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| Field | Value |
|---|---|
| Gene ID | LotjaGi1g1v0117500 |
| Transcript ID | LotjaGi1g1v0117500.1 |
| Lotus japonicus genome version | Gifu v1.2 |
| Description | 6-phosphofructo-2-kinase/fructose-2, 6-bisphosphatase; TAIR: AT1G07110.1 fructose-2,6-bisphosphatase; Swiss-Prot: sp|Q9MB58|F26_ARATH 6-phosphofructo-2-kinase/fructose-2,6-bisphosphatase; TrEMBL-Plants: tr|K7M821|K7M821_SOYBN Uncharacterized protein; Found in the gene: LotjaGi1g1v0117500 |
| Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr1:18468331..18480800) extracted from Lotus japonicus Gifu genome v1.2.
GTGCATTTTGAGGCTTTGCCACTCCATTTTAACAAAAATAAAATAAATCAACACACACACACTTCTATGATCTATCATTT TTTGGTCAAATATCCTTCTCTCTCTTTTTTTGATACATAGGAAATAAGAATATCCTTGACTTTCTAGTTTCTTTATATAT CACACACATGACACAAATACTACAACAAACAACTAGCACACTTACACACTTGGATAAGGCCCATTCAAATATTCAACACA CACAACACACACATGAGATTGTTATTCTTGTTCTCACAACGTAACACCTCCTATTCTTCCTCTATTTCCTGCACCGTTAC AAAGCTCTGAAGAAATGGCGACAAGTGGTGGTGGTAACGAAGAAGAACAACGAGAAGGCCTTCTCCAAACGCCGCTACAA ATCCCTGAATTGCTCTTCGTTTCGCTGAAAATGGAGAACCCCAAGACCCTTTTCCCTCACGTTTGTGGCTCCCTCCCATT GCTTGGTGCTTCATGGGATCCTTCCAAAGCTGTAATTTTGATGCATACCCATTTCACCATTTCGTTTATATTCTTTTGGG TTTCTCTCAGTTTTCATTTTTGTTATTGTTTTTCATGCAAAAATTGTAGCTTTCTATGGTAAGGGAATCGGCGTCAATGT GGGAATTGAGCTTTGTTGTTCCACCAAATCATGGTAATGCTTTCTCTCTTGGTTTCTGTTTGTTTTGCCTTTTAAGTTAA GGTGTAAAATTTATATAATATATTGACATCATAATAGTGCATAGTGTTAGTGTACTGTAATGTGTTAAGAATAAGATAGT ATTTGATTGGATGAAATTTGTTTTAGTATGGTTTGTTTATTTTCACTTCCTCCCTTACTCTTAGACTTAATATAATTAGA AATCAAATTATTCCCTCCTTCTTTTGAACCAAACACAACATGTAATTTAGATGTAAAGTAATAGAAAGTAAATAAAATTT TAAGTGGAATAAGAAATGCAAATTGCCAGGCCTTTACTCTGAGATTGAGCAATAGCTTTATTGGCTTCAGCAGAAGCAGA AGGAGAGTCTTTGTTAAGGTGTAAAGTGTTTAGCTTTGGTAATTGTCTTGAAGAAGTTAAAGGGGGTGTCTAGACTACAT TGCTAACCTGATTTGTTGATTTTGTTTTGGATTTTCAGAAGCTTTAGATTTCAAATTCCTCTTAAAGCCCAAGGATATCA ATACACCTTGTTTGGTTGAGGAGGGTCCAAGTCGCTTACTCATTGGGGGAGCATTGCAGGATGGAGCCAGGCTTGCTTTG TTTAAGTTTGATAATGATCAGGTTGTTGAGTATCAAGTGTTTGTTGAAGCGAGCAGGGTTTCTCCCTTTGACCTTGCAGC TAGTTGGAGGGCGTATCAGGACCATTTCCATATTTCGCCTGTACGCGGGATACCTGATGTTAGCATAAATTCAGAACCTC AGACAAGTGGCGAGGTAAAACTCCAATTACCAGTTTTGTTTGTGTATTTGTTTATCCTCTTGGAAGATGTGGTTGTGGTG TGGTATGGCTTTATGAATCAGGTACTCTTTAAGGAAGTTACTATCTTTGTCTTTGTTTTGAAATTTAGATGCTGACTTAG AAAACAAATGTTTCACATCTGTGAGATCTAAAATTTTTGGCTTGGAGTTAACTTTGATTCATGGTATTGGTACTCTACTG TGTTGTTTGTAATTAACTTTCTTTCCTTGCTAGTAGCTTTAGAACAAAGCGTTACTCTGGCGGCAAGTTTTAATATAGAT GAGTTAAATGAGAACTTGCAGGATGTGTTATACTTACTATTTTGTACTATTCAATGTGGATTAGATAAGTATTAAATATG CTACTATGTGTGAATAATCTAAGGAAATTCGACTATTTCTATTACCAAATTGTCATTTGACTTGGAAAATGGTCATACTA AGTTCTTTTTTGTTATAGTAGTTATATCGAAAATAGTAAATAATTGCATTTTGTAGCTAGTGTACATCTTCATAAACTTG GAGAAAGATGTTTTTTTTACAAAAAAAAAAAACAGAAACAGTGACATGCATTTGTCATGTCTGGTTTTTCTCCTTTTTCA TGTTCTACAACTTTAATTTTCTCTATCTTTTAACATGCTTTCCCCTATTTTAATCATAAACCACACTTAATTTAATTGAA ATCAATATTTTTGTTCTATTAGTGCAATGGTCACTGTTATAGTCCAATTGATTTCTTTTCCGTTGTTTTTTATTGCACAA TTAATTAATTTCCCCGTTAGTTGTTTAGGATTTTTCTTTAATACCAGCACTCACCATTTTCTTCATGGTCCAGTAGTGTT GTTTTCCTAAGCTGATAATGCAAAATGGTTATTGGCCTCGTTTGGAAGACCTTATATGAGCTTATCTTATAGCATAAGCG CTTTTGCAAGTGTTTTGGAGAGCTTATGTAATAGCTTATGACCTTACCTATAAGCTGTTTTGAGCTTATTTTCATAAGCT GTTTATATTAGTTTATGAACTAGAGCTTATGCTTTTCTGAACCTATTCTCAACTTATTTCAATAAGTTTCTCAAATTAGC TTATGAATAAGTCCTTATGCGATAAACGCTTATTGAAGCACTTAATTAAGTTGTTTTTCCAAACTCATCCATTGTAAAGG GTCGAGTGATTAATTTGGTGAAACACAATAATTTATTTTCTTCGCTGACATTGCCTCCTCATGTAGCACAACTAGTCCAA TCTTATATCTTAACTGGTGACCTTGATATCCTCTTCTTTTTTCTATCATTCAAACTTATGTTTATTATGTCTAAATATAG TATTTTGAGACTACGAAACTCATGGTTAAAATGTATTTTTTGTTCAGAATGTCTCTTGTGTGAGTTTGGAACTTGATCTT GAGCATTATGTTGTCCCAGCTCCCTCAACTTCTGCAAATGCAAATCCTGTATATGCTGCTAACTTGACAGAGAATCCCAG ATCACCTAGTAATGGGTCAGCCAGCAATTCAAACTCCCCCAGAGATGGCGATGTTTCTATTGATCAACCTGCAAGAGTAA AGATTTAACTTTCAGATTCACATTTCAAATTTATGATTGTTGAAATTTAAGGGAGTTAGGTACGGGAGGAGGAAGAGAAC TTAGAGATTCTGAATAATTTTTCTCTAGTTTATAATGATGTGATGCAAAATACAAAGTACTAACCCTTGTTTATATTAAT ATTCGACTCCTAATTCTAATTAAATAAGGAAACAAATTATGAAATATGGAAACTACTTAGAGTTTATCTAAGATATAGTA AAAATATTCTTAAGATAGAATACTGATATGTGAGATATTTTCTTGATATTCTAGCACTCCCCCTTAGCTAAGGCTTAGCT TTAAGCTTGTTAGAACTTCCAGTTAACAGATGACAGTACATATGATTTTAAAATGCAAAGACCACTTCTTGCGATGAAGG GGAAAAAGTATAGTATGCTAATGGGTTATATTAATTCTTGATTGTGCAATATATCATATCTAATAGGCTATGCTGATGTT CCAACTAGGAGATGGAGGTCCATACTCTAGATCTATCAAAGGTGAATCAAAATCCTGGAATGGTTAAATCTCAGTCAGTG GGAACAATCTCATCGCTGCAAAAGGAAGGTGCTCAGAGGAGACTTCTAATTGATAGGGGTGTTGGATCTCATAAACTTGT AAAATCTTCTAGTTCAATTTCTCTGACTACTGATCGTAGCTTGGATACTGATACAAAGGTTTGTATAAATGATTCCCACT TTTTGTTTCTGAATCAAATTTATTTCCAGTGGACTAATTTATATTGCATCATACTATCAATTGAGGAAGTTTACAAATAG TTTCTTATTCCTCTTTTTTTATTTTATTTTATAGAATTCAATTCCAGCAGCTGCTGGAGCTGTCGCAGCTGCTGCCGTTG CTGATCAGATGCTGGGTCCCAAGGAGGAGAGATATTTGGCAATTGTCATGGTATTATTCTTGCTTGATGAATTTAATTAG AAATGAATTTTTTGTAGCAACTCTCATTATTTTTGAATTAGGCTTTACATTGGAGTTTTGGCTGTAAATTGAGATTCAAA ATGAAGGCATATATCATTATATGTTAGAGTTTGAACGTACCTGACAAAATGCCACTTTTGTAGTTAATTTTAGTCAATTA AAATATTTGACTTTAACTTGTTTCTTTGACTTAGGTGAGTCTGCCAGCTCGAGGTAAAACTTTTACTGCAGCTAAACTTA CAAGATATCTTCGTTGGTTAGGTCATAATACAAAGCACTTCAACGTTGGTAAGGTTGTTCACATTCTTGACAATCTTTCT TTGAAATCAATACTCTTGTACCTAATGGAAGACTAGAAATATGTTAAGCATGAAGTTGACACAGTGACATTTGGTTATTG CAGTATCGTCGGCTTAAGCATGGAGCTAATCAGGTAAACATAATGTAAATGACCCATGGATTATTTTATGATTTTCATTT AACTATGATCTACATTCTATAGAATCACCCCATTCTGAGCTGTTAAGTTTGACATAGTTGATAAATATTTGACTTGGAGA TTTGATTTGACATGTTTTATCACACCATGTAATTTTTTTCTTCACTATTTATTTTGTAATATGTTTTGTGTGTATTCCCA TCTTCGATACTTGGTGTTGGTGTGTGCGATTTTTCCCAACCTGAACCTGATCACTATGGGCACTTGATTCCCTGTCTTTT ATGTTAGGGTTCTTCTTGTGATGATGATATTTCAGTAGACTGTTATGCTTTCTTGTAAAATTTTCAATTTGTCATTCTAC TATGCAGTCTGCTGATTTCTTTCGAGCTGACAATCCTGAAGGCGTGGAGGCACGTAATGAGGTGATTTTGTACCAAAAAA TTTCATTGTTTCTATAGATAATACGAGAGTAATTTTATTGGTTGCATGTACAAATTGGCCATAACTATTTATTCTTAGAT ATAACTTAGAATTATCAAAATGTTGTTTCTAGAATTTAATATCTTAATAAACTCAACAACTATATTTAAGGCATTCCAAT TAACAGAAATTCCTTTTCTTTTTCTTTTTTTGGTTTAGTCACCAATAATTCACTTGTGTGTTAAAATGAATTTGGTTTGT CAATGATTATTTTGGTAATAAATTATTAACACCATGTGGACCTTTCTCCGTGTACACATTTTTAATATGGTGTGTACCCC TAGGTAGCGAAGCTGGCGTTTGAAGATATGATATCTTGGATGCATGAAGGTGGGCAGGTAATTTCATTCCTGTTGGATAA CTTTATTACTTTATGCCTTGTTTCAAGTTTTTTTTGCTTAAGGTTTAATTTGGACTTAGGTTGGAATATTTGATGCCACA AATAGTAGCAAGCAGCGAAGAAATATGTTGATGAAATTGGCTGAAGGAAGATGCAAGGTACTGTAGTTACGGATGGGTAC TGTTTTACATATAATTTGAAAATGATATCTCTAGTTTTGAACTCATCTGATGCATCTTTACAATTTTGTTACAGATTATC TTTTTGGAAACAATATGCAATGATGTAGACATAATTGAAAGGAATATACGTTTTAAAATTCAGCAAAGTCCTGACTATGC AGAAGTGTAATGTTTCCTTTAAAACCAGTGTCATCTTATCTTGATTACTATGTGGATACATATGCAATTAGCTTTTCTTT TGCAGGTCAGATTTTGAGGCTGGGTTACGAGACTTTAAAGATCGTGTAGCCAATTATGAGAAGGTAGGTCTTTCATATGA AACTTTAATGACTGTTCTAGGTAAGATTTTGCTTTCAATAGGGATGGATCCAGTCTACAGGCTATTGCTATGTGTTGTTC TAGGTAAGATTTTACTTGTAAGATTTTGCTTTCAATGGGGGCAATTACTATGTGTTGTTTGTACTATCTGCCTCACAATT TTTTTATTTTCTTAATACTATATGTATTATTTGCCGCCACTACTTATTTATATATATGTGTGTATGTATATTGCCCCCAC GATCTAAAATTTCTGGATATGTATTTGTTGATTTAAAATTACCAGGTTTATGAGACGGTTGAAGAAGGATCTTATATAAA AATGATTGACATGGCCAGTGGACATGGTGGGCAATTACAAGTAAGTTTTACTTTTATGTCACTTTTACGTGTTGAGCATA GCCCTTTACATGGCTAATTCTCTGGTTAGGGAGTATTGAGTTTGATAAGCATGTATTCTAATAGTTAAACTAGATATTCA ACTTTGTGTATGACATTTTTTTACTCACTTAGTATAATTTTATGTAACTACACTACAGTACCCCTCGAGTTATCTTTGTG CCTGCCTTAATTATTTTTGCGTGGTTTACTGAAAGCATAAAATTGTAAGTGTTTGTTTTGCATACCCATATACTTATAGT AGGATGTTCAAATAGTCTTTCTGACAATGTTTAAGCATAAATGATGTTAAAATTATTCCATTTTTTGAAATTTTTTATAT GGAGGCTGCTCAGCCTGCTCTAATAATATGGAATTTGTTGTTTGCTAATATTTGTGCATCTCCTTGACTCTAGCCATTTA GAAATATTGGTCTTTGGCATAACTTAAATTTGTTAATTACTCACAGCTTATTTCTTTTGGTATAGGTGAAGAATATCAGT GGCTACCTACCTGGCCGGGTTGTCTTTTTCTTGGTAAGTTTCTATGAAGAATTTAGTTAATTACAGTCAAAGCTTCCTAT GCACAGAGACAAACAGAACAATTAAGAATTAGTAAAATGTGGCTCAATGAACCGGTGTTGAAAAATGCCATGGACCAACT ATCTTAAAGGTAAAGCCATAAAGTGAGTGGACATGAATGATTTTATATCTCTTAGGCAACAATCTTATGCAAGAGCCATG TGTTTGAAGTGTAGACCATGCTTAGGCTCACCTACATACATTAGGTTGAAATTAAACTTTTGTTTTTGTAAAAAATAAGG CTTTTGAAGGTAAGTATTGACTTTTTGGTTGTAAAGGCTCTAATACCATTTCATTGGCCAAATAATCCAAAAGTTTAAAC CATCAGTTAAAGGCACATCAATAATATTTATATCTCAAACAAGAAAATTAGTGGCAGTTAATTGTCTCTTTAATCTTTTA CCTTTTGTAGATAGATATGTTCCATATGTAAAGTTGTGTTAGGAAGCCTAACACAACCCAACCTATTTCCATCGCTACCT ATTAGCCTATAATAATCCTGATGGCCTGGTCCTAGATTGGGTTTGCGTTAGCATATTTTTAGCCCATCAGCCTATAAGTT TGTTGGCATGTTTAGTATTTACATATCGTTTTGTTGGCCTACTTAAAGGTCTTAATATGAAACAAGCCTTTAAATGGGCT ACCAAGCCAAGCTTAAAAAAAGCATGAGGTAATAATAGGCCGAACTTGGGCCTTAAATTTTTTAATTAGGTTAGACCTAT TTATGCAAAGCCTAGCCTGACCCCCTATTTCTGCCCCTACGGATATACATCAAAGACCCCAATGTGTGACTTTAACAGAG TGGGTTTCCATCTCTTTCCTTACATTACCATGCCTAACCCGAGAATACTATAACTTAGCTCACATGATGATGAAGAATGC GAATGGCTTACAGTTCCATCACAATCTCAAAAGGGTGCTTGGGATTGAGAGAAAGACAGAGTAAGATGGAAAATTGAATT AGTGCTTTCTTGAACAAGAAGCATTTTTTAAACAAGGTCTTTTTTGCTTTCTTTGTTTTTTATTTTAACAAACTCTCAGT TCATGGAATGAAATATATTAAAGCTCTGTAATTAGTCTTATGGAAAGGGTGCAGAACTTCTTGGAAGCAGAAGCTTAAGG AACCCTTTACAAGTCCAATGATTCAGTTACTTTTTGGTTATTTCTTCAGGGAGCCATATGCGGCAAGAAGTAAACTTCAG CCGTGACAATGTTTTAAACTTTAAACCCCATAAGCAAGTTTTGTCAGTGAATTTTATGGAGTTTGACAGTAAAAAAGTGA TGACATTTCAAAACATAAAAACCAATTAAAATAAATTAAACTTAAGCTACAACAATGAAATTTGAAAATAAGTTAAGTTA CGAAAGTGTATTGATGCTTAACTTCCCAAGATAATGATTTTTGTAAGAAGATTGATGACATGCATACAGGATTCAGCAAT TTCTACCTATCACATCACTTTTAAGTTTCTTATGAATGACTTTTTAATTTTTTGCAGCTTAATACACATCTTACACCACG CCCAATATTACTCACTCGGCATGGAGAAAGTCAGGATAACGTGAGAGGCAGAATTGGAGGAGATCCTGCATTAAGGTATA TTCTCATATATGGCTTCTGTCTGATCAATGTGATCTTAAAAGTTGATAAGAGCACGGGCTGACAGAAAGGTTATAGTGTG AATGAAAAGGAACTTCTTGTTGGTTTTCTTAAAAAAAGAAGTTGTAGGATATTTTAATTATTATGGTGCTAGGAGTCTTA TTATGTTAAACATGCTTGTGCTTTTGGTCTGCACCAAAGGTATCTCTTGGCTGACAGCCAGAAACTAATCCCTTTTCAGG TGTAGAGAACACCGAAGTGAGTTTTGCTTGTCCTTGACCTAAAATACTAGTTTATATAGGAGTCTTAGAGTCTTGGGTCC ATTTTCTTCAACAGCATCACGATTATTCAGAGTCATATTTGTTAATATACCTTCCTTTCTCCTTTTTTGTTAAATCCCAA AAATCATGACGGCTACCTTTAGGGTTCCCTTTTTTTACTTCCTACCATCACCTTTAGAAATATTCATTTGGTGGCTTTTC TAGGAAGCCAAAACTTGGATATATTATAGCTTATTTGTCACTGGTGGGATAGATTGTCTTAAAAGATAACCCCAATTGTT CTTGGTGACTTCCTTTTAGTATTTTCAAAAGCCGAGCCATGATATTTTTATCTCAGTGTAACTGCCATGCCTTCCAAATA CCTTAGGAGCTCATCCTGTAGAGCCATGGCAATAGGAAGTCAACGAGCCTGACTCAACCATTTTATTGGTTTGAATGTTA TAGCGTTTTGGGAAGCCCAAGCTATATTGAAGTTATTTTTCTTCAGTTTCTTGCTAGTTTATATTGCTTGTTCCCAACTT CGCTGATTTTGGATTATTGTATAGAGGGGCTTTCTTGCCTTCTCTTTCGCATGAAGAAGATATACATCTAGTCCTTTTAA AAACATGGTTCTACTAGTGTTCTAAGGACTACTGTATCATCTATTGTCTAAGACTAGTTAGTGTATTAACATTTAACAAA GACCTTGTTTAAGACTAGTTAGTGGATTCTTTGATTATTTAAGACTGTTTAAAAGCAGTCTGGTCTTGTTAACTTGTGAA GACTAATTCATGATTTTTTTCCTGCTGCCCTGGAATATCTTTTATGGTCTTTTAGACAAATGCTTAAGAAATAACAGCTT TTATGTTGCTAGATGTTACTTTATTCTTTCATCTTGCTAGGGGTTTCTGTTTATACTACTATCTTTGCTGAGTAGAAAAA TAAGGCAAGCAGCTCCTTGATGTAGGGCTTAATTGAAAAATACATTTTCTTGCAAACCGAAATGATGGAATAGTTCTAGA CTTCTAGTTCCTGTATCTTTGAATTATTTCTTTGCTCTATTTTTCAACATGATATCTGGTTTCTTTAGCATTTGCTTTGA GCTCTTACCTGACTAACCACTGTGTAATTTGTTTTGACAGTGAAACTGGAGAACTTTATAAAAAGAAGCTTGCCAAATTT GTTGAAAAGCGTCTCAAATCAGAAAGAGCTGCTTCTGTAAGCATTTATGTTTAGGCCTGATCTAGTATCAATGACAGTTA TAAAGATTATACATCACTTAATCAATGAGGAAAAGTGTTAGTTATATGTATGTTAGTGATTGACAGCGTTTTGTTGGAAC TTTTTCTGATTTGGGTCGAGTATTATATTGGGAAGAGGGTGGGGGTTGGGGAATGATATATTGTGTACGCTCATTGAAGT GAGAGGTATAACTGTATAAGTTATGTTATTAGTTTGATGCTGAATGAGTTCTCTGATCTAGTATCAACTAATTGCATGTA TGAAAGTACATGCCAAATCAATTTGATGTTGAGATGATGAATGGCTTGTGATGTTTGTAATCGGTGTCTAGATATGGACT AGTACGCTGCAGCGAACAATTCTGACGGCAGGCCCTATTGTTGGATTTCCCAAGGTTAGTGTTATCCTCAAGTCAGGAGA CATGGATAGACAAAATTACACATTAATGGTGTTTCTGCTCTTACTATCTATATATGTTAGATACAATGGCGTGCCCTTGA TGAGATAAATGCTGGGGTGTGTGATGGGATGACATATGAAGAAATCAAGAAGAACATGCCAGAGGAGTATGAGTATGTTG CCAACTTCTAATTTGCCTAATCTCTCTAATTTGCAAGTTAACTGCTATATCGGATTCATAGGATGTTTGGATCAACTTGT TTTTCCTCGAAATCAATTCAAACTGCTTATAGAAGCTTTATCCCATGAATTTTGGCTTTAGAATCAATTGTAGAAGGATT TACAAACATGCACTAAAAGTGAGTGTGTGATGGAGCACAATGCTGTTTAAAATTGTGTTAGTGCATAGTGCCTACATTTA TTTTAATTTACGTTTTGTTTTCTATATTGCAGATCCCGCAAAAAAGACAAGCTGAGGTATCGGTATCCTCGTGGGGAGTC TTACTTGGATGTTATTCAGAGGTTGATACATTGCATCTTTTACATTATTAACCTCCTACTAACTACTACTTGTTTAGTAA AATTAACTTCAGTTTTAACAATAATGCAGGTTAGAGCCTGTAATTATTGAGCTTGAGCGACAAAGAGGACCGGTTGTTGT GATATCTCACCAGGTTTTACAAATGAAGTTAAAGTAAACTTACATTTATATAGGCCCTATGGTTGACTGGTTTTAATCCT TGAGGTTCTTCAATGCTTTTCTCATTGCAGGCAGTTTTGAGGGCATTATATGCTTATTTTACTGATAGACCTTTGAAAGA AATTCCACATATGGAGGTAATATATGGATTCATAATCATATTTAGGCCTCGTTTGGGAAAACAACTTAATTAAACACTTG TGGTCATAAGCGCTTATGACATAAGCACTTATTCATAAGCTATTTTAAATAATTGATTGAAATAAATTGAAAATAAGCTA TATATAAGCATAAGCTCTTTTTTCATAAGCTATCCTGAATAGCTTATGAAAATAAGCTCAAAACAGCTTATGGCCTACCA TAAGCTGTTTGCATAAGCTCTGCCAAACACTGGCATAAGTGCTTATGCTATCAAATAGGCTAAAATAAGCTCTTCCAAAC GGGGCCTTAGTTTAATGTGATGTTCATACTCATGTGGAAGACGGGGTTAATGCAAAAGCCTGATTGAGTTCATGACTATT TAAGAAATGAATTTTGGGTATTTTGGTGTTAGAAAATTTCTTTCAGGTGTACCATCTCCTTTGGATTGAAATCTCTTGCC TCGAAAGTGTGACTCATTCAGTGTCACCAATAAAATTTTAACGAGTACCATATAAGTTTGTAATTGCCCCACTCATCTTT TTTATCCATGACTAGATTTTATTGGTGGGACCGGAAATTAAAACATCATTTTGGGGACAGAAGATCTTAATACCTCATTT TGAGGAACTTATGAATCATGAATTTGCTTAAAATGTTTACTTATTGCTCATTTGCAGGTGCCCCTTCATACCATAATAGA GATACACTTGGGAGTTACAGGTGTACAGGAGAAAAGATACAAGCTAATGGACTGAAATGACATAGGTGGGGAAAGAAAGA GAAGTGAAATTTCTCATTGTTTTCTTTTCTTTTCTTTTGCAAATGAGGAGGAAAAATGATGAATTATCATGTAAATTGTA ATCCTCCAAAACCACTATTCATTTTCATGAAGCATTCTTTCGTTTCCAACTTGAAGAATTTTCAACATTGAAACAAAAGA GTATACAATTTACTACTTAACTCCTACCTTTTCAGTTTTGCACCAAAACATATCCTAGGTGTTTGGTTAAATTTTGCAAA TCCACTGCAAAGTTGACATATAGTAACATCACAAGTACAAGAATTTAATGAAGAAACAGGTCTTGACCAAACATCTCGTG CTCAAAATATGAAAAAGAAAAAAGGTACTGACCTAAAAGATCGCTAGTAGCAGGCTGCAGATCTTAGCATTTGCAGATCA ACTAAATGCTAAAGAAAAACACACAATTTTCCACTTTCCATGTAGATTTCTATATTAGTGGCACTTCTCATGGAAGGCTA TGAACAAGCATTTAAATTATAGGCTTAAATAAGTATTTGGTCCCTATCATTTACCCCTGTTTTGGTTTTGGTCCTTGATC GGCGTAAATATGGACAATCGTCCCTAACCTTTGGGTAAAGGGTTGGTTGTAGTCCCTCAACCATTTTGGG
CDS sequence (LotjaGi1g1v0117500.1) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGGCGACAAGTGGTGGTGGTAACGAAGAAGAACAACGAGAAGGCCTTCTCCAAACGCCGCTACAAATCCCTGAATTGCT CTTCGTTTCGCTGAAAATGGAGAACCCCAAGACCCTTTTCCCTCACGTTTGTGGCTCCCTCCCATTGCTTGGTGCTTCAT GGGATCCTTCCAAAGCTCTTTCTATGGTAAGGGAATCGGCGTCAATGTGGGAATTGAGCTTTGTTGTTCCACCAAATCAT GAAGCTTTAGATTTCAAATTCCTCTTAAAGCCCAAGGATATCAATACACCTTGTTTGGTTGAGGAGGGTCCAAGTCGCTT ACTCATTGGGGGAGCATTGCAGGATGGAGCCAGGCTTGCTTTGTTTAAGTTTGATAATGATCAGGTTGTTGAGTATCAAG TGTTTGTTGAAGCGAGCAGGGTTTCTCCCTTTGACCTTGCAGCTAGTTGGAGGGCGTATCAGGACCATTTCCATATTTCG CCTGTACGCGGGATACCTGATGTTAGCATAAATTCAGAACCTCAGACAAGTGGCGAGAATGTCTCTTGTGTGAGTTTGGA ACTTGATCTTGAGCATTATGTTGTCCCAGCTCCCTCAACTTCTGCAAATGCAAATCCTGTATATGCTGCTAACTTGACAG AGAATCCCAGATCACCTAGTAATGGGTCAGCCAGCAATTCAAACTCCCCCAGAGATGGCGATGTTTCTATTGATCAACCT GCAAGAGAGATGGAGGTCCATACTCTAGATCTATCAAAGGTGAATCAAAATCCTGGAATGGTTAAATCTCAGTCAGTGGG AACAATCTCATCGCTGCAAAAGGAAGGTGCTCAGAGGAGACTTCTAATTGATAGGGGTGTTGGATCTCATAAACTTGTAA AATCTTCTAGTTCAATTTCTCTGACTACTGATCGTAGCTTGGATACTGATACAAAGAATTCAATTCCAGCAGCTGCTGGA GCTGTCGCAGCTGCTGCCGTTGCTGATCAGATGCTGGGTCCCAAGGAGGAGAGATATTTGGCAATTGTCATGGTGAGTCT GCCAGCTCGAGGTAAAACTTTTACTGCAGCTAAACTTACAAGATATCTTCGTTGGTTAGGTCATAATACAAAGCACTTCA ACGTTGGTAAGTATCGTCGGCTTAAGCATGGAGCTAATCAGTCTGCTGATTTCTTTCGAGCTGACAATCCTGAAGGCGTG GAGGCACGTAATGAGGTAGCGAAGCTGGCGTTTGAAGATATGATATCTTGGATGCATGAAGGTGGGCAGGTTGGAATATT TGATGCCACAAATAGTAGCAAGCAGCGAAGAAATATGTTGATGAAATTGGCTGAAGGAAGATGCAAGATTATCTTTTTGG AAACAATATGCAATGATGTAGACATAATTGAAAGGAATATACGTTTTAAAATTCAGCAAAGTCCTGACTATGCAGAAGTG TCAGATTTTGAGGCTGGGTTACGAGACTTTAAAGATCGTGTAGCCAATTATGAGAAGGTTTATGAGACGGTTGAAGAAGG ATCTTATATAAAAATGATTGACATGGCCAGTGGACATGGTGGGCAATTACAAGTGAAGAATATCAGTGGCTACCTACCTG GCCGGGTTGTCTTTTTCTTGCTTAATACACATCTTACACCACGCCCAATATTACTCACTCGGCATGGAGAAAGTCAGGAT AACGTGAGAGGCAGAATTGGAGGAGATCCTGCATTAAGTGAAACTGGAGAACTTTATAAAAAGAAGCTTGCCAAATTTGT TGAAAAGCGTCTCAAATCAGAAAGAGCTGCTTCTATATGGACTAGTACGCTGCAGCGAACAATTCTGACGGCAGGCCCTA TTGTTGGATTTCCCAAGATACAATGGCGTGCCCTTGATGAGATAAATGCTGGGGTGTGTGATGGGATGACATATGAAGAA ATCAAGAAGAACATGCCAGAGGAGTATGAATCCCGCAAAAAAGACAAGCTGAGGTATCGGTATCCTCGTGGGGAGTCTTA CTTGGATGTTATTCAGAGGTTAGAGCCTGTAATTATTGAGCTTGAGCGACAAAGAGGACCGGTTGTTGTGATATCTCACC AGGCAGTTTTGAGGGCATTATATGCTTATTTTACTGATAGACCTTTGAAAGAAATTCCACATATGGAGGTGCCCCTTCAT ACCATAATAGAGATACACTTGGGAGTTACAGGTGTACAGGAGAAAAGATACAAGCTAATGGACTGA
Protein sequence (LotjaGi1g1v0117500.1) extracted from Lotus japonicus Gifu v1.2 Proteins.
MATSGGGNEEEQREGLLQTPLQIPELLFVSLKMENPKTLFPHVCGSLPLLGASWDPSKALSMVRESASMWELSFVVPPNH EALDFKFLLKPKDINTPCLVEEGPSRLLIGGALQDGARLALFKFDNDQVVEYQVFVEASRVSPFDLAASWRAYQDHFHIS PVRGIPDVSINSEPQTSGENVSCVSLELDLEHYVVPAPSTSANANPVYAANLTENPRSPSNGSASNSNSPRDGDVSIDQP AREMEVHTLDLSKVNQNPGMVKSQSVGTISSLQKEGAQRRLLIDRGVGSHKLVKSSSSISLTTDRSLDTDTKNSIPAAAG AVAAAAVADQMLGPKEERYLAIVMVSLPARGKTFTAAKLTRYLRWLGHNTKHFNVGKYRRLKHGANQSADFFRADNPEGV EARNEVAKLAFEDMISWMHEGGQVGIFDATNSSKQRRNMLMKLAEGRCKIIFLETICNDVDIIERNIRFKIQQSPDYAEV SDFEAGLRDFKDRVANYEKVYETVEEGSYIKMIDMASGHGGQLQVKNISGYLPGRVVFFLLNTHLTPRPILLTRHGESQD NVRGRIGGDPALSETGELYKKKLAKFVEKRLKSERAASIWTSTLQRTILTAGPIVGFPKIQWRALDEINAGVCDGMTYEE IKKNMPEEYESRKKDKLRYRYPRGESYLDVIQRLEPVIIELERQRGPVVVISHQAVLRALYAYFTDRPLKEIPHMEVPLH TIIEIHLGVTGVQEKRYKLMD
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 |
|---|---|---|---|---|---|---|
| PANTHER | 7 | 741 | 735 | 0.0 | ||
| PANTHER | 7 | 741 | 735 | 0.0 | – | |
| ProSiteProfiles | 21 | 126 | 106 | 13.827 | ||
| SMART | 27 | 115 | 89 | 3.4E-7 | ||
| PIRSF | 28 | 741 | 714 | 9.2E-223 | – | |
| SUPERFAMILY | 34 | 111 | 78 | 3.36E-11 | ||
| MobiDBLite | 211 | 236 | 26 | - | – | |
| MobiDBLite | 211 | 234 | 24 | - | – | |
| Pfam | 333 | 547 | 215 | 8.4E-77 | ||
| Gene3D | 339 | 545 | 207 | 3.0E-76 | – | |
| SUPERFAMILY | 342 | 548 | 207 | 7.66E-28 | ||
| PRINTS | 424 | 438 | 15 | 9.6E-31 | ||
| PRINTS | 449 | 463 | 15 | 9.6E-31 | ||
| PRINTS | 528 | 549 | 22 | 9.6E-31 | ||
| Gene3D | 546 | 741 | 196 | 4.4E-60 | ||
| SMART | 549 | 700 | 152 | 5.3E-15 | ||
| Pfam | 550 | 728 | 179 | 1.4E-37 | ||
| CDD | 550 | 727 | 178 | 1.1504E-23 | ||
| SUPERFAMILY | 550 | 738 | 189 | 2.14E-49 | ||
| PRINTS | 550 | 572 | 23 | 9.6E-31 | ||
| ProSitePatterns | 552 | 561 | 10 | - | ||
| PRINTS | 630 | 646 | 17 | 9.6E-31 |
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 | 6-phosphofructo-2-kinase activity | Catalysis of the reaction: beta-D-fructose 6-phosphate + ATP = beta-D-fructose 2,6-bisphosphate + ADP + 2 H(+). | ||
| Molecular function | ATP binding | Interacting selectively and non-covalently with ATP, adenosine 5'-triphosphate, a universally important coenzyme and enzyme regulator. | ||
| Biological process | Fructose metabolic process | The chemical reactions and pathways involving fructose, the ketohexose arabino-2-hexulose. Fructose exists in a open chain form or as a ring compound. D-fructose is the sweetest of the sugars and is found free in a large number of fruits and honey. | ||
| Biological process | Fructose 2,6-bisphosphate metabolic process | The chemical reactions and pathways involving fructose 2,6-bisphosphate. The D enantiomer is an important regulator of the glycolytic and gluconeogenic pathways. It inhibits fructose 1,6-bisphosphatase and activates phosphofructokinase. | ||
| Molecular function | Carbohydrate binding | Interacting selectively and non-covalently with any carbohydrate, which includes monosaccharides, oligosaccharides and polysaccharides as well as substances derived from monosaccharides by reduction of the carbonyl group (alditols), by oxidation of one or more hydroxy groups to afford the corresponding aldehydes, ketones, or carboxylic acids, or by replacement of one or more hydroxy group(s) by a hydrogen atom. Cyclitols are generally not regarded as carbohydrates. | ||
| Molecular function | Starch binding | Interacting selectively and non-covalently with starch. |
Expression pattern of LotjaGi1g1v0117500.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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