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Field | Value |
---|---|
Gene ID | LotjaGi1g1v0436100 |
Transcript ID | LotjaGi1g1v0436100.1 |
Related isoforms 1 | |
Lotus japonicus genome version | Gifu v1.2 |
Description | 1,4-alpha-glucan-branching enzyme; TAIR: AT5G03650.1 starch branching enzyme 2.2; Swiss-Prot: sp|Q41059|GLGB2_PEA 1,4-alpha-glucan-branching enzyme 1, chloroplastic/amyloplastic; TrEMBL-Plants: tr|K7KHN1|K7KHN1_SOYBN Uncharacterized protein; Found in the gene: LotjaGi1g1v0436100 |
Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr1:93032485..93042507) extracted from Lotus japonicus Gifu genome v1.2.
CAAGTAGTCAAGTTCACTGTTCACTGATGAGTTTTGAGGCAGGACCAACCAAAGCAAAACACATGTTACTTCGTGCTGGA AAATTGAACGGTTGTGAGGAAGAGAAGGACCTGAGTGCTCGTGAAATTTCAACAGATGGAAGCTCTTCCGCCGTTGAGGC TTTGCTTACTTTAAAGGGGGAAAAGCATATCCTATATACTTTGCTCTGTTTCTTTCTTGTTTGTAATCAAACACTGAAAA TAAATGAAAAAGACGGTTAATAATTCATGTGAAAATTGGGTCCCTCCCTTACTCAGCAAGCAAAATAGTAGTCGTAGCTA TTTAATTTAATGCCTCTCTTCTTCAACACACTTCACTTCTCTCGTAGCTGAAGACCAAGTGATCGAACCAGAGCTCGAGC ATTTGAAGAAGATGATCACCTCTTTCAGTCTCCAATCTTTCAACATTGCCTCTACCGCTCACGTAATTCACTCATTTCTA TTTGTTTCTGAGATTTTGATTTCATATTTAACACCATTTGTTTCCTTTTTTCTTTTTGTTGAAAAAATGTTGTAACCCTA GGGGTGTAACTGTTCATTTCAGAAAATTAGCCTGAGATATACTGTGAATTTTTCTTTCAAGAGATTTCGTTACATGAACT GGTTTTCTAGTCTGTTATGACTAGTTAGTGAATGACTTTTTCTCTTTTTAGTAATTTTCTGTATTTATCTATAGTAAGAG GTTCTGAATTGGGTTCTATTTATCCCAAACACACCCCTGGTTTTCTCCAAATTTAAATGCAGGTGACAACATGCTTGTGC TCGATGTTCAATTGTTCAAAACTCTTACAGTAGGGTAAAACTCAAATATTGCCTTTAATAGTTTAGATATGTACTACAAC TACTTGCTTTTGCTCATTGAATGTAATCTCTTTCCAAAACTCATTTTCAATTTAAACTTCAGTGATCTGGACTGTTGGCT CCTTACGGCTGTGTATTGATTGCTTGTATGTTTTATAATTTTCTACTTTTCTTATTGGCAGAACTCGAGGAATAAGCAGG ATCTCGCCAAGCAAAACTCAGTAGAATTGGTTCTTGGGTATAGAAATCCAAAGGGATGCAATAGGTTCAGTTTCGGATCA AGAAGATCAATACATGAGAGGGTATAGTTGACTCTATTTGATGTCTCTTACATAAACAATCGGGTTAACATTTCTTGACA AACTTTGATGCACATGTGCTGTCCTGTCCAAAGTTCTAAGTAGTGTTCAGTGTCATTTGGAGGTCTTGCGTATGGTAGAT GGTCTTGAGATAAAACTTGAGATTGGTTTAGTCATATGAATTAGCTGGCACACTTTGTTGGAATTGATTTTCTTTTGAAA TATAAGGTTTATTGTGTTTGGCTCTGTGGTGAGCAGTTCCTAAATTTGATTATGGTTCATGTTTTGGTGAGCCACCTTCA ATTACAGTTTAAACATGAATGTACTAAAGAAAGCAGATAACAAATTCAGTGGGTATTATATTGTGTTAATATTCCCTCAA ATTTCTACTTGTCTCTTCCCAGATAGTAATGACTAATGACCGGTCAAAGGGTTAGGGAATTAATGAAAATGAAATGAAGC ATTTGTACTGATGTGCTGTATGTTTAAAGAAAAATGAAAGTTTACATATCTTTATCTACATATGTGATGTGCTGCATGTG GATAAGTTATTTCAGTGTGCTTTCCTACAACCAGGTGAGCACTGGTTTCAAGGGCGTAGCTGTTATTACAGATAACAAGT CAGCAATGTCTGCCACTGAGGAAGATTTAGAAAATATAGGCATCTTGCATATCGATCCAGCCATAAAACCATTTAAAGAT CACTTCAAATGTAGACTGAAGAGATATATAGACCAGAAAAAGCTAATTGAAGAATATGAAGGAGGTCTTGAGGAATTTGC ACAAGGTGATTGTAATTGCTGGCATTGTTTCCCTTCTATTTTCCCTTTCTATATATCTATGCCTACTAAGATTAGGTAAC TACAAATTAGATGTTCATGATAAAGCCGGGGTATTAATTGATTCTTGATAGTGAGTGTTAGTGGTAGTAGAGAAGTCATA TTAAATTGTCTGGCATGCACAAGCCAATCTAGAACACAATCAATTGATTATGTTGGAATGAAAACAATTTCATTTAACTA TCAACTGTTATATTTCTGTTAAAATGCCTTACTAATTTATTGGCTGAGACTAGTTGCAGCTTCAATATAATGTTTCTTTT TGTTTTCCCTTCCCTCTTTTCTCTCAGGTTATTTGAAATTTGGATTCAACAGAGAAGAAGGTGGCATTGTGTACCGTGAG TGGGCACCTGCTGCTCAGTAAGTTATATCAAACAACACAAATTAGTCATGTTCGTTGCCATTGTTCTATTCACTTTTCTT TTCAGATTTCACATCTCTTTCAATGCAGGGAAGCACAAATTATTGGGGATTTTAATGAATGGAATGGTTCCAATCACCCA ATGGAAAAAAATCAGTTTGGTGTCTGGAGTATTAAGATCCCTGATGTTGCTGGGAATCCAGCTATACCTCACAATTCTAG AGTGAAGTTTAGATTCAGACATGGTGGAGTCTGGGCTGACCGCATTCCGGCTTGGATTAAATATGCCACTGTAGATCCTA CCAAATTTGCTGCGCCATATGATGGTGTCTATTGGGATCCACCGCTTTCAGAGAGGTCCTGTTATTCACATATGTAGAAT ATCTGTTGACTTGTTATCCTCAGTAAAGAATTAAGCATAGCATTGAAGTTGAAGTATCAATACTAAAAGGGACTTCAATG TATGCAACATATCAACTGATTTTAAAATTATGTGAATAATTTCTTTTTTAATTTTTTTATATGAATACATTAACTCAGTT CAAAAGAAATGATTAAAAATTGAATTATATTTTGGATCAAAATATTCTTAATTATTTCAATTAAATAATAAACGAATTTT CTCATCTCTGGGACATATATGGAATGGAAATATAACATGAAATAAGATTTCTTATTAAATAAACTAAATTTGTTTGCCAA TGCATTATACCAAATTCCTATCACATGTCATTATTTAAAATTGTCAATTTAAATCCTGATTGTTGAATGAACAAATAATG ATTTCAAATCTGTGTTATGATAGAATTCATGTACAAATGCTAGGAGTTCCAGGTTTTTTCAATTCCTTATTCGATTTATA TGACCGGTAATAAAAAGAAGCCTTTTCTGGGCTTATCTGTTTGATGTCTATATTTTTCCTCATTCCACCCTTGATTAAGT TTTGGTGAAATTATCTCAGCTGTTTGTTCACCCTCTTGTTTGTTTGGCAGGTATCAGTTTAAATATCCTCGTCCACCGAA GCCCAAGGCCCCGCGGATATATGAAGCTCATGTGGGAATGAGTAGCTCTGAGCCCCGCATAAACTCGTACAAGGAATTTG CAGATGATATTCTGCCACGTATTCGGGCCAATAACTATAATACAGTCCAGCTGATGGCTGTGATGGAGCATTCCTATTAT GCATCGTTTGGGTATCATGTAACTAATTTTTTTGCTGTGAGCAGTAGATCTGGAACCCCTGAAGATCTTAAATATCTGAT AGATAAGGCCCATAGCCTAGGCTTACATGTTTTGATGGATGTCGTCCATAGTCATGCTAGTAATAATGTTACTGATGGAC TTAATGGCTTTGATGTTGGCCAAGTTTCACAAGAATCATACTTCCACACTGGAGATAGAGGCTATCATAAATTGTGGGAT AGTAGACTCTTTAACTATGCCAACTGGGAAGTTCTTCGTTTCCTTTTATCTAATTTGAGGTGGTGGCTTGAGGAGTTCAA ATTTGACGGATTTCGATTTGATGGAGTAACATCAATGCTGTACCATCACCATGGAGTCAACATTGCATTTTCTGGGGATT ATAATGAATACTTTAGTGAAGCAACAGACGTGGATGCTGTTGTCTATCTAATGCTGGCTAATTCTCTGATCCATAATATT TTGCCAGATGCAACTGTAATTGCTGAAGATGTTTCTGGCATGCCTGGACTTGGTCGTCCAATTTCTGAGGTGGGAATTGG TTTTGACTATCGTCTAGCCATGGCTATCCCGGACAAGTGGATTGACTACTTGAAGAACAAGAAAGACCATGAATGGTCTA TGAAGGAAATCTCTTTGAGTTTGACAAATAGGAGATACTCTGAGAAATGTGTGTCTTATGCTGAAAGTCATGACCAGGTA TGAGCTTTTGATATTTTTATGTTAAGTGTTACTTTGTGATGGAAAAAATACTATAAGAATTTAGGTTAAACTAATTTGTG TTAGAAAATCGGGTGTGATAATCCTGGATAAAGTCAAGAATCGTGAGCGTCCACTTTCCGAACAAATTATTTCGACCCTG TAATTGCCTGGGTTCACGAAATCTTTGTTGGGATAATGCTTGACAGTCAATCTGTTTCTTGGCACAAGAGAACAGATAAA GAAAGTAGAGAGATGTTGTGTTGTTCGAATATCTGTTTCAGAATACTGTTTCTGGTTTTTTGTCTTCATTCCTTAGGCTG CAAGCAACCTTATATAAGAGGCTGCACGAATGGTCACAACTGTTCGAAATTAAGTCACAACTTTTCAAACAATTTCAAAC TAGGGTCACAAACGTTCAGAAAAAATTTCTAACAGCGGGACCCCAGCCAGGGGCTCCGCCCCTTGGACCCCGGTTCGTAT TCGCGGTCAATTATGCATTGGCTCACCGAGCGTGCACTCCGCACTAACCTGACTCGATTCCGAGCCTAACGCATAATTGC ATCAGCCTATAGTAGATCACATTACTACTAAAATACATTGATGATTCTAAAATCACCAACAATTTGTGAACAGGTAAATG ATGGAAACTACAGGGGACGAGTAATCGAGAATTTCTGTTATTTGATTTGTTTTTTAATGCCTGCACTATTATTGTTTATT TTTTTATTTTTATTTTTGCTTTTGGCAGTCCATTGTTGGGGACAAGACTTTTTCATTTTTACTGATGGATGAGGAAATTT ATTCTGGCATGTCTTGCTTGGCTGATGCTTCTCCTACTATCGAGCGAGGGATTGCTCTTCATAAGGTTGTTCATCTGACC ATAAAGACTATTGGACTACAATTATATAGAATTTGAATCATGAAGTTGATAATATATACATAATTAACGCTGCTTCATAA TCTCCTTATAGTCATTGTTAATTTGTTATCTTAATATTTTGCAGATGATACATTTTATAACCATGTCATTAGGTGGAGAG GGCTACCTTAATTTCATGGGCAATGAGGTATGCATATTGCATATTACGTAACTTCTGCTGCAAAAGTGCTGCTCACTGTT ATTGCATGTTGCAACTGACCTTTACCTTTTCATTGAATAAAAATGCATATTGTTCATGAAAAATGGATTCCTATGAGGTG ATGTTTATACAGGAATGAACTGAATGTTTCCTCTCTACTTTTTTCTTGTTCTTTTTTTGGTGGATGGGTTTCTCCTACGA GCTAGCCCCCTGTGAAATTATCTGCACATTATTTATTTCCAATAGCAGCTAAGCTGGAGATTGTCAAGCATCGCTCATTG CTATAATTGTATACCATGTTATCACTTGTTAAATTGTACTCATGAGGCCATTTTTAGTTTGGCCATCCGGAGTGGATTGA TTTCCCAAGAGAAGGCAATGGATGGAGTTATGAGAAGTGCAGGCGTCAGTGGAGTCTGGTGGATACAGATCACTTGAGAT ATAAGGTAATATATGTGTGTGTACATACTCAACGTATTGTGTTTATTCACTGGACACAGAACTTTGACATCTCTTTTGTT TGTGGCTTCATTTCTTGCGCAATTTTAACACCAATTGAGTCCTTAAGTGGATGTTATACCTGTATGAGTCAAGCTATCTT CTTTTAAAGATTGCTCACATTTGAACCTGATTCGGTAAAATAATCCACTTAGTCAAATTATAAAAGAAAATAATTCCTTG TTAATTGCGCTGAGCAAATATAAATATTTAAAGATACAATATGAAAATTTCCTCATTTACACTTTTTTCGAATACGATTT TAATGAAGATGACAAAAATGGTGTAAGCCGATACATGTAATTTGCATTTGAATCCTCATCAACTATGGACATTCATAAAT TAAAACTTCATTGGAATCTCTGTTTAGCTCTGAGTTCAGAATCTCCGTACGATATGCTAGGGCTTAAGTTAAAATGGGCC TTGCTCAAGAAATAATGTTAAAAATGGGCCTTGCCCTTGCATATTTTTGTGTGATGCTGTAGGCAACAGTGTAATCTGAT TTTGTGGAGCTTCTTTTTTCCCCTAGTCGAGAACACTGCTTATTCTTTCATTCTTGCAGTTTGTTGCTTGTCTTTGAGAT GTTATATTTTTGTTTTTGGAATTTGTGCAGTTCATGAACGCATTTGACAAAGCTATGAATTTGCTTGATGATAAATTCTC ATTCCTTGCATCAACAAAACAGATTGTGAGCAGCACAAATGAGGAAGACAAGGTGAATATAATTTTTGTAATATACTCAT TCATAATATGGTGTTTTTGCTACTTGCTAGTCAATTAGAGATTATTTATATTAAGACTGAGTGAAACAAGAATGCTTCCG AGAAAATATACATCGGTATCGTGAACATCATGAAGTTGTTTCTGAAAATTAGCGATTTAAGAAGATAAAATCATTTACAA GCTATTGTCTTCTCTGAGTTAATCTCAAGTGGAACTCTATGCTATGTTATAATTAAATGCCTAATTTTTTTTCTTTTATA GGTTATAGTCTTTGAACGTGGAGATCTGGTATTTGTGTTCAATTTTCATCCAGAGACTACATACGAAGGGTATGCAATAT GTGTTCAATTTTCATGTTTGGGGAATTAATTTGTATCAGGTTGTGTGTCTGGTTTTATGTAAAGGTTTTATTAATATTTC TATAATAGTAACTGTTAACCACAAATGATTTGGAAGAAACCTTGAACATACAGGTATAAAGTTGGATGTGACTTGCCTGG GAAATATAGAGTTGCACTGGATAGTGACGCTCGGGAATTTGGAGGCCATGGAAGAGTAAGAAGCCCTAATCTTCACACAA GTATAAATTGTTGTATTTTCCTCTGTGAGAGGTAGTGAGGGACAGAGTGCTGTGAGTGGCAGTGAGGTGTGGAGAACAAA AAGAATGGGAGGGTGAAGGTGCTCATTACTATGTTATTCTATGGTTTTTGAATATGTTCCTTGTCATTTTTCCTGGTTAT GCACTTGTGTCTAAGGTTGACCATTTTCCACTTCTAGGTGGGGCACAATGTAGACCACTTCACCGCTCCAGAAGGCATAC CAGGAGTTCCCGAATCAAATTTTAATAATCGGCCCAATTCCTTCAAGATCCTCTCCCCTCCTCGTACCTGTGTGGTATGT TATCTCGTGCCTTTTAATATCTCTTTTATTTGCTTTTATCCGGTTTGATTGCATAACTTTTTATTTATTTATTTCAATGG TGGTTTAGAAGTTTGAATTTATGATTTCTGGCAAAACATCGTAACAAATCATGATTAACTCAAACCTTTTTACTGTATGT ATGGCATATTTTAATGCATAAAAACTTCTGTTGAGTTCCCCCCTAAATCTTCAATATCTATGAAAGACAAGTCAGATATG CAATAGTCACAGCTGAAGCTCAAATCTACCCTTGCTCCATGACAACAATGGGTTTCATCCCAGTGGTTATTTAATTGTCA TGTCAACATTAGGTTTGAGTTAAGCTTTTCACTTGCAATTCCCTGCAAAATATGAACTGCTAATGCAATTTGAAAATTTT CAAAGGTATATTATAGAGTGGATGAAAGCCAAGAAGAAAACAGTATTAGCAATTTGGTCGGGGTACAAGAGACTTCTACT GCAGCAGATATTGTTGCAAACATTCCGGATGGATCCTCAGCTTCAAAAGAACGCGAGGTTAGCAATTTCAATTGGACAAT GGAGACATTGGCTGCAGCAAATGCAGATGTGGCGAAAATTCCTGATGAATTGGTTCCTGCTGCAGAAAATGAAGTATTTC AAGACGAAGTAGAAGATGCAGACGAATAACAATCTTGTTCCATTGTGAATGTTACCAGTTTTTAGTTGCCATCATTCCAG TGATGACTGATGAGACAAGCAGGTTTTTGGATATCAATAAAAGGACTTGGGTGCAAATTTTGGGGAAACGTTTGTCCCTC AAATCACCATGTATATTTTGTAGGTGTTACAAATATTATTACTAACACTCATGTATATTCAGTCTCCTTACTTGTTTTGG CAGTAGCTGTGTACATATTATATTGACCTATCTCTAGGGATGTCAAAATTATCCACACCCGTGGATACCCGCGGATAAAA ACCCGCTATGGGTAAAATTACCCATGCCCACGGGTATCCACGGATTAATTTCATGGATATTTTCACTATCCATTTATTAA TGGGGCGGGTACGAATATTGATGTATCCATACCCACCCGATATATAAAATACTAAAATATCTTTTATATTTATATACATA GATGTATATTAAATATCGGCTTAATCCAGTTTTTGGTCCCTATCCTTTGTCATAAATATGACTTTAGTCCCTCGCCGGAG CAAAGGTGGGGATTGGTCCCCAGTTTTTGGCAAAATAGTTGGCTTTGGTCCTTCCGGTCGGTTGGGTCAACGCCGGAGCT CCGCCAGCTGATGTGGCTCTTGCCACGTCAATTAATGAGCTTAGGTGGAATATTTATTTATTTTTTATTTAATTTAAAAA AAAAACTCAGATTAATCACCATCATTCAATCTTCATCTTCATCATCCTCAACTTCATCTTTTCTTTCCCAGAAACCCAAT TTGAAACTTCCCCTAATTAAATTAAATTGATCTTCATCATCATTTCATCATCTTCATGAACATAACACAAGCACAAGCAA CAACCACGCCCAGCTAGGAGAATCACAGCACCAACAGATACGCAAGAACAGAATCCATAGGCACCAGAAGCTCAGATCTG GTCCGCCCCAACCACCTTCTTAAACTCCCAAAAGCTCAGATCTGTCACCACCAAACTGATGTCTTCATCGCGCGAGGTTC AGATCGACGCTTCAGGTCCTCAATCTCGTCCGTTACCACCACACCATCGTTCTCACTTCTCTGCATGGAAGCTAAAGTTT TGAGAAGATTTGCTGAGTATCATCCATCCACCGCAGCAAATAATACCCATTTACACAAAAACAACAAAGCCAACACCTTT CTTTGCCCCGTGTTCCTTTTGCTATAAAACTCCAGCCTTTACCCATACCTGCGTGGAGGAGGTGTATTTTGATGGTGACA TCAGTTCTGGGTATTGCAAAAGGATTAAGTGAAGGAGGTTGGTGGTGCTTGATGAATATTCTTTGTGTAATATGGGTTAG AGTTATGATTTTGTGGCATTGGAGTTCTGGGTATTGCAAAAGGATTTTGTTGAATTTCATCTTTTTAATGATTTTATTTA AATAATATATGAGGTTAATTAGGGACATAATTACTGGGGCTAATTTTTTTAAAATTTCAAAAAATAAATAAATAAAAATT CCACCTAAGCTCATTAAATGACATGGCAATGCCACATGAGCTTCCCGGAGCTCCGGCGATGACCCTACCGGCCGGAAGGA CCAAAGCCAACTATTTTGCCAAAAACTGGGGACCAATCCCCACCTTTACTCCGGCGAGGGACTAAAGCCATATTTATGAC AAAAGATGGGGACCAAAAACTGGATTAAGCCTTAAATATCTAATGAATTTGTGTTTGAGTTATAGTTCTCTTTCAAGTAA ACTTATACAATGGTAATGGTAAAAAGAAGCCCTTGGACCCAAAAAATAGTAGAAAAAAAGTATTTTCCTTTACACATTGA TTGACTGTAAAGTCCAATGTTAAATTTTATATTTAACATAATTTTCTTTTGAACAAATATATGTGAATTCATTTATGTTC ATGGGTGTCGGGTGCCCATGGAT
CDS sequence (LotjaGi1g1v0436100.1) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGATCACCTCTTTCAGTCTCCAATCTTTCAACATTGCCTCTACCGCTCACAACTCGAGGAATAAGCAGGATCTCGCCAA GCAAAACTCAGTAGAATTGGTTCTTGGGTATAGAAATCCAAAGGGATGCAATAGGTTCAGTTTCGGATCAAGAAGATCAA TACATGAGAGGGTGAGCACTGGTTTCAAGGGCGTAGCTGTTATTACAGATAACAAGTCAGCAATGTCTGCCACTGAGGAA GATTTAGAAAATATAGGCATCTTGCATATCGATCCAGCCATAAAACCATTTAAAGATCACTTCAAATGTAGACTGAAGAG ATATATAGACCAGAAAAAGCTAATTGAAGAATATGAAGGAGGTCTTGAGGAATTTGCACAAGGTTATTTGAAATTTGGAT TCAACAGAGAAGAAGGTGGCATTGTGTACCGTGAGTGGGCACCTGCTGCTCAGGAAGCACAAATTATTGGGGATTTTAAT GAATGGAATGGTTCCAATCACCCAATGGAAAAAAATCAGTTTGGTGTCTGGAGTATTAAGATCCCTGATGTTGCTGGGAA TCCAGCTATACCTCACAATTCTAGAGTGAAGTTTAGATTCAGACATGGTGGAGTCTGGGCTGACCGCATTCCGGCTTGGA TTAAATATGCCACTGTAGATCCTACCAAATTTGCTGCGCCATATGATGGTGTCTATTGGGATCCACCGCTTTCAGAGAGG TATCAGTTTAAATATCCTCGTCCACCGAAGCCCAAGGCCCCGCGGATATATGAAGCTCATGTGGGAATGAGTAGCTCTGA GCCCCGCATAAACTCGTACAAGGAATTTGCAGATGATATTCTGCCACGTATTCGGGCCAATAACTATAATACAGTCCAGC TGATGGCTGTGATGGAGCATTCCTATTATGCATCGTTTGGGTATCATGTAACTAATTTTTTTGCTGTGAGCAGTAGATCT GGAACCCCTGAAGATCTTAAATATCTGATAGATAAGGCCCATAGCCTAGGCTTACATGTTTTGATGGATGTCGTCCATAG TCATGCTAGTAATAATGTTACTGATGGACTTAATGGCTTTGATGTTGGCCAAGTTTCACAAGAATCATACTTCCACACTG GAGATAGAGGCTATCATAAATTGTGGGATAGTAGACTCTTTAACTATGCCAACTGGGAAGTTCTTCGTTTCCTTTTATCT AATTTGAGGTGGTGGCTTGAGGAGTTCAAATTTGACGGATTTCGATTTGATGGAGTAACATCAATGCTGTACCATCACCA TGGAGTCAACATTGCATTTTCTGGGGATTATAATGAATACTTTAGTGAAGCAACAGACGTGGATGCTGTTGTCTATCTAA TGCTGGCTAATTCTCTGATCCATAATATTTTGCCAGATGCAACTGTAATTGCTGAAGATGTTTCTGGCATGCCTGGACTT GGTCGTCCAATTTCTGAGGTGGGAATTGGTTTTGACTATCGTCTAGCCATGGCTATCCCGGACAAGTGGATTGACTACTT GAAGAACAAGAAAGACCATGAATGGTCTATGAAGGAAATCTCTTTGAGTTTGACAAATAGGAGATACTCTGAGAAATGTG TGTCTTATGCTGAAAGTCATGACCAGTCCATTGTTGGGGACAAGACTTTTTCATTTTTACTGATGGATGAGGAAATTTAT TCTGGCATGTCTTGCTTGGCTGATGCTTCTCCTACTATCGAGCGAGGGATTGCTCTTCATAAGATGATACATTTTATAAC CATGTCATTAGGTGGAGAGGGCTACCTTAATTTCATGGGCAATGAGTTTGGCCATCCGGAGTGGATTGATTTCCCAAGAG AAGGCAATGGATGGAGTTATGAGAAGTGCAGGCGTCAGTGGAGTCTGGTGGATACAGATCACTTGAGATATAAGTTCATG AACGCATTTGACAAAGCTATGAATTTGCTTGATGATAAATTCTCATTCCTTGCATCAACAAAACAGATTGTGAGCAGCAC AAATGAGGAAGACAAGGTTATAGTCTTTGAACGTGGAGATCTGGTATTTGTGTTCAATTTTCATCCAGAGACTACATACG AAGGGTATAAAGTTGGATGTGACTTGCCTGGGAAATATAGAGTTGCACTGGATAGTGACGCTCGGGAATTTGGAGGCCAT GGAAGAGTGGGGCACAATGTAGACCACTTCACCGCTCCAGAAGGCATACCAGGAGTTCCCGAATCAAATTTTAATAATCG GCCCAATTCCTTCAAGATCCTCTCCCCTCCTCGTACCTGTGTGGTATATTATAGAGTGGATGAAAGCCAAGAAGAAAACA GTATTAGCAATTTGGTCGGGGTACAAGAGACTTCTACTGCAGCAGATATTGTTGCAAACATTCCGGATGGATCCTCAGCT TCAAAAGAACGCGAGGTTAGCAATTTCAATTGGACAATGGAGACATTGGCTGCAGCAAATGCAGATGTGGCGAAAATTCC TGATGAATTGGTTCCTGCTGCAGAAAATGAAGTATTTCAAGACGAAGTAGAAGATGCAGACGAATAA
Protein sequence (LotjaGi1g1v0436100.1) extracted from Lotus japonicus Gifu v1.2 Proteins.
MITSFSLQSFNIASTAHNSRNKQDLAKQNSVELVLGYRNPKGCNRFSFGSRRSIHERVSTGFKGVAVITDNKSAMSATEE DLENIGILHIDPAIKPFKDHFKCRLKRYIDQKKLIEEYEGGLEEFAQGYLKFGFNREEGGIVYREWAPAAQEAQIIGDFN EWNGSNHPMEKNQFGVWSIKIPDVAGNPAIPHNSRVKFRFRHGGVWADRIPAWIKYATVDPTKFAAPYDGVYWDPPLSER YQFKYPRPPKPKAPRIYEAHVGMSSSEPRINSYKEFADDILPRIRANNYNTVQLMAVMEHSYYASFGYHVTNFFAVSSRS GTPEDLKYLIDKAHSLGLHVLMDVVHSHASNNVTDGLNGFDVGQVSQESYFHTGDRGYHKLWDSRLFNYANWEVLRFLLS NLRWWLEEFKFDGFRFDGVTSMLYHHHGVNIAFSGDYNEYFSEATDVDAVVYLMLANSLIHNILPDATVIAEDVSGMPGL GRPISEVGIGFDYRLAMAIPDKWIDYLKNKKDHEWSMKEISLSLTNRRYSEKCVSYAESHDQSIVGDKTFSFLLMDEEIY SGMSCLADASPTIERGIALHKMIHFITMSLGGEGYLNFMGNEFGHPEWIDFPREGNGWSYEKCRRQWSLVDTDHLRYKFM NAFDKAMNLLDDKFSFLASTKQIVSSTNEEDKVIVFERGDLVFVFNFHPETTYEGYKVGCDLPGKYRVALDSDAREFGGH GRVGHNVDHFTAPEGIPGVPESNFNNRPNSFKILSPPRTCVVYYRVDESQEENSISNLVGVQETSTAADIVANIPDGSSA SKEREVSNFNWTMETLAAANADVAKIPDELVPAAENEVFQDEVEDADE
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 |
---|---|---|---|---|---|---|
PIRSF | 17 | 775 | 759 | 1.7E-219 | ||
PANTHER | 28 | 780 | 753 | 0.0 | ||
PANTHER | 28 | 780 | 753 | 0.0 | – | |
Gene3D | 91 | 652 | 562 | 2.5E-280 | – | |
SUPERFAMILY | 125 | 235 | 111 | 8.4E-20 | ||
Gene3D | 127 | 240 | 114 | 2.5E-280 | ||
Pfam | 131 | 213 | 83 | 2.2E-19 | ||
CDD | 138 | 233 | 96 | 2.44261E-44 | – | |
CDD | 238 | 645 | 408 | 0.0 | – | |
SUPERFAMILY | 241 | 647 | 407 | 3.24E-86 | ||
SMART | 276 | 636 | 361 | 2.2E-6 | ||
Pfam | 301 | 365 | 65 | 1.5E-10 | ||
Gene3D | 659 | 775 | 117 | 5.5E-52 | ||
SUPERFAMILY | 661 | 767 | 107 | 2.95E-23 | – | |
Pfam | 665 | 765 | 101 | 2.0E-26 |
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 | Catalytic activity | Catalysis of a biochemical reaction at physiological temperatures. In biologically catalyzed reactions, the reactants are known as substrates, and the catalysts are naturally occurring macromolecular substances known as enzymes. Enzymes possess specific binding sites for substrates, and are usually composed wholly or largely of protein, but RNA that has catalytic activity (ribozyme) is often also regarded as enzymatic. | ||
Molecular function | 1,4-alpha-glucan branching enzyme activity | Catalysis of the transfer of a segment of a (1->4)-alpha-D-glucan chain to a primary hydroxyl group in a similar glucan chain. | ||
Molecular function | Hydrolase activity, hydrolyzing O-glycosyl compounds | Catalysis of the hydrolysis of any O-glycosyl bond. | ||
Biological process | Carbohydrate metabolic process | The chemical reactions and pathways involving carbohydrates, any of a group of organic compounds based of the general formula Cx(H2O)y. Includes the formation of carbohydrate derivatives by the addition of a carbohydrate residue to another molecule. | ||
Biological process | Glycogen biosynthetic process | The chemical reactions and pathways resulting in the formation of glycogen, a polydisperse, highly branched glucan composed of chains of D-glucose residues. | ||
Molecular function | Cation binding | Interacting selectively and non-covalently with cations, charged atoms or groups of atoms with a net positive charge. |
Expression pattern of LotjaGi1g1v0436100.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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