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| Field | Value |
|---|---|
| Gene ID | LotjaGi5g1v0192500 |
| Transcript ID | LotjaGi5g1v0192500.2 |
| Related isoforms 1 | |
| Lotus japonicus genome version | Gifu v1.2 |
| Description | alpha-1,2-Mannosidase; TAIR: AT5G43710.1 Glycosyl hydrolase family 47 protein; Swiss-Prot: sp|Q9FG93|MNS4_ARATH Alpha-mannosidase I MNS4; TrEMBL-Plants: tr|I1LC43|I1LC43_SOYBN alpha-1,2-Mannosidase; Found in the gene: LotjaGi5g1v0192500 |
| Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr5:48586167..48597733) extracted from Lotus japonicus Gifu genome v1.2.
CATAGCAGCACTGATCGTGAAAATGGAACGAGGGAGGAGGGTGCGGTGGATTCAGATCCATTCACTGTTACTCTTAACCT CTCTCACGGTGGCCGCCGCCGCCAGCGTCACCGGAGAAGAAGCGAAACAGCTGAGAGACGAGGTCCGTGAAATGTTCTAT CACGCTTTCAATGGATACATGGACCACGCTTTCCCACTCGATGAATTGAAACCTCTTTCATGCAAAGGAGAAGACACCAT TGGTGGTTATGCCTTAACCTTGGTTCGTAGCTAATTAGCCATTCACTCTCACTCTTTCACTCTCTCACTTTCACATTCAA TTTCTAATGAATTTGAATTGCGTTATAGATTGACTCGTTGGACACTTTGGCTTTGCTTGGTGATCGTCAACGCTTTGCAG CTTCTGTTGAATGGATTGGTAAAAACCTTCGCTTTGATATAGTGAGTAGTCAATTTATCAATTTATCAAAGCAAAATCAA GCACCAACCATTTTTTTGATTTTTGATTAGTTTCATCCAAATGTTATTTGATTTATTCTATGCTGGGTTGGTTGCAGAAT AAGACGGTTTCTGTGTTTGAGACCACTATTAGAGTCCTTGGAGGATTGATTTCAGCTCATCTTATTGCCTCTGATTACGC TACGGTATCATTTATTATATTATATAATGCACATGATTACATTTACATTAGTGGAATTCTAGCTTTTAAATTGGGGTTGC GATAAAGGTAGCATTGTGGAAAATTGTGAACAAACATTGACTGTCGCAGCCGAAATCAAAGCCATGTTGCGGTTTCGGAA ACCTCCAAAACCTTAACATCGCGGCCGAAATCACAGTTTCAGACCGTGATTTAAAACCATACTGCATGCATACATAAATC ATGGCCGGTGAGGAGGCACTAGGCTGCTGATGTTCAAGTTGGATGGTGTTGATAGGAATCTGGATCTCTTTTAGGGTGCA TTTGGGTAATCAATTTAATTAAGAACTAATGTCAATAAACACTTATCATTTAAACGCTTATTCATAAACTTATTTGAGAA GCTTATTAAAATAAGCTCAAAGGAGCTTAGATGTAGGTATAAACGCTGTTTCATAGGCTAAGCTAATATGAGAAGCTTAT CAAAATAAGAGTAAGCTCAAAAGAGCTTGAGCTTATAGATAGGTCATACATTATATTTCTATAAGTTTAACCAAATACCT GGTTAAGCGCTTATACTATAAAATAAGCTTACATAAGCTCTTCTAAACGCACCTTAAGTAGTATCAATCAGATTAGGTTA TGGTTTCACCTCTATGCTTTGGTGGCGGAAAGTAGCTCTTTGCTTTGGTGGCGGACTGATAGGAACTCAAGGTTAGGGGT TAGTTAGTTAGTTATACTTAGGGAGTTAGTTAGAATGTTATTGAGGCATGTAGCCTATAAATAACAGACATTAAAGAGTT AGGGGTATCTTTTGTATCATTTTGGGTATTGGGATTAGGAAGAGGGTGTGGACTCTCTAGAGGGCGTGGACTCTCTCTTG TATTCTGCTCTAGTTTCCAATTTGGGAATTAGGGTTCTGTGAGGAATAACATCAGATTTCAGGGTGGTTCTATCACGGAC AGTCAGATTCTTTCTGTGTATCACTCCTTTTTCTGCTTGGTGAATCTTGCAATTGCAGCGGCCCTTGACCTTGACTTATA TGGGTGTTTCTTTGGATTCTAATCCATGGGCTAAGTGTTTTCGGGATCCAGTGTGCAGAAGGTTTCTAGTGTTCAGTGAT TGGAAGGTTGCTTTCTGCCTTTTGGGTAGTAGGATAACTCTTTCAGGCCTGCTTGTCCATCATTCTATTTATTTCTTTTC CCGGATTTCTATGTGAACGACTCAAAGGATAGGGAAATTATGTTTTTTTTTTCCGAGGATAGGAGTGGGTTAGTAGAGAA AAAGGATTGTGTTTGTAAGTTGGGAGGCTTGTTACAAGCCTTAAAATTAAGGGGGTTTGAGTCATAGGAATTTGCTGAGC CAAATTTATTGAGTTGGCTGATTAGTGGCGAGAGTACAGTATCTTCCTCTATAAACAAATTCCTTATGGCACTGGGCCAT TCAAATGTTATTCCTTTTGTACTATTAACTTTATCTCTTGGAGAATATCTCTTTCAGAAGTTTTCCCTTTTTATTCGATG GTTTCCTGTTTATAGTTAACTGGAGTTTATGTTGATGTTAAAGGTGGTACTTATTCTCGTGTTAAATGTTTACATTATTG GGTGCTTTTTTTGTGCATTCACAGGGTTCTGATTAATATCTCATTTCATTGATAATTTATATAATATACCAGTACATAAA GTTCTAAGGTCTTGATTATCTTTCCATTCACTGTCTGCAGGGTATGAGAGTCCCATTGTATGATAATCAGTTACTGAACT TAGCAGAAGATCTTGCGAGGAGGTTGTTACCTGCATTTGATACTCCTACAGGTATTGCAAGATTCACAACTGAGTGTGCT TATATTTTAGTATCTTTGCTCTCAAGATCATCATTCTTTGTTCAAAAAAGGATTATTTTGTTTGCATCCTTTTTAAATAT ATTATTGTTTATCATTCTAATTTTGACTTTTGATGGCATTGCACACCACTATGGTGTGGACTGACACAGATACAGATGAA GAACAAAGAACAAAGTGCTTCATATAGAATGTTCAAATATGAGGGTTGAAATTTGATTTTTCTGAATATATTTTGAAAGT TGGAAACAGCCATGGGCAGAACACCAAAAAGGAGCTAAAAGCATAATCATTTCCAATAGCAAATTTAAGGACAGAGAGAC ATCTCTAATATCCATGCGTTCTGCTCAAACCAAATGCATTAGAGAATTGCATAAACTGCACAAAACTTCGACTTCATTGT TTATATTGTAGCTTACAAGTTAAAACTACAACCAACCTCCCAACTAACAAGAAAATCCTTTCTGTTTTGTTCACCTACAC CAGACAATTGCTAATACCTCATTTTTCTTTTGACCAGAAATAGCTTCAAAGAACTAAAAGATAGATATAAAATTCACAGA AGTATTACTATCCTTCAACGAAATGCGGACAGTATTATTAACTGAAGCTGAGCCGCTAATCTTATCTGATCCAACTCTAT CACCCTTATTGAGATGCTTATGAACAACCCTGAAAACATTTGACATTTATCATCAACTTCTAAAATTAAGAAGGGGAAGA GGATTCCCTTGCTTAACTCTTGCCATACATGACATCAAGACATATGTTCACTATTCACAACCATAGAAAAAATAGCAGAG GTGTCAAGAAATCACCATTACAGTTATTTACTCAGAGTGGTGCAGAACTGCAATTGTTTTCAGCTTAGCTTGATATAGAA TGTTGTTTTAACTTTTACCTTCTTAATAGTATTAAACATCATATATTGACTTTGTATGATATGTTGTATTGCAGGAATTC CATTTGGGTCTGTAAATTTGTTGTACGGAGTTGATAAACATGAAAGCAAGGTAGCGTCTTCACCTGTGCTTTCTCCTTTT ATGTTTAAACGTTTGATAGTCACTGATCTGGCAAAGTCGCTATAGTGTCAAATGACACATAAGAAACAAATGGACAACTG ATTTTAAGTTAGCATAGGAGATGGCTTGGAGACTGATCTTTGCTCCACTATTTTCTTTTTGAGAAACAGAAAATCTGTCC TGAGATCAGTTTCATGCCCTTGTTTTGCGTATCTTATATCTTCAACCTATCTCTTCTTTCATGATGCATTAAAAATTTTA TTTTTGTGCTTAGATAACTTCAACAGCTGGTGGTGGGACATTGACTCTTGAATTTGGAGTTCTAAGCCGTTTGACAAGTG ATCCTAGTAAGTTTACTATTTATTTTTAGATCATTTTGTGAGATACTTGATGCAAGGAGTCGAATTCCAGTATAGTTCTT AGAGTTTTCATACACAATAACTTTTGGTACCAAAAGATCAAATGCTTGGGCTCTCACCTGGCAAACTTCCTTCGTAGTAA CTTTCTGAGCTACACGATGCTTGCTATTTTTCCTACTTAGCTCTTTTGCAGAGGCCCAATACGTTGGATTTCTCTTTTTG AATTTAACCTTTTCTTAATTTTTTCCACCATGATCCTTTAATGTGTTGTAAATAATGTACATAGCGCTATTTTAGGATAG CATTGTTGTGCATTCAGGCTGTATTATTTGTTCCCTTTATGAGGACAGATTTATTTTTCATTATCTACATCAGTCTTTAA ATTGTAATTCACCCATGTACAGTTTTGACTTAATGGATAATGACGTGAATAATATTCCGAGTCATTCCTTTCAATTTCAT TAAACTTATTAGAGCTCCTGATCAGGTAGACTTTGCTTCAGCAAACCATAGGCTGCCTTTACTGGACCTATGCAAACCCT AGGTCATCTTGATTATACCCGCCACAGTCTCGCACCTCCATTGTGCTTGGAAGTTGGAAGTCAGTTTCAGCACATCCACT GAGCTCAAATTGCTGTCAACATCTGCCACCTACAGTAATTTCTACCGCCATTGACCACCACATATTTGACTAATGAACCC ACCAAGTGGACTACCGTCTCATGTTCGATCAGATCCCAAAACCTGGTTGCCTGATCTTCCTGTTTAATCCGATCTTGATC CCTGAACCTTAGGGATCTGATTTATCTGTAATTAGTTTCCTTACTCTAGAATCTGAGCACGTTCGGATGGGGGCCAAAGA GCACTCATTGGAGCTTATAGCTTGACAATATCTCCTTGAGTATTTTCCCTTTTCTTAGCTCACACATAGAAACAAAATAC TTTATTGATCACATTATATGTTAATGCAACAAGTAAATCATAAGTACACTTAGTGTTTTACTTAATTATAGTATCTTGTA CCAAATCCATCTCCTTGAATATTTAAGTCACAACACACCTTTATTGTCATCTTTATTATGTTACTTGTCCTTGCTTTTAC CATTACCAACCTCACTGCCCTCCTGTCCCAAAACATTTTTTATTATTGTAATTGCATGTTAGTTTTCTATTCCTATTTAT TCATTGGCAGATTAAGATTGTCTAGTTAGGATGCTTATGCATCTTAAATGTTGCCAGTTTCTCTATCCACAAATTATTAC CAAATGCTTTGATTTTTAGCTTTCCTTTACTATCATCATTATTTCCAGTCTTCACTCTCTTGGGAAAGGAAGGCCGGGGG ACATTGTCTTATTACTTATAATCCTTTCTTTGTAAATTTTTTGACTTGCAGTTTTTGAACAAGTCACCAAGAATGCAGTG CATGGACTTTGGGCACGTCGTTCAAAGCTTAATTTGGTTGGTGCTCATATTAATGTTTTTACAGGTGAATGGACACAAAA GGTACATAATACATTTTATTTGTTGAAAGTGACATTCTTTATTTTATGGCATATTCTCATCTATTACTCTTTTTAGTGAA CAAATTTTTGAAATAATAGAGCAAATAAATATGTAGTGTGATGCGGCACTTTCTTTAACAATTATAGCGCCTTTTATTTC TACTCCTGTTTTTATCTGCATGTATACTACCTTCTTGTACACTTGTACGTGCCTTATTCCTCTTGTACTCTTGTATAATT AAATACAGTTATCCTAATTAGAGCTATTTATCGATTTCCTTGTAGTGTAGTTCCTTCTTTCTCTCTCTCTCTCTCTCTCT CTCTCCCCCTACACATGATATCAAGGGCTGTGTTTTCAACTTTTACTGACACCCTTCTTTCAGCCTTTTACTAAAAGAAA TTGTAAATAAATTATTTTATGTAGATGGGCTTTATGTATTCCGAGTTGACGCATTCTTTCTTTTCCACGGATTATCCATG ATTAGAGTAACAATTAGTTGCACCTTGTGGGAGAGGAGCTTTGATGTTTGACCTAGGTAGTAGGGCCAGAACTTCTGGAT TCTGGTGCAATTTCAGCCTGTTGCATATTTCAGGTTGTTCAGCCACTGTGCTGGGTGTTTTTCTGGTTGTACTGTGGGAA TTTCAGGCCTAGGAGGTTGCAACTTGGCTAGAAGGTAACTTTCCACGCTCTGTCAAATGTGACCAAGTCTGCACACATTC GGGTTTGGCTGATCTTGTGCTACTACCTCTGCCTTGATTGCCTTTGATGTTTTCCCTCTCCCATCCAAATTCTTGTTGCT GTTTGGAGGAGTGTTGCCATTCTGGATAGTTTAAGGCTTGTTGCCATCCAAATTCTTGTGCTACTACCTTCACCTTATTT TTACATTGTTTTCCTATTTTATATTTTGTAAAATGCCACCTTACTTTCATAGGTTTAATGAAATCTTAACAAGGTGATTT GTTTCTGCATATAGTAGAGGCTTAGGTTTGGCTTGTATATTCAACTATTTTGAGTAATAACTAAGTGAAACTTCTGGTAT GTGGAACCAGAGGACCTTTGGTGTATAAAAAGAAGGATCAAGGTATAAGATGTGTATAGTGAATTATAGGGTTTGGGGTT TGTTGACGTTAAATAATGTTGTGGCTATTGATTACCTCAGTCTCATGACTCGAAACTTTTGCTGTTTATTCTTTATTCAT TTCTTTGGTATTTTCTTTTTTCTCTTACAGGCTATTTGTGTTAAGGAAGCACTTGAGTATATTCAAGAATTATCTTTTGT CTCCTAGCTTAATTCTGTTGTTGTCTATTTGAAGAGGCGAAAAAATATGCAAAATATGAATTAGTTGTTGCTTTTGAGTT TCTGGGTTTTGCACTCTTCTGTCTCTGTCCCGGTGATCTTTCTCTACCTGAATATGCCTGACTTTTAAATCAGGACATAG ATTCTTCATACTTTTTGTGTATCAGCAGCAACTACAGCATTTTTCTGTCTTCTTGCAGGATGCTGGGATAGGAACTAGCA TTGACTCTTTTTATGAGTATCTTTTGAAGGTTAGTAGCAGGAATTTAGTATGAAGAAGCCTTAATGGAGCATTTTTCACA GAAGAGTCAATTTCTATGATTATGCATAAGAACTTCTGTTCCTTATGATATTCTAGATTTAATTTAATAAACCAAAATAC ACCCATGATGTTGTCGGATTTTTATTTTACTTTTGTTTGAGCATCTTCCCAGTGTGTATTTGTCCAAGCACACATGTTAT TTGTTTTATTTGCTTCTGCTTTACTGCGTCATCTGGTTATATCATAAATAAAAGAAAATGGTAAAACTACACTTCATGAT ATTCTTCCCATTTTTATATTTTTTATTCTTTTGCTTCATTGGATTTTATCTAGTTTAGGAGAAAAAATCTTATGTCCTGT TTGTGCTTGGGTTATATATTAATAAAGTCATCTTTTATCAAAATATTTTTAAAAATGATTTCTCTCTGTGTATTTACAAT GACAAATAAGTACAATTGCTGTACATGAGTTTCATTCTAAATTATTCCACCACTTGTTTGAACTTTGATCTGTGTTGAAG ACATCCCTAGAATTCATTTTATGCATTAAGGACTACTTTAACAAAAAGAAATTTTAATAGAGAAGAAAGAGGGACTGTTG AGGGCCGTAATTTTGTCTACGAACTCTAAAATTAGTCTGCTTGTTGATGCCACCTTATTTATGCTTGTCACTTACTATAT ATTTTGCTGATATGATGTAAGATTTTACTATATAAAAAGATATGTTGCTCAAGAATCATTCTCAGGGAAATTGCAAAATG AAATTATAAGTTAACATATTTTAAGTGCATGAACATTTATTTACTCAAGTGATGAGTTAAGTCATATAGCGGTTATTGAT TAACCACTTTTTTTACATTATTAACCACTTGGGATATTTTTAACAAGAATTCCTTTTTCTTTTTTCCTTTTTGCAATCAT CCCTTTATTATGCTTGACTTAATTAGTCAATATTTCATTGAATTCTCTCATTTTGGTTTCTATGCATGACCTTTCAGGCT TATTTACTGTTTGGGGATGAGGAGTACTTGTATATGTTCCAAGAAGCTTATGCTGCTGCCATGCATTATCTTTACCATGA CCCTTGGTAAAAGTTTGTTGCTATATGTGCCATCCTGAAAATATACTTGACTTGCTGTCTATAGTTCTTCAAAACTCATT TTCATGGTTATTTTGAAATGTATTTCAAGTTTGAAACTCAGACTTGTTTTTGTGCTTCTAGGTATGTAGAAGTTAATATG GATTCTGCTGCTATTGTCTGGCCATTATTTAATAGTCTCCAGGCATTTTGGCCTGGTCTTCAGGTTTGTCCTTTTCTTTT TCTTGTTTTTGATATAATATATTTTTTAGTCAATCACTTATTCTGTATAACTAATATCATTGTTAGAGCTAATTGAAACG TGTATATTGCAAGGTTTTAGCTGGAGATATCAATCCTGCCATTCGTACTCATGCTGCCTTCTTCAGTGTTTGGAGAAGAT ATGGTTTTACCCCTGAGGGCTTTAATCTTGCTAGTCTCAGTGTTCAGGTATATCTAGTTTTAATACTCGAGGACCAATAT GGCAGCTAAAATGTTTGTATTTAGTTATAGCTTGAGTCTTTTGTTATGAGTTAAAAGTTTAAACCCAAGCTGTGACTGGC GAATAGATTATTTTCATCAAAATGCCACTAGCCTAGAAGCCTATTGATCACAACAATATACTTAACAAAAATTATTTTCC AAAGAAAGAAAATGCTACTTTCACATTATCAAAACTGACCAAGTTTCCTTTGTATTTTTAACTTCCTAAAAGTAAACACA TGCTAAAAAAATGCGTATATTCACTGTCCAATATGTAATAAAAAATACAAATAATTAATCCAGAATCAAAATATTTATGC AACAATAAATTTAACACTAACCACCTATAACTTTGGATCAAGATCCTCTCGTGAAAATTTAAAAATTTTGTGTACTCTTC ATACCAATTAAATAGGTTAGAACCCTGTGGATGTTTATAAAGAGAGAGATAGATACCAAGTTTCAGAAGGGGAATCAAAA CAATGGAGGCCTACCAAGAGATGGTGCTACTAGAGCAAATTGCAGAAACCTTTAAGAAAATCAATTAACAGGCATCCTTG TAGATGAGAGAGCACTTGGTTTTGAGCAAATGAAGCAAATAATTGCTTATATGTACCATAAACTTCTTCATAGCGAGGTA CACTGAAAGTTTACTGAGTCACAAAAACATAAATCCATAGGAATGTAGATTGCTCGCTTTCTTTTTACGTTAGAACAAGG TGCCTACTTTTTAACGTTTGATATTTGTTTTTTCAGCGTTGAACAATTTAAGCAGTTAATGACAGATTGACTATGAGAGG TTTTAAGAGATAACCTTCCATTCAGTTGATGGCCCTTCAATTTCATTTTCAGTGACAATTGTTCAAGTCTAATAAATATT CTTTCTGATAGAAAAGTATCTTACAATCTTTTTTTGTTTTTTTTGAGGAAATTTTTGTTTGATTATCTCTCGTATTTATG AACTCTGAATATATTTTTCTTTCATCATATCAGCACGGACAAAAAAGTTACCCACTGCGGCCTGAGTTAATAGAGAGCAC CTATTGGCTATATAAAGCTACCAGAGATCCTAGGTCTGCTTATATCTGCTTTTAGTTTGTGTTCACCATTATAAAGTTTG GCTGCTTATTTCTGCTTTTGTAATATCAATTACGGTACCACAACTTTATACTGTATGTATGTAGCCCTCTCTAGTCTCTA CAAATATAGTGGTGTACAATATTAAGTACTTACAAATTCAAAAGAAGGGCTTTCTTGCTAAAGATCCTCCCTCTTCACAT GTTTTTGGCTACATTTTCATTACAGCTTGAGCCAGTTTTCACATGTAAAACAGCCTCTTTATCATGCGTGGTTCGGGAGA TTTTAAACAGCCTCTTTTCAGTTTCACATAATTCATCAGTTGTTAGGATTACATTAGTCTCACTAGTTTTCTTAGGATAA TATTCAGCAAGTTACTCTTCTCTTCTCGCCCCCCCCCCCCCCCCCCCGTTTTTTACCCCCTCTTTCTGTGTACCTTAATT TATTTTTGCCTTGCCTCCTCTAACTCATTATTCTTCTCTCTTCCCTTCTGTGCTCATCCTCCCAGTCTGCTTTTTTATAT TCTACTTTCTCAATTTGTACTATTCTCTGCTACTCTCTGATCTTGTTCCTTAGCAACCTTACTGAGACTTTATCCAACAC TTCTCTTCCCTGCACGTTGTGTTGGTCCTTCAAAGCTTGCAAAGTAACAATGTGATAGATATTGTCCAGAAACAGTTTGT AAACAATATGTTCAACTTTTATGAACTTTTTGGTTGATAGCTGTGACATAGTTGTGTTTTATCGACATGAAGCTTTATTC TGTCCTATGTGTGTCTTTGTAGATATCTTGATGCTGGGAGGGACATGGTTGCTAGTTTACAGTATGGGACTCGATGCACT TGTGGCTATTGTCACATTTCAGATGTTGAGAATCACCAACAAGAAGATCACATGGAGAGCTTCTTCTTAGCTGAGACAGT AAGAACAAATTCAGACTCGACATGACTTGGTTTTAAGAAATCATGATCTCCTCCCGAACATTTTTGCAAAACCAAAAAAA CATAATTGTTTCAGTTGTGTTTAATTGATCATTGTCAAGATAGGTAGTTCTTTATGATTTTGGGTCTCCAACTGTTGTTT CTGATAGTATTGAGAATTGTGGGGGAGATTAAGACTTTAGGTGAGAATCTAATACTATGTCAAGGAACAGCTCTCTCGTA AAAGCTTCAAGTTGTTGGGTAGAAGTCAAGGAATGATTCCATTTTTGTGTCAATTTCATTTTGTGGGAGTTCCTCCTTTG TTCCTTTATAAATTATGCCTCTTACTGTTATCAATTGTCTTGCTTTTCATAATGAGTCCTTCTCAATTATTGTTTTACAA GCGAAATGCTGCTAATAATCTGTTACAATTAGGTCAAGTATCTGTGGCTTCTGTTTGATTTGGCCGTGGGTCCTGATAAC CTTGTGGAAAGTGGGCCATACAAGTAAGCTTTTGCATTTACAATGTAATGGCTGGAATTCAACTATAAAATTGAGTTAGT TCTTGTTTTTGCTGTAAAACAGGTACATATTCAGCACTGAAGGTCATTTACTGCCTGCTACTCCTCAAATCTCCCTTGTG AAGGAACATTGTTTATACCATGGGTCTTATTGTAGAAGTGGTGATTTAAGGCAAACTTATTTTGTGTCGAATGTTGACAA TGATAAGCAAGAATCGAACGATAGTAGATTCTATAGGAGCTGGACTAAAGCTGCATATTCATCAGATGATACTACTTTTG AACCTACGACTGTTTCAGGTTTTATTAAGGTACTTGGTACTCTTTCCTTTTATCACTCACAGTTTTCATGTTACTCCTGC TGAATATTACACTTGGACCTTCTACTTCCCTGCTTTTACATTATTTGTGTTCTGTCAATGTTGGACTTGATATGGATAAA TTCCTTCAGAGCTATTTACATGCAAATGTTGGAAGTTCAGAAAAAAAAAATGTGGTTAAGATTTGGGTTCCAGTGTATAT TTTAGATTACTTATTCTGCATATTGTGAGAAAATGAAAAGTGGTTTG
CDS sequence (LotjaGi5g1v0192500.2) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGGAACGAGGGAGGAGGGTGCGGTGGATTCAGATCCATTCACTGTTACTCTTAACCTCTCTCACGGTGGCCGCCGCCGC CAGCGTCACCGGAGAAGAAGCGAAACAGCTGAGAGACGAGGTCCGTGAAATGTTCTATCACGCTTTCAATGGATACATGG ACCACGCTTTCCCACTCGATGAATTGAAACCTCTTTCATGCAAAGGAGAAGACACCATTGGTGGTTATGCCTTAACCTTG ATTGACTCGTTGGACACTTTGGCTTTGCTTGGTGATCGTCAACGCTTTGCAGCTTCTGTTGAATGGATTGGTAAAAACCT TCGCTTTGATATAAATAAGACGGTTTCTGTGTTTGAGACCACTATTAGAGTCCTTGGAGGATTGATTTCAGCTCATCTTA TTGCCTCTGATTACGCTACGGGTATGAGAGTCCCATTGTATGATAATCAGTTACTGAACTTAGCAGAAGATCTTGCGAGG AGGTTGTTACCTGCATTTGATACTCCTACAGGAATTCCATTTGGGTCTGTAAATTTGTTGTACGGAGTTGATAAACATGA AAGCAAGATAACTTCAACAGCTGGTGGTGGGACATTGACTCTTGAATTTGGAGTTCTAAGCCGTTTGACAAGTGATCCTA TTTTTGAACAAGTCACCAAGAATGCAGTGCATGGACTTTGGGCACGTCGTTCAAAGCTTAATTTGGTTGGTGCTCATATT AATGTTTTTACAGGTGAATGGACACAAAAGGATGCTGGGATAGGAACTAGCATTGACTCTTTTTATGAGTATCTTTTGAA GGCTTATTTACTGTTTGGGGATGAGGAGTACTTGTATATGTTCCAAGAAGCTTATGCTGCTGCCATGCATTATCTTTACC ATGACCCTTGGTATGTAGAAGTTAATATGGATTCTGCTGCTATTGTCTGGCCATTATTTAATAGTCTCCAGGCATTTTGG CCTGGTCTTCAGGTTTTAGCTGGAGATATCAATCCTGCCATTCGTACTCATGCTGCCTTCTTCAGTGTTTGGAGAAGATA TGGTTTTACCCCTGAGGGCTTTAATCTTGCTAGTCTCAGTGTTCAGCACGGACAAAAAAGTTACCCACTGCGGCCTGAGT TAATAGAGAGCACCTATTGGCTATATAAAGCTACCAGAGATCCTAGATATCTTGATGCTGGGAGGGACATGGTTGCTAGT TTACAGTATGGGACTCGATGCACTTGTGGCTATTGTCACATTTCAGATGTTGAGAATCACCAACAAGAAGATCACATGGA GAGCTTCTTCTTAGCTGAGACAGTCAAGTATCTGTGGCTTCTGTTTGATTTGGCCGTGGGTCCTGATAACCTTGTGGAAA GTGGGCCATACAAGTACATATTCAGCACTGAAGGTCATTTACTGCCTGCTACTCCTCAAATCTCCCTTGTGAAGGAACAT TGTTTATACCATGGGTCTTATTGTAGAAGTGGTGATTTAAGGCAAACTTATTTTGTGTCGAATGTTGACAATGATAAGCA AGAATCGAACGATAGTAGATTCTATAGGAGCTGGACTAAAGCTGCATATTCATCAGATGATACTACTTTTGAACCTACGA CTGTTTCAGGTTTTATTAAGAGCTATTTACATGCAAATGTTGGAAGTTCAGAAAAAAAAAATGTGGTTAAGATTTGGGTT CCAGTGTATATTTTAGATTACTTATTCTGCATATTGTGA
Protein sequence (LotjaGi5g1v0192500.2) extracted from Lotus japonicus Gifu v1.2 Proteins.
MERGRRVRWIQIHSLLLLTSLTVAAAASVTGEEAKQLRDEVREMFYHAFNGYMDHAFPLDELKPLSCKGEDTIGGYALTL IDSLDTLALLGDRQRFAASVEWIGKNLRFDINKTVSVFETTIRVLGGLISAHLIASDYATGMRVPLYDNQLLNLAEDLAR RLLPAFDTPTGIPFGSVNLLYGVDKHESKITSTAGGGTLTLEFGVLSRLTSDPIFEQVTKNAVHGLWARRSKLNLVGAHI NVFTGEWTQKDAGIGTSIDSFYEYLLKAYLLFGDEEYLYMFQEAYAAAMHYLYHDPWYVEVNMDSAAIVWPLFNSLQAFW PGLQVLAGDINPAIRTHAAFFSVWRRYGFTPEGFNLASLSVQHGQKSYPLRPELIESTYWLYKATRDPRYLDAGRDMVAS LQYGTRCTCGYCHISDVENHQQEDHMESFFLAETVKYLWLLFDLAVGPDNLVESGPYKYIFSTEGHLLPATPQISLVKEH CLYHGSYCRSGDLRQTYFVSNVDNDKQESNDSRFYRSWTKAAYSSDDTTFEPTTVSGFIKSYLHANVGSSEKKNVVKIWV PVYILDYLFCIL
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 |
|---|---|---|---|---|---|---|
| SignalP_GRAM_POSITIVE | 1 | 26 | 26 | - | – | |
| Phobius | 1 | 14 | 14 | - | – | |
| SignalP_EUK | 1 | 26 | 26 | - | – | |
| Phobius | 1 | 31 | 31 | - | – | |
| SignalP_GRAM_NEGATIVE | 1 | 25 | 25 | - | – | |
| TMHMM | 7 | 29 | 23 | - | – | |
| Phobius | 15 | 26 | 12 | - | – | |
| Gene3D | 25 | 481 | 457 | 6.2E-153 | ||
| PANTHER | 26 | 510 | 485 | 6.8E-255 | – | |
| PANTHER | 26 | 510 | 485 | 6.8E-255 | – | |
| Phobius | 27 | 31 | 5 | - | – | |
| SUPERFAMILY | 32 | 470 | 439 | 1.31E-144 | ||
| Phobius | 32 | 572 | 541 | - | – | |
| PRINTS | 44 | 64 | 21 | 9.4E-61 | ||
| Pfam | 44 | 469 | 426 | 1.6E-116 | ||
| PRINTS | 77 | 91 | 15 | 9.4E-61 | ||
| PRINTS | 114 | 132 | 19 | 9.4E-61 | ||
| PRINTS | 164 | 183 | 20 | 9.4E-61 | ||
| PRINTS | 255 | 272 | 18 | 9.4E-61 | ||
| PRINTS | 312 | 328 | 17 | 9.4E-61 | ||
| PRINTS | 369 | 393 | 25 | 9.4E-61 | ||
| PRINTS | 428 | 448 | 21 | 9.4E-61 |
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 | Mannosyl-oligosaccharide 1,2-alpha-mannosidase activity | Catalysis of the hydrolysis of the terminal (1->2)-linked alpha-D-mannose residues in an oligo-mannose oligosaccharide. | ||
| Molecular function | Calcium ion binding | Interacting selectively and non-covalently with calcium ions (Ca2+). | ||
| Cellular component | Membrane | A lipid bilayer along with all the proteins and protein complexes embedded in it an attached to it. |
Expression pattern of LotjaGi5g1v0192500.2, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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