACATATCATTTATGGTAGATTGTGCGATAATTATCGTTGTGTCTTCAAGAGGTACGTTATTT ATATTGATATTATAAATTCTAGTATAGATCTTGGGTTGGAAATTCTCAATCTCTTAATTTTAAGGAAGGAGGAGTGCATG CTTGTATATGACATCTCATTGTCGGTAGATTATGCGATAATTTTCATTGTGTCTTAGTATGGTTTCGATCAATTTAGATT GACGTTCCTTTGTATTTTAAGTACAAAGCCTATGCCTTTTTTTAATAATCAAAGCTGAATAGAAATATTAAACTTCACCT CGTGAGTAGGACACTTTAGGTTCCTATTTTTATTTTTACTAGTTTTGAAAATGAAACAAACACGTTTTTTGTTCAAGAGT TGTACGGTTGCCGAGAATTCAATATTCATAGATGGTATGATAATTTTTATAAATAAAAAATGAAAATTGTTACTTGATTT CAATGATTTGTATCGTTTTTTTGTAAAATGTGTATGCAACTCTTTAATAAAATTTTATGTCTTAAGAAAATTAGAGCTTG AGAAAATTGTTTCGACAATTCAAGTTTAAGCTCTATTAATGTCTTCTACGGTTCTACCACAATGTCTCATTTACAAAATT GATTAGGGTTATTTGTTAAATGAAAAATTCTCGTGGTATTTTGTAAATTGAATTATTTTTTTGTTTTAAACTCATTAATT AATTTGTTATTACATTTTTTTTTGATAAGCAATTTGTTATTACATGTTAATTTGAACATGAAAATGTTAAGAGTTTTCTG TTGTGAGCTTCTTGGTAGATCTTGATTTTATAGAACATGTTGAATAGTTTAATACTCTTTCTAGAAGCGCATGTGATTAT TTTGAATTACCAGGTACAAGATTTATATTTATGGAACTTAAGCTAAATTGATAAGTGTGTTGAATGATAGTGTAAGGCCC AATAGCCTAGGCCCATGATAAATGTTACTATATTATTACATCTATTATGGGCCTTGGTTATTTAGTCTCATATTGTAATT CAACATACACAACCTTAGACTTTAGCGCAATAAATATTAAAATGTGTCTGAATTATCTATTCAACAAGTTCTATTGATTA GTGAATCTTAATTTTATAAAACATGTAAACATGTTGCATAGATAACTTGATACTTTTCCTAGAAACACATGTGATTATTT AATTATTTGAGAATCTTCAAGTATAATATTTATATTCATTGAACTTAAGCTGAATTGACAAGTATATTGAATTATGGTGT TGGACCAAGTAACCAAGGGTTCATGATGTATGAATACTATGATAATTGTTGTTTTATGTGTATGGTATATATAAAGTAGC AATAATCATAGTTTCTATTCATCATGGGTTCTATGTTACTTAACCTGAAACTATAATTCAACATTTTCACCATTGAGCTT AAGCCCAATATATATGAATATTATACTTGATCATAACCAAAAACTCTTAGTGTATCGATAAGTTACACAGACTTTTAGAA AAAAAAAGTGTCAAGTTATTCATTTAACTTGTTTTATAAAATCAAGATCTATCAATCAATAGAAGCTCACACATAGGAAA TTCTAACTGAAAGCCACCATAGTAACGGTCAAGAATATGTGTCACACATTGTTTAAGCATTTGTTACTAAAAAAAGAAAC AATAACAATTGATAATGGAACTATTAAGAAGTGGCATGAGGAGAACAATGAGAGTTTAATTTTCCACCTCGATCTCATTT TTTACACCTTTTAGTGTAATAATTTCAATGCCCCTTGCTTGATTGTTTTCCCGGTTATTGAAAATTTGATAGTATGTTTT TATTTAGAGTTTAATTTTGATGCACCGACGGTGTAAAGTTTTTTTACACCGTCAACCAATCAGATTTCAAGGATGTGAGA AAATCTCTCTTTTCATTTAATTTCATTAATTGACGTGTCATATCCATAAAATCTGATTGGTTGACGGTGTAAAAAAACTT TACACCGTCGGTGCATCAAACTTTTTCTCTTTTATTTTTTAACATATTGGGATTTAAAATTTCGGTATTGTGTGTTGTTT TAACATATTGGGTTTTTACAAACCTGATATTATGTTTTATAATATACTGGTTTTAGAAAATTCGTTGGTGTAGTTTTAAC ATATCGAGATATAAAAATTAGTACTATGTGTTTTTTACTAACAAAGATTTAAAGTCCGGTAGTGTATTTTTAATGTAGCA TTATTTTAAATTTTAATATACCAGGATCTAAAATCCGGTATGTGCTTTGTTGTTTAGCAAAAAAAAAAAAAAGCCTATTA GCAGTGTGGGACTTCTAGTTGTCATTGTTTGAGGAATGAGAAGATCAAGACTTCTTCTGACCAGATATTGAGATTATAGT ATCCACACACTATCCTAGATCAAGACCTTTCATTGCCTTTTTCTTTCCCATATAATGAGTGTCATATATCGATCATCACG CAATGCTTCGTGGTACAAAATTGTTCCAAGATATCCAAATGCAGTAGATGAAGTAGGTAGAGACTTTGACCATCGTAAAA TTTCAATATATCCTTCTTTCCGGCCATCCTTGCTGCAGGTTTACCATTGCTAGCAAGTTTATCATGGAAATTTTCCCCAA AAGTCATGTTGTTAACATTAGTGACTTTTGTTTACTTGTCAAGGACGACAAGCATTTCAGCTAGCGTGCTGCTTCTGTAG ATGCATTGACCTTAATGAGACTTGAGGGACATTTTCCACCTCTTTGATAATCTCTTCTTTGCCTCTACCGGGTTTTAAGT CCTAGACAAAACACATCGATTTTTAAATCCTGGTGTGTTATACATTACCGGTTTTTAAAAACACACTACATTAAAAACTC GGTAGTGTATTTTTAATGTAGTGTTTTCTTAAGGTACCAAAATTTAAAATTCGGTATGTGTTTTATTTAGGATTAAAAAC CCAATAGAGAGGCAAAGAAGAGATTCTCAAAGAGGTGGAAAATTCCCCACAAGTCTCAACAAGGTCAATCCATCCATAGA AGCAACACGTTGGTTGAAATGCTTGCTTCCCCTGACTTTGAAATGTTAACAACATCTCTTGTGAGAAAAGTCTCCATGAT AAACTTGTTAGCAATGGTAAATTTGCAGTAGGGACAGTTGGAAGGAAAGATATATTGGAAGTTTACTAAGGTCAAAGTTT CTTCTTCCTTCATCTACTCCATTTGGAAGTCCTAGAATAATCTCACGCCACAAAGCATTCTGTGATGATCGATATATGAC GCCCATTCAATTGGAAAGAAAGAAGGCAACAAAATTTCTTGATTAGAGACAGTGTGTGAATAGTGAATACCATAACCTTG AAATTTGGTTATGAGAAGTTTGGGTCTTCCCATTCCTCAAACAATGGCAATTAGACTCTCATAACACTTATAGGAATCTT TTCTTAATTGATGAAACACATCAGGTTTCGAATCCGAGTATGTTAAGAAAATGCTACATTAAAATTACACTACCAAATTC TAAATCCTAGTAGGTAGAAAAACACAATATCAATTTTTAAATTCTGGTATGTTAAAAATGTACTATCGTATTTTCTAAAA CTTGGTAGATTAAAAAATAAAAGGATTAATGGTCAAATTAGTCCCTGAATTTGTAAGCGAGTTTGATTTTAGCCTTTCTG AGGAAAAAATGATGTTTAGTGACAGTCATTTTTACAACTATTGACGGTTTTTGACCGCCACTAAACGTCATTTTTTCTCA AAAAAACTAAAATCAAACTCGCTTACAATCTCATTGACTAATTTCACCATTAACCCAAAACAAAATATCAAAAACCTCAG TATGTTAAAAACACACACCAGTCTTTAAATCCCATTATGTTAGAAATATATTATGGAGTTTTCAAAAACTAAGAAAACAA TGAAGGAGGGGAATTTTAGAAAATTACTAATTAAAGGAAGGTGAGAAATCGAGGCTATGTTTGACCTACCTAGCTGATAA GTTAACTGAGAGCTGAAAAGTTTGTTGAAAGCTTATAAGCTAGGTGAAAGCTGACAGCTGAAAAACTACCTTATTGACAA AAAGTGTTTGGCAAAACTTGTTGTTGAACAAGCCGAAATTGTATAATGACATAAATGAACATCTCGTATAATTCTTTTTT GTATTTATGTACACATCAGGGTCATTAGGGTCATTAGGGAGAGAGTTGATGGTTTTTCCCATGGAGCTTTCTGAACCTTT TGACATCATGACTAGAGCTCGAAGTGCTATTTTGATGGGGAAACGTTTGAGCATGGTATTTGATTGCTCAAACAATGTTG CCACCTACCAAATTGCTGCCCAGCTCAATGCGCGTAGATGTTCTTAGGGTAGTTGTGGTAGCTTTATAGGTTTTGCTTTT GTTCTTGGGGATCTTCGTGGGCTTTGGGTTTTTTTTTCTTGATCTTTCGGGTGGTTGTCATTAGGCTTGAGGCTTTTGTT TCTTCTTAGGGGTTTAGTAGGGTTGGTTGTTGTTTATTTTTGGTTGGTTGGGTCTTATCTTTTGTGGTCTTTTGCACCTT CTTGAGGCAGGTTGTATATCTTTGACTTTTTCCTGATTAATACTAATAATTTTTCTTTCGGAAAAAATATGATATTCAAA TATTATCACTTTAGATATTTTAATTTAGTTCAAATTATTTATCATCTCAAAGCATAACATTAAACTTTAATTAATTTTTC GTTTTCACACTTTTATCAAGTTGAATATTATAAAACTAAAAAATTTATATTTTAATTTAATAAAGTTAGCTTATATTTTT CTAAACTAACAAAATATTTTTTAAAATTTTATATTAACAATTATTTCAAAATAAAAATAATTATTAAATTAAAATATATA AGCTAACTTTATTAAATTAAAACTTCATTTAATGAAACTTCATTTCCTCCGATTCAAAATCACCATCAAAGTCTCCACCC CTCGATCTCCTCCTCACTGTCATTAAATGACACAACATTCTCACTAACATCGTCTTCGAATGATAGCTCAAATGGTAAGA GATAGGGACATAAGGATTGGGTGGGGTAAAGGGTGAAGGGTCCCGGGTTTGAGCCCGGAGGAGGGATTAATTTACTAACA TTTCTAACAACTAACATTTGTCTATAAAAAAAAAATTCTCACTAACATCAGTACTCCCTTCGTTTCAAAATTATTGTAGT TTAAGGTTTTGAAAACAATTTAAGAATTCATCATTAAGTAAATATTTTGACCATAATGCCTCTATTTATCTTTATCCATG TCATTTATTCTTCCATAATTTTCCACAATGAACTATCATCACACATACACTAATTACTCCACAGATCTTAACCAAGACAT TTGATCAATAGAGTATCAGAGAAAAACTTGTTGAGAGAAGGTAGAATACTAAGAAGTGGGTCCAATTAGTTGGTGATAAT TATTATGGGATATAATTATTGTTACATTTAAAACAAAGAGTATAAATGGAAGAAAGTGTGATAAAATACTTTGGATATAT ATATATATATATATATATATATATATAAAACAACAATGGTTTTTAGAATAAAACTAAAAAAGCTAAAACTACAATAGTTT TGGAACGGAGGGAGTATTATATCCATCATCAACTCTCTTACCCTTATCTTCCATTGATTTCTCCCTTCCCTCCAATGGTT CCTTTTCCTTCCTTTCTTCCACCGCTTCCTCATTTCCTCCACCGGTTCTTCTCTTTGGTTCACAGGTTCCTCTTTGCTTC CACTAGTTCCTCTCTTTCCTCCATTGGTGCCACCCTTTCGTCCACTACACTACCATATGAAATTGAAAGAAATTTATTAG CAATATTCATATAATGTTCCACATCGATGCATACCTTGTTGCTTCCAATAACATCATTGTCCATCCTAATTTTCTTCAAC CCTTCCTCAAACCCCTGGTCTCTTATTTTCCACCAAAAATTGATACCTCCTTCATAATCCCAATACTCCTTCAAGATAGT TCGGACTTCAGAATAGGACCACCTGCCCACATCAGTTCCATGCACATCATGTATCTCTCCACCAACATAAGTCAAAAGAG AACTATAAACAATCCCCATGTGGTGGAATTGTATTGATAACGACTTTATGCATACAATAGAGCAATAGAACCTACTTGCA TTAACAAACTAAGCAGATATCATACCTCCAAAAGCAATAAATCTAACCCCCAAATGAATTAAGTAACACAAAAATACCAC ATTTGACGCCAACAGAATGAAACAACATAGTTGAAACCTCCTAACTCCAAAAGAATGAACAAGTGAAAATAACTAAAACC CTAACCCCAAATAATGAAATAATGAAAAAAAAAACCCCAAATGACATACCTTATACTTCTTCTTCTTGGCAGGCTTCTAA ATAAGTCTTCTTCGTACCTTTCTTCACAGGTTTCTTTGAAGGGTTATTCACTCCTTTCGTCCATCTTGTATTCGATCACA CCACACTTCACTTTCACCTTTATTCCTCTAGCCTTCAATCGCACAACTATCTGTCACACACACCACAAATGAAAGTGAAA AACAATAATTTTAAGGCTTAATTTGGGGTTGATCACTAGGGGTGTACAAGACCCGGCCCTACCCGTCAACCCGTCCCGGC CCAAGCCTTTAGGGCCAGGTTCAACCCGGTCCAATCATTAAAAGAGACCGGGTTCGGGTTGATCTTTGAGTTATCCGACT TCGGGTAGGGTCGGGTTCGGGTTGACACTCGGGTCACCCGGCCCGTCCCACATATATATTTTATAAAATTTTAATTTGTT ATAATGATTAAAGTGTGATACATGATGCTTAAATTTATCTTACCATGTAGATGAAATTAAAATGTTTAACATTTACCTTA TGAATTAAATAAACGTTGGTCAAACTAGGGACACTTTCATGCTCTAACAAGAGAAAATCATGTGTGTGTATTATGCATAT GTGAGACAAATGAAGAAATGATCAAACAAAATGTAAACCTCTCAAGTGCAATAGATTATGAAAGAATTGGATCATTTCAA GTTATTTCTTCTAAAAAATAGTTCCAACTTATAACTCTTTTAATATGTTATTATCTTCAAATCTTAAATTTGTATCAAAT AGTCTTAAACTTATTGTCCCTCGGGCCAACCCGGTCCCGTCCTACATAGACCCGTCCTAAATTGGACCCGCTTAATGTCG GGTTGCTTCGGGTCTAAGGACGGGTTAGGGTCTATAAATTGACCCGATCAATATTTAGGGCCGGGTTAGGGTTAACCAAA ACCCGTCCCAATCCGTCCCTTGTACACCCCTATTGATCACATAACTTAGGTTTTACACATAGGATATACATAAATTTAAA AATATCATGTAAGATATATAAGTGAGTGACATATAGAAAGGTAACTGTGCCAGATTGATCACACGTGTGCACTCAAATAC CTTTTGCACCTAATTTGATTTAAAATAAATTAGGGATCTTTTGCAAATGATTTTTTTTTCAAACCTAATTTGACCACTCT TTAAAACTCATAGACTAAAAATATATTTAAGCATATCTAAAAGATATATTGGATCTCTTATCTTAAGAAAGAATATCTAA AAGATTAATGATTCATTCACAACAATTATTTTTTCCATATCATTTTTACTCACTTTTTTCTTCATATCCGCCTCTACATT TCCTATCATATCATCTATAGTATTATTCATTTGTCTCTATTACCTTTCTATCTCACTTTTAGTACGAGTGAAATTAAAGT GTGAATGATTTATTATTCTATCCAAAACCACTCTAGCTATCCTATGAGGGGAAAAAAGAAAGAATACAGATGGCATATAT GTTAGTTAGTGTCCAGCCCCTATGAATCCATTGATTTTATGAGTTAGGTTAGTAATGTGTAAATAACAGTCTCCATTCCA AAATCAGTTTAATCATATTTTTAGAACAACAACAAAATTGGTGGAGGGTGATAGAGAAAAAAGAAAGAAAGTGCCAAGTT TGGATAAAGAGGAGAGGTGGTAATTGAAGTTGCAAGAATCAGAATTCCCCTTACAAACCAAACACAACATAACACCAACT CATCATCATTCAAAATTGGAAAATAGAAAAAACCGCAAAAACAAACAAGCACCATTAGTCTTCACCTTTTACCAAACTAC CCTCAAAACTTGCTCTAAATTACAACCTCAACCACGCCTTTAAATTCTCCTCACCATTCACAATCACAAACGCTAGAAGA AACACAACAACCCATTTTCCCTCCCATTTTCCCTCACTTTCTCTTCGATTTTCCCGAGAAAATGAGAGAAATCCTCCACA TCCAGGGCGGCCAATGCGGCAACCAGATCGGCGCAAAATTCTGGGAGGTCATCTGCGACGAGCACGGCATCGACCACACC GGAAAGTACAACGGCGATTCCGAGCTTCAGCTTGAACGCATCAATGTCTACTACAACGAAGCCAGCGGCGGAAGGTACGT TCCACGCGCCGTCCTCATGGATCTTGAGCCAGGAACCATGGATTCCGTCAGATCCGGCCCGTTCGGCCAGATCTTCCGCC CTGACAACTTCGTCTTCGGGCAATCCGGTGCCGGAAACAACTGGGCCAAAGGGCATTACACCGAAGGCGCTGAACTCATC GATTCCGTCTTGGATGTTGTGAGGAAAGAGGCTGAGAATTGCGATTGCTTGCAGGGTACCCAATTTCCCATCATTTCAAT TTTGAAACCCTAATTTGAAGTTTCTGTGTTGTTTGAACGATTTTGTTTTTGTGATTTGTGAACAGGATTTCAGGTGTGTC ATTCTCTGGGAGGTGGAACTGGGTCTGGAATGGGAACGCTTCTCATCTCGAAGATTCGGGAGGAGTATCCGGATCGTATG ATGTTGACGTTTTCTGTGTTTCCTTCGCCGAAGGTGTCTGATACTGTGGTGGAGCCGTACAATGCGACTCTCTCCGTGCA TCAGCTTGTTGAGAATGCTGATGAATGTATGGTATTGGACAATGAGGCTCTCTATGATATCTGCTTCCGTACCTTGAAGC TTAATACACCAACTTGTGAGTTTCTGATTTCGTTTACATTTCAATTTTTCTGCAGCTATGACATGTTAGTTGCTATTGTT TTGATTTTGCCGTCATTGTTATCGTTGTTTCTGCCATTGTTTGATGGCTAGAGGTATAGAAAGGCCAAGAAAATTATAAC CCAAATGATTAAATGAGATCTAGTATGATGTTCTGTGATCCATGTGGCTGATGAAAAATGATTTTGGTTATTGTCGTTGC GATAAATTGTTAGTGTTAAGTAATGATTAATACAATGTTATTGTTGTTGTGATTTCAATTTACAATTTAAATTACGGAAA AGATTGGTACACCTTATAGGGGAATAGAGAAATGTGGAATATGTGATGTGATATTACAGAGGGTTTGGGAGGTAAATGAG GTGGAGTTATCTGCCAATGAGCAAAATTTAGGATTGTTTAAATTGCAATTACATATGAAATGAATTGGCACCTTCAAAGT GGGAGTCACTTTATGGGGTAAAATAAGTGGTGATAAGTTATAAGTTATAACTATTGGTTGAGAAATTATCTGTTCAGATT GTGACCATATACTTGCACATGTGTAGTAATTTATGATGTTTTTCAAATTTCAACCATTGATTTCTCAATCATGTGAAACT AAATATACATATCACCTACATATCTTTATGTTGGTGGGAGGATTCATGTGGGTTTAGGTCTTGTATCTCATTCATACCAG GTGGTTGTGGTTGTTGAACTTTTGCAATCATTTCCTCTTTTGGTCGCTTTTTCTGAGTGAAATGTGTAACTTATTTAAAA TAACTTTTTGTTTTGGGGGTTCACAATCTTCTGCAGTTGCAAAAGCAATCATGTAGATCTCAATCATTAAAGTGCATTTT ACACCAAGTAAAATATTAACAAATAAAATAGTCATATAATTTTCAATCGTAAGATCAGCAACTGCACACCTAACAGTTAG TTTTGTAATTGCACAGCATCCCCATCCTTTTAGTTTTAAGTTCCATTTTTAATTTCTTTTGTTTCTTTTTATTGTAGTTG GTGACCTTAACCACCTCATTTCTGCTACCATGAGTGGAGTTACTTGTTGTCTACGTTTCCCTGGGCAGCTGAACTCTGAC CTTCGAAAGCTTGCTGTCAATCTCATCCCATTCCCTCGTCTCCACTTCTTCATGGTTGGGTTTGCACCCTTGACCTCAAG AGGATCCCAGCAGTACCGCAACTTGACTGTGCCTGAATTGACTCAGCAGATGTGGGATGCTAAGAACATGATGTGTGCTG CCGATCCACGCCACGGCCGATACTTGACTGCTTCAGCAATGTTCCGTGGTAAGATGAGCACCAAGGAAGTGGATGAGCAG ATGATTAATGTGCAGAACAAGAACTCTTCTTACTTTGTTGAGTGGATCCCTAACAACGTCAAGTCTAGCGTGTGTGACAT CCCACCCAAGGGTCTGAAGATGGCATCCACTTTCATCGGGAACTCAACATCAATTCAGGAGATGTTCAGGAGAGTCAGCG AGCAGTTCACAGCTATGTTCAGGCGCAAGGCTTTCTTGCACTGGTACACCGGTGAGGGAATGGATGAAATGGAGTTCACC GAGGCTGAGAGCAACATGAATGATTTGGTGGCTGAGTACCAGCAATACCAGGATGCTACTGCTGATGATGAGGAGTATGA GGAGGAAGAGGAGGAGCTTGGTGCTTGAGTTGTCAAGGTTCTTTCAAATTGCAATATGAATGGGTTTTAGCGAGTTTTAA ATTGTGCAGCATTCAAAATTGTTTATGTGGTGTTTGTATGAATTGAGGGTCATTGTATAAGCTGGGTTTTGTGGACAAAG CTTCTGCTATTAAGCCATTGGATGTTTTACTAGGTAGATGACTATTTACTTCGATTCGTTTTTTAATTTTCGCAATATTT TTTTATATGTTGATTATGATTGATTGGCGTGGAGATTGGAACTAAACAAGAATTCTTACTCTAAATTGTTCTGAGTGAAG AAAAACAGTGTTGGAGGTGGAGGTCGTTATTCTCATTGTTTGAAACTGTAGTGGTGTATAATCATGAAGAATTAGTTGTC AAATATAATAGTCATTTATAGCTATTAATATTGGCTTATTATTAAAATTCAAGTCCACAAGCTTTTCTTTTCCAATATGT TAATCCTTTATA
CDS sequence (LotjaGi4g1v0026900.1) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGAGAGAAATCCTCCACATCCAGGGCGGCCAATGCGGCAACCAGATCGGCGCAAAATTCTGGGAGGTCATCTGCGACGA GCACGGCATCGACCACACCGGAAAGTACAACGGCGATTCCGAGCTTCAGCTTGAACGCATCAATGTCTACTACAACGAAG CCAGCGGCGGAAGGTACGTTCCACGCGCCGTCCTCATGGATCTTGAGCCAGGAACCATGGATTCCGTCAGATCCGGCCCG TTCGGCCAGATCTTCCGCCCTGACAACTTCGTCTTCGGGCAATCCGGTGCCGGAAACAACTGGGCCAAAGGGCATTACAC CGAAGGCGCTGAACTCATCGATTCCGTCTTGGATGTTGTGAGGAAAGAGGCTGAGAATTGCGATTGCTTGCAGGGATTTC AGGTGTGTCATTCTCTGGGAGGTGGAACTGGGTCTGGAATGGGAACGCTTCTCATCTCGAAGATTCGGGAGGAGTATCCG GATCGTATGATGTTGACGTTTTCTGTGTTTCCTTCGCCGAAGGTGTCTGATACTGTGGTGGAGCCGTACAATGCGACTCT CTCCGTGCATCAGCTTGTTGAGAATGCTGATGAATGTATGGTATTGGACAATGAGGCTCTCTATGATATCTGCTTCCGTA CCTTGAAGCTTAATACACCAACTTTTGGTGACCTTAACCACCTCATTTCTGCTACCATGAGTGGAGTTACTTGTTGTCTA CGTTTCCCTGGGCAGCTGAACTCTGACCTTCGAAAGCTTGCTGTCAATCTCATCCCATTCCCTCGTCTCCACTTCTTCAT GGTTGGGTTTGCACCCTTGACCTCAAGAGGATCCCAGCAGTACCGCAACTTGACTGTGCCTGAATTGACTCAGCAGATGT GGGATGCTAAGAACATGATGTGTGCTGCCGATCCACGCCACGGCCGATACTTGACTGCTTCAGCAATGTTCCGTGGTAAG ATGAGCACCAAGGAAGTGGATGAGCAGATGATTAATGTGCAGAACAAGAACTCTTCTTACTTTGTTGAGTGGATCCCTAA CAACGTCAAGTCTAGCGTGTGTGACATCCCACCCAAGGGTCTGAAGATGGCATCCACTTTCATCGGGAACTCAACATCAA TTCAGGAGATGTTCAGGAGAGTCAGCGAGCAGTTCACAGCTATGTTCAGGCGCAAGGCTTTCTTGCACTGGTACACCGGT GAGGGAATGGATGAAATGGAGTTCACCGAGGCTGAGAGCAACATGAATGATTTGGTGGCTGAGTACCAGCAATACCAGGA TGCTACTGCTGATGATGAGGAGTATGAGGAGGAAGAGGAGGAGCTTGGTGCTTGA
Protein sequence (LotjaGi4g1v0026900.1) extracted from Lotus japonicus Gifu v1.2 Proteins.
MREILHIQGGQCGNQIGAKFWEVICDEHGIDHTGKYNGDSELQLERINVYYNEASGGRYVPRAVLMDLEPGTMDSVRSGP FGQIFRPDNFVFGQSGAGNNWAKGHYTEGAELIDSVLDVVRKEAENCDCLQGFQVCHSLGGGTGSGMGTLLISKIREEYP DRMMLTFSVFPSPKVSDTVVEPYNATLSVHQLVENADECMVLDNEALYDICFRTLKLNTPTFGDLNHLISATMSGVTCCL RFPGQLNSDLRKLAVNLIPFPRLHFFMVGFAPLTSRGSQQYRNLTVPELTQQMWDAKNMMCAADPRHGRYLTASAMFRGK MSTKEVDEQMINVQNKNSSYFVEWIPNNVKSSVCDIPPKGLKMASTFIGNSTSIQEMFRRVSEQFTAMFRRKAFLHWYTG EGMDEMEFTEAESNMNDLVAEYQQYQDATADDEEYEEEEEELGA
Data for domain prediction are obtained with InterProScan, and merged with InterPro data obtained from the EB-eye REST service.
Prediction algorithm | Identifier | Start | End | Length | E-value | InterPro ID |
---|---|---|---|---|---|---|
Gene3D | 1 | 263 | 263 | 2.7E-130 | ||
SUPERFAMILY | 1 | 243 | 243 | 7.33E-103 | ||
ProSitePatterns | 1 | 4 | 4 | - | ||
PANTHER | 2 | 441 | 440 | 0.0 | – | |
CDD | 2 | 426 | 425 | 0.0 | – | |
PANTHER | 2 | 441 | 440 | 0.0 | ||
Pfam | 3 | 211 | 209 | 7.1E-70 | ||
PRINTS | 10 | 30 | 21 | 1.1E-106 | ||
PRINTS | 41 | 58 | 18 | 1.9E-122 | ||
SMART | 47 | 244 | 198 | 5.4E-70 | ||
PRINTS | 51 | 70 | 20 | 1.1E-106 | ||
PRINTS | 88 | 99 | 12 | 1.9E-122 | ||
PRINTS | 93 | 104 | 12 | 1.1E-106 | ||
PRINTS | 106 | 130 | 25 | 1.1E-106 | ||
PRINTS | 108 | 126 | 19 | 1.9E-122 | ||
PRINTS | 132 | 150 | 19 | 1.1E-106 | ||
ProSitePatterns | 140 | 146 | 7 | - | ||
PRINTS | 151 | 172 | 22 | 1.1E-106 | ||
PRINTS | 152 | 164 | 13 | 1.9E-122 | ||
PRINTS | 176 | 189 | 14 | 1.1E-106 | ||
PRINTS | 190 | 210 | 21 | 1.1E-106 | ||
PRINTS | 212 | 224 | 13 | 1.9E-122 | ||
PRINTS | 230 | 239 | 10 | 1.9E-122 | ||
SUPERFAMILY | 244 | 429 | 186 | 1.22E-80 | ||
PRINTS | 245 | 258 | 14 | 1.9E-122 | ||
SMART | 246 | 383 | 138 | 9.1E-41 | ||
Pfam | 261 | 382 | 122 | 6.0E-41 | ||
Gene3D | 264 | 373 | 110 | 8.5E-54 | ||
PRINTS | 265 | 281 | 17 | 1.9E-122 | ||
PRINTS | 311 | 329 | 19 | 1.9E-122 | ||
PRINTS | 329 | 343 | 15 | 1.9E-122 | ||
PRINTS | 347 | 370 | 24 | 1.9E-122 | ||
PRINTS | 370 | 398 | 29 | 1.1E-106 | ||
Gene3D | 374 | 442 | 69 | 3.0E-34 | ||
PRINTS | 377 | 388 | 12 | 1.9E-122 | ||
Coils | 408 | 428 | 21 | - | – | |
PRINTS | 412 | 430 | 19 | 1.9E-122 | ||
MobiDBLite | 422 | 444 | 23 | - | – | |
MobiDBLite | 427 | 444 | 18 | - | – |
GO predictions are based solely on the InterPro-to-GO mappings published by EMBL-EBI, which are in turn based on the mapping of predicted domains to the InterPro dataset. The InterPro-to-GO mapping was last updated on , while the GO metadata was last updated on .
GO term | Namespace | Name | Definition | Relationships |
---|---|---|---|---|
Molecular function | GTPase activity | Catalysis of the reaction: GTP + H2O = GDP + phosphate. | ||
Molecular function | Structural constituent of cytoskeleton | The action of a molecule that contributes to the structural integrity of a cytoskeletal structure. | ||
Molecular function | GTP binding | Interacting selectively and non-covalently with GTP, guanosine triphosphate. | ||
Cellular component | Microtubule | Any of the long, generally straight, hollow tubes of internal diameter 12-15 nm and external diameter 24 nm found in a wide variety of eukaryotic cells; each consists (usually) of 13 protofilaments of polymeric tubulin, staggered in such a manner that the tubulin monomers are arranged in a helical pattern on the microtubular surface, and with the alpha/beta axes of the tubulin subunits parallel to the long axis of the tubule; exist in equilibrium with pool of tubulin monomers and can be rapidly assembled or disassembled in response to physiological stimuli; concerned with force generation, e.g. in the spindle. | ||
Biological process | Microtubule-based process | Any cellular process that depends upon or alters the microtubule cytoskeleton, that part of the cytoskeleton comprising microtubules and their associated proteins. |
Expression pattern of LotjaGi4g1v0026900.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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