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| Field | Value |
|---|---|
| Gene ID | LotjaGi3g1v0303900 |
| Transcript ID | LotjaGi3g1v0303900.2 |
| Related isoforms 1 | |
| Lotus japonicus genome version | Gifu v1.2 |
| Description | Trehalose-6-phosphate synthase; TAIR: AT1G78580.1 trehalose-6-phosphate synthase; Swiss-Prot: sp|Q9SYM4|TPS1_ARATH Alpha,alpha-trehalose-phosphate synthase [UDP]-forming] 1; TrEMBL-Plants: tr|A0A1J7GDK0|A0A1J7GDK0_LUPAN Uncharacterized protein; Found in the gene: LotjaGi3g1v0303900 |
| Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr3:63594926..63608532) extracted from Lotus japonicus Gifu genome v1.2.
TGTGCCTTATAATGCTCACACCCTGTTTTCGCCTGATTCCTCTCTGTTCTTTTTTCACTCACTTTGTTGATTCCTCCCCA TTCAGATTTTGCAGATTTCCACTCTCTACATCATACCCTCTTCATCTGACTTTAACCCTCTCGCTCTCACCCGAATAATG TTTCATTCACACCCCAGATACACTCTACTTTGTGAGATATGAAAGAAATAATTGAGAAATGAGAGATAGATGATAGATGA TGTGATATGAATAGTAGAAATATACAAGAAAAAATGTGTAGAAATGAGAGAAAGAGAAATATGAGTGTGAATGAATCGAT ACTCCTCTTACCCCAATCCAGCTGGAGATAGACTAATTGAACCAGACATTTCTTTAGCATCCGCTGATTTTATAGGTGTT GCCTGGGCTGGCCTTTTAACCTTTTCCTGTAATTTTCACTACTCTATGACTTGGTTAACTCTTTGCATCAGATGGGCAGT CCTCCTTTTGTGCAATGTATTTGGTTTTCTCTTTAATCAGAGTAGGTTTTTGATTCCCTCAGCTGTTCTCATTCTTCTGT TTTGTTTGTTTTCCATAAATGTACAACCCCAGCGATGAGGATGATTCCACTTTCATATAAGAGCTTTCGATGTGGAATTT CCAACTCATTTGTTGACCCCCTTTCTGTTGCCTTTTGTAATTTTGTGGATACTGTTTTCTCCTTGTTTCTATTTCATCTC AATTTTCATATTAAAAAATTTCTACTTTCCAGTGGAAAACCAGTGTACTTTAGATGCTTCACTTTTTCTAATACTGCTGT TATAGTCCTTTTTATTTTAAGCTGAATCGGGGTGTTTTGTAATTTCTTTCTTGTATTTTTGGCAAACGAAATGCAGGGAA GGAAGATTGCTTATTTGCGCCATTGATATTCAAATTTCAACAGACAATGGTTGGATTCCACAGTGACCATATACATGGGA ACAAGTATAACGGTAATGATAACAAATTTTCGCCGGGTCGTGTTGAACGGCTTGTGAGAGGAAGAGAGCGAAGAAGAAGC ACCAGGGAATCTAATTTGAATGATTCTCCTGATAGAATTAATAATAATCATGTGGCTACTGAATCTTTTGAGCATGAACC GCGCTTGAGAGAAGATACTAACGGCTCCTATGTTGAACGATTCCTGGAAGGGGCTGCAGCAGCAAGGGCACTTCCTCTTA GTAATGGATGCAAAACCGAGGATGGGAAGCCTTTCAAACAACGCCTGTTAGTGGTTGCCAATAGGTTGCCAGTCTCAGCA GTTAGGAAAGGTGAGGATTCATGGTCTTTGGAGATAAGTGCTGGTGGCCTCGTAAGCGCTCTTTTAGGTACGTGGTGATT TATCATTTTTCAGTCTGTGTTGTATATGCTCTAAAATTTGCACGTGATTTGTTACATTTTAGAAATTCTGTTCCAAATTA AGTTAGTTACATTTTGAAACGAACTTGGTCCTCTACTTTATGATGAATTAGCTAACACGACTGGATTCTTTTAAAAAAGG TGTGAAGGAGTTTGAGGCGCGGTGGATAGGTTGGGCTGGTGTCAATGTGCCAGACGACATTGGACAGAAGGCTCTTACAA AGGCATTGGCTGAAAAGGTACTATAGTGTCTCCATCACCCTGAAATAACTTTTGCATCTATGAGTGTCCTGTTTCATCCG CAGGTTTTACTATTTTGATTTTTAATCTTTTTCTTGCTTGTTACTTGCGAGTTGCGATGTAGAGGTGTATCCCAGTATTT CTTGATGAAGAGATCGTTCATCAATACTACAATGGCTATTGCAATAACATTTTGTGGCCCCTTTTTCATTACCTTGGACT TCCACAAGAAGATCGCCTTGCTACAACACGTACTTTCCAGTCTCAGTTTGAAGCATACCAGAAAGCAAATCAAATGTTTG CTGATGTTGTGACTAAACACTACAAAGAGGGCGATGTTGTTTGGTGCCATGATTACCATCTTATGTTTCTTCCACAATGC TTAAAGAATTATAACAGTAAAATGAAAGTTGGCTGGTTTCTCCATACCCCATTTCCATCTTCTGAAATTCACAGGACACT GCCATCTCGTTCCGAACTCCTGCATGCTGTTCTTGCAGCTGATTTGGTTGGGTAAGTTGCCATGTGGTCTTCATTTCGGA ATAATATTTTTTACTCATCTAATTTTATGATGTACGTTTCTTAGTTAGGGAATATGTTTGATCCAGTCATGTTGATTTCA TAATACAATGGTTTCGTGTGAACTCTTGATTATTTGGGAGTGGGAAATTGAGTGTTGTAAATGGAGTATGGCAGAAAGCA AAAACACAGGCCATATTTGACAAATACTGATGGTGTATGAAGGATTATGGTAGAATATTGGCCATGGTGGCTTGCTAGAA TTCCGCCATGTGATTTGGCCATGGCGTTGCTGATATTTGACAACACTGCTTGAACCAATGCTTATTTATTAAGTGTGGAT TTTTAGCAGTGATGCATTTCTTTGGGACAAGCTGTGTATCTTTAGCAGTGATGCATTTCTTTGGCACTAGTTGAGTATAT GAAGCCATCTGACCTGAGTGCTACTTTTGGGGAAAAAACTACACAGCTTAACATTGGAGAACATGATCGAAATTACTCTT TCTATCAAAAGTTCCGGAATCTGAGTTAAAGCTGTATTAAGAGGATGAGTAAGAGACAATAGTTGAACCAAATAATATAC TTATTGTGGTATGGAAGGAGCTAGGACAGAAAGACGAGATGGCTCACAAAATTGCTCAACAATATTATAAGATCTATGAC CATTGCAAATGAATGGAAGAGAAGTGCTCTAATATATATATATTTAAGAACAAAAATTTCATGCAAAACTATGGAAATTT CAGGTGGATTATGTTCACCTGTCATATTATGAAACTTTGGGAGAGAGTACTTACTACTTAGCAGTGATTAAGCCCAGAGA CCCACATCACTAAAAGTCAAATTGGTTTTAGTTTGGGACTCTATCTTTTTCTTAGGTTGTAAACTATGTGATTTCCCTTT ATAGTCGATTTCTTCTTTTTACCCATTGCTTCTGACTTGGATAAGTGTAATTTTTGTTGAGCAGTTTCCACACCTATGAT TATGCACGACATTTTGTCAGTGCATGCACTCGCATTCTTGGACTTGAGGGCACACCTGAAGGGGTTGAGGATCAAGGGAA GCTCACTCGAGTTACTGCAGTGCGTACTCACAATTTTTGTCAATATCATGCTTCATACTTAACATTACAACATTATTGAA AATTTTAAAACAAGCTTTTCCTAAAACGTCTCAAATGAAACTGTTCTTGTTTAGCTTTAACCAATTAACATGATGGGCTC AAAGTTAGAATTTAGAACTACTTATTTATTTGTTTTGCCCGTGGGTGGCAGTTTCCAATTGGTATAGATTCGGAACGATT CAGAGGTGCACTTGACCTTCCTGAAGTTCAGGGTCACATCAAAGAATTTCAAGAAAGATTTAAAGGAAGAAAGGTGCATC CTTTACTTTGTATTTAACTTTTTATTTTTTTAATATAATGCATTGTGCATGTGTGTCCTATTTTCAGATTGTCTTGGATT TATAATATTCTTTTTATCATTCATGACATATTTATGGCAATTTCGGATAAGTTAAACACTATTAAGGGTTATAGACTTAT AGATAGTAAATTGGGTGCTGTTTACACTTGAGAGAATTGGTATCCTTGGAACAAATCAGATTTATAGAAAGGGAAGGGAA AAATGCTTCAAGAATTCAAGATACATCTGTTGCTGGTTAGAAGCCACAAAGAATCATCATTCTATCATCTATCGTCTCAT ATAATCATGGGAAAATATAACATGACCTCATAATCCTTGCTATATATAACATGAAACTACACTACTATGCCACAATTAGT CATCATTGTTTGAGTATGATGCTGCATTCTTTAACTTTTAAGTTACTACTTACTAGATAGACTTTGTTCAATTTCTTTTG GAGGTCAATTTCTGAAATGTGTAGGCTCTACAGTTTTAAACTTATTGGTTAATATATGATGTAAAATAATTCATATGTCT TCAGCTAATAGCTTAGGTTTTCTGTATAGTTGGTTCATGACATGTTTAAGAGTTCGATTCTTGCTACCCTCATTGTTCTA ATGAAGAACTGAATGTCCTCACAAGGTAAGTGGGCTTGTGAAATGTCCATGCTCTAAGAACAAATAGTTCTTGCACGAGG GGAAGTGTTACATATAGAACCATTCATGTGTCTTCGCCCCAAAGGCTTAGCTTTTGAGATATTTGATTCATGAAAGTTGT TTTATGCGACTTTTACCTTTTATTGATATGTGTGTGTCTGTGTGAGGTTGGATACATGCAATCATACCATTATGCTTTAT CAAAAATCAAATTTTCTAAAAAAAATTATTTAGGAGTAAAGCATAACAAACTTATCTTTCTTGTACCTTTCCCTTTTCTC AAAAATAAAATGTCATTTAGTATTAGATGAAGAGGGTTGAAGGTGTCTACAAGTAACCTTTATCATTTTTTATGAGATCC TTCTGCCACTTTGCCTCTGTAGAAAGCTATCAATCTGTGGCAACTATTTGCCATGTTGTCACTGTGATATTAGTAACGAT TTTTCATTTTAATGATAAAAATTTATGTTGAGCTCTTCTAGTAAGTGGGCATTTATCTAGAAGTGATGTTGTTATGAATA TGCTTTCACTATAGAAGTTTTCTTGTTTGGCATGAGATGTAATGATGTTCTTTCCTTCCTCTATTTTAATTCAGTTTGAC CATTTGACTATCACTTAACATTTTTCTTGTTTGACAGATTATGTTAGGTGTTGATCGCCTTGATATGATTAAAGGAATCC CTCAAAAACTTCTTGCATTTGAAAAGTTTTTGGAAGAGAATGAATATTGGCGTGATAAAGTAGTTCTGCTTCAAATTGCT GTGCCAACAAGAACAGATGTTCCTGAATGTATGATACTTATTGCATTTTTTCGTGTTCTATCTTCAATGTAGTAGGTTAC AAGATAGTCTTATCTCTTCAAATGTTTTTCCTGCGGTTTTAACAAGTGAATAATTAGGTTTCTTTTATATTCAAAGCAGA TTTAATACTTTTGGTTCCTTTGTTGTTTGTATTGTACTCTGATATTTGATAAAAAGAAAGCCTTCTCAACCATAAAATGG AAAAGAGAAGTAAAAAGAAACATATTATTTCTGAGATCTCTTGTATACTAAAATAGTATGTATGGAGATATTTGATTGTA TTTGAAATTCACTTTTGAAGGTTATCATTAGTAAGATTTTCTAACTATAAAATGTTTGCATGAATATAATGTTATATCTT CAACAACTTTTATGAGGGGCATATACTATATTCTTGTTTTTCTTGCATATTTACAGATCAAAAACTTACAAGCCAGGTTC ATGAAATTGTTGGTCGCATCAATGGCAGATTTGGAACACTGACTGCTGTTCCAATACATCACCTGGTACGTTATTGAGAC AGTTCTCATCTGATGATCACTATATTAATGCTGATACATCATCTCACTACACATTAATTTATTAGTTTTTTTTCCTAAAT CCTTCATAATTCGTATTATGTTGTATTGTCTTGGTTACTATAATCTTAACCATGCCTTTGCATCTTAGGAGAATAGTATC TGTTCAGATTTGAATATGGTACACTTTTGAAGTTTAAACTTCTGTGTTGTACAATTTTCGGCTGCAAACCATGATAAATT GATCCAAATGATTAACAATCACTACTAGCAACAGGGCCAGTTGCAAAGTTGTTTTTTTTCTTCTCTTTATTGAAACAAAT TGGACATCATTTAAATTAAGATATTCTTCTTGTATACCTGACATTGTTGATAGCTGAAGTTCACAATGACCAACAGAGTT TTACTCATAGTTAAGGTGATAGGAACTCAAGGTTAGTTAGTTAGTTAGTTAGTTAGTTATACTTAGTGAGTTAGTTAGAA TGTTATTGAGGCATGTAGCCTATAAATAACAGACATTAGAGAGTTAGGGGTATCTTGGTATTCAGTTAGGAATTGGATTT AGAGAGAGAAGTGGTTCTCTTTCTAGGGTTAGAGGGGGTGTTTGGCATCTCTCTCATGTATCTTTCCCCTAATCCCCAAT TGGGAATTAGGGTTTTCTATCAATAAAATCAGGGTTCTATCATAAGGATGTAAATGAGTCATTGTAAGTGAGGCACTTGC TCAAGCTTGGCTTGTGAAAACGAGATGTTATTCAAGCTTGACGACTTTAAACTAGCCAAACTTAAAGCTTAGGGCGACTT GTCCAAAAATATGAAAATTGAATTTTTCATATTTAACGTGTTTTTAGTTTTTGTTTGTTTCCCTTTATCAAACATCTACT TGACCTTGTTATAATATTACCACACATCTTTATGCTAGACTTGAAAATAAAGTAAAAATGCGTAGAGGGTAAAAGAATCT TTAAACATTAGGGTTAAATAGTTTGAACTTAGTAATAACTAAGTTTAAGATTACAATGACCTAGATAGAATTACAATTTG CTAGCTAATTGCAATATATGAATTCACATCTAAACATACTCACTGACACACAGAGAAGGGGGGAGAGAGAGAGAGAGAGA GAGTGCTTTTAATTTTAAGCATATAAAGCTTGAACTTGACCCGGTTAGGTAATGAGTTTCAAATCGAATTTATGGTTGTT TGTTTAGTCAACAGACAAGTTCAGATGAGCTTTTAACGATTAGAGCTCTAATAGCTACACTACTACTAATGTTAGCTATG AGCTGTTAACGTTAAATAGGACAAAATATCATCTGTAAAACACACTTAACATTTTTATATGCTTATTCTGGTGATTTATT TGTAATACTAATTGAGTTAAATGAATTTGCTATCTCTGCAGGACCGCTCTCTTGAATTTCATAAACTATGTGCTTTGTAT GCTGTTACGGGTACAATTTATTTTCTGAGATTTTTTCTCTTTGACTAAGCTATCCTGTAATTAGCTTATGATGTCATTTT CCCATTTACCAGTAGTCAGTATGTGCAAAAATAACTTCTTCAGAATAACTTCTTGTGTCAAATTGAGTTATTTGATGTGA TGTATAACCTAGGGCTTTGTAATGCATACTTATCTAAAATGGAAATTACGTTTTTCAATGTACTTTTGGACATGATTATT ATAATCATTTATAATCCAAAACTTTTTTTTCATTGCAAATGTTATTTACATTTTCTATTTCTTTTTCCCTACATGAATTA ATTTATCTGGCACACCAATGGCCTTTTAAGTTGTGAGAAACTGCATTGAAATGTTTTGCTTTTTAAACGGTTGCTTTAAA ATACCTATACTATGGCTTGTATATATGTTACCTCACGGTTTTAAAATTTGGTTTCCTATGTAAACATCTATAATACTCAA CATGCCTTGATCATGTTGAATAATTTTCATTTTTAGTTAATGCAATCTTTGCCGAGTTGTGTTATTTTTCTCTTGACTTA CAGATGCATATTGATGGTAACCAGTATCTTTATTTCTCAACATAAGGAAATCTCTTAATTACAGATACATGTCGTTGAAC TTTTCTTGACCCCATTTCCAAATCGAAACCAAACCTCTTCGTTTCTTGTACTCCTTTTGCCTTTGTGTCTGAAAGTGCTC CATCATCAGTCACAGTGACTCTATTTCTGCTTTTGATTCCTTCTGAGACTCTTCCACCTATATCTGAAACTCTTCCAGCT ATGTCTTGAAGCCAACTAACGTAGCCCAATTAAACCAACTTAACTAGCTCTATTAATTGACACTTAGCTGATAGAACTGG TACCAAACAACACTGGAATTCACAATTGGTACTGGAAGAAACCCTAGAATCTGAGATATTCTAGTTCGTTATCATTGATG CAGAACTGAGAATTACAGAGTGTAACAGAGAAGATAACAAAGAAAGGGAAAGTGCCTTGGTCATCAAGAGACCATTCTGG TTTCAAAAAGATAAAACAATTTAGATTCTAATTTCAGACTTTCAACCCTTTATTCCTTTTTAGTCAAAGGTAGTGTACGT GAAAAGATGCCATGTTGGTGCCTTTCATTACCGATTTTCTTGCTGAATTAGTACTTGGAGCTGCTTATGACCTGTGAAGA AAGTGGAATCTGGAAATGTCAGGAAACAACTACTCTAAAATTTAAAGCGTGGACAATGCATAGACCCATCTACCTTGTGC TGAAATTCAACTTTTTTATTAGAATAATTGGGTGCAACAAGGATCAAACTCTCGACCACTTGGTCATAAAGGCTCTGATA CCGTGTCATGAACCAACATCCCAAAAACTTAAACAGTTGGGTAAATGACATGAATGATTTTATATTACATCTCTAAAGGA AAATAAGCATACAAGAGAAATATGAATAAGGTGGAAGCTACTTTTCTTAACAAACTCAATTAACACATACAACACATTTG CAACCAAAAATATGCTTATGTCACTTTCACTGCCCACTGGTATTACTTTTTTATGCGCCCAGTAAATCAGTACTAGAATC TTGTATGTGTTGTGTGAAATGAAGCCAGGTTTTGAAATATATTTTAGGAGTACATTTTGGGTAGAGATGAAAGTGTGCCC AATATGCACATTGCTCTACCCCAATTCTATTAAATCGTAATATTCTTCATATTTACCTGAATTGTCAATTGTCTTTGAAA GATGTTGCCTATATTTAATTATTTATTGTAAATTTTCTGCTAATAGCGTATTAATACTCTGTTTCTTACCCAGATGTAGC ACTTGTCACATCTTTGAGGGATGGAATGAATCTTGTCAGTTATGAATTTGTGGCTTGCCAAGAAAACAAGAAAGGAGTTC TCATTCTTAGTGAAGTAATTACAGAAACTTATTAGTATATTTATCTTATATTTTAATTTCTCAATTCGGGCAATGTTAAT GCTTAACTCCCCACCCTCCTTAATCTTTTCTTTCAGAAGGAAGCTAATTCATTTTGTATGTTAAAGATATAAACTATTCA TGTATCACAACCTAAAATCTTCATTTTTAAAAAAAATTCAATTTATCATTTATAAATTCCAATGTCAAACCCTGTGCAAC TCTTTGCGCTTTGATTAAACTCTTAGTATTTAAAGTAGTTTGGATAAAAGAGATACAAGGTTTCATCTCTTTAGGCCTGA CAATAGCATAGCTATAATAGTTCCTGTCTCTGTTTATAAATAGCTCACAATGCTCTTATTTATGGTATGTTTGAATTAGC TTTTGTATATTTTTCCTGTCAATTTCTTCTTTTTGCATACTTCTTTTTAACTTGATAGGATAATGCTCAAATTTTGTTAT TTTAAGTATATATGTATTCTCTTGATCTGTCATCTTACATCTGGCATTTGGTATTGGGTATTGTTTTTGTAGTTTGCTGG TGCTGCACAGTCTCTTGGTGCTGGGGCAATTCTGGTTAACCCTTGGAACATCACACAAGTTGCTGCCAGTATTGCCAAGG CTCTGAATATGCCATCTGCTGAAAGAGAAAAGAGACATAGGCATAACTTTCATCATGTGAAAACCCACACCGCCCAGGAA TGGGCAGAAACTTTTGTAAGGTATACATAGTATTCTCAACATCTGCTCTTGTATATCAAATGTTTGTTATTTATAATGAG GTTGATCTAGTTTGCAGTTCAGACTCTGAACCATCTGTAGTTTTTTCATTAAGTATGGAGTTATTTGCTTGATTTTGCTA ATTAATTATAGTCCTCAATTTGATTGTAGCTTAAGGTCTCTGATTTTTTTTTGGGAATAATATGTAGAACTATGTTAATT ACTTTTAATGCTGAGTTTTTGGGAATAGTCGAAGAAAAACATGCAGATGCCAAATTTTGATTATGGACCAAACTATTTTA TCAGGAATATATCTCTTTGCTTTGTTTTTTCAACTAGATCTCCAATACCAAGATCGTCCGTATGTTTATTATTTGCAGCG AACTAAATGATACTGTTGTTGAGGCACAGCTAAGGACAAAGCAAGTCCCACCACGGCTCCCAACCAAGACTGCAATTGAA CGTTATCGGCAGTCAACTAATCGATTGATTATTTTGGTATGCTTCTTTGTCATGAAGCTTACGACTTCTTGATTATTGTT TGTGGAACCTATTTAAACCATTTTGTTTTAACCAAATATTTTAATACTTATCTAAATGTTCCCTAGATACGTCAGTAAGA TAGAAAAACACTTGGTTGTCTTATAAATGTTCTCAGAACATGTGAACCACATATGGTTTTTATTGAAATGAAAACAAGGA AGGCAATTGGAGCTTGATCTGATGTGTATTAAAAGAATGAGCCATCTATTCATAGGAGAAGGAAAAAAAAGCAAAATGAG CTATTTTCTCCTGAGCTCCAACAAAATGCAATGTTTTTTCTCTGTATTTGAGGTTCAGGAAACTCAAAAGTATGTAATGA TATAATCAAATATGATAAAGATAATACAATTGTAAAATCTGGATGAACTTAGCCAAAAGATTATTTAAGTTATCAGAGAT GGAACGGTTACTTTAATCTGTTCAGTAATGTCCAACATGGGGGTGATAACTTGATGTGACTTTTTGCACCACAAGTCAAA ATTTTTATTGACAGCTGAAAATTCATGGTAAATATGCCATAATGTGGTTGCTTTTAGCCAAATAGTCTAGACAAAAAAGA TGCCTGATGAGTGAAGGAATTGTTGTAATACAATGCCATAAACAAAAATAGCATTCTAAGCTGTGAAGTAGTCAAGGAAA CAAAAGGACAAATCATAAAGTGAATATTTCTGAAAGTTTGCTTGATTATTGGATCGATATTATTATTGAATGTCATGTTG AGTGTGCATCTTGGATTTGCAGATGACTTCACTTGATCAATAAATTTCATTCCAAAGTTGTTTCCATTATTTTGCAAACC CCAGAAGAAAAAAAATTACTGTAGCATATATCATAATTTTTATAAACATTTTCTCATGATGTTGGCTATACACTACAGGG ATTCAATGGAACTTTAACTGAACGAGTTGAGAGAAAAGGTGATCAGTATAAAGAATTGGAGCCCACAGTGCACCCAGAAC TGAAACAACCCTTGACAAAACTTTGCAGTGACCCAAAGACCACAGTTGTTGTGCTTAGTGGGAGTGGTAGAACCGTTCTA GATGAAGTAATTACTGGGACATTAGTTCCTTCTTTGTGAACTACTCGATCCAATTTTAACTCATTGTTATTACAGAACTT TAAAGAATTTGACGTGTGGCTGGCAGCAGAGAATGGGATGTTTTTAAACCCTTTGAAGGGAGAATGGATGACAACAATTC CAGAACTACTACAGAATATGGAATGGGTTGGCAGTGTGAAGGTGCATATTTTAAGTTTCAATTCTTCTTTGATTTCCCCT CTTCTTTGAGATATTGACATACAATGGCAATCCTGTGTTTTTAGCATGTTTTTGAGTACTTCACAGAACGAACACCTCGG TCACATTTTGAAGAAAGGGAAGCTTCACTTGTATGGAATTACAGACACGCAGGTGCTTCAGCTGTGTTTGGGAAGACATT TTTGTATTCTGCATGCTGTCTTTCCATTTACTGATCCTCTCACCATAATCATAGATGTTGAGTTTGGAAGACTTCAAGCA AAGGACATGCTGCAACATCTCTCGACAGGTTCAATATCTAATGCATCACTTGAAGTTTTTCAAGGGAGCCGATCTATTGA GGTGCGAGCTGCTGGTGTTACAAAGGTGACCTCTTGATTCTAATAATTGACTTTTCTCAGTTCTGCTTTGACCGAATTTT TTTATAATGGTCTATAAATATACACCACGTTTTTACTTAATCAGGGAGCAGCTATTGACCGTATCCTGGGGGAGATAGTC CACAGTAAATCCATGACAATACCAATTGATTGTGTTCTCTCTATAGGACATTTTCTGGCGAAGGTGAATGAAATTTTCAT TTGATATTTGATGTGCTTGTCAAATTTCTTCTTGTTGACCTGTCTAACATAATCTAGTTGGAAAAGCCTTCATTAACAGT GTTGTTTATAATCTGGTGAGCATCGTAAGATAAGTTTCAAACAAGCTTTTCTAAAGCATAAAAAGAGTAATTTCATCAGT TAACATTGTCTGTGAAAGTTACTATTGTTAATTATATGGGGAATTGTTGATCAGTTTGAAGAGTTTTGAATTTTCACTAA GTTGTGAACGTCACTATTGATTAATTTACAGACATCTCTGCCACTTTTAAAATCTTGTTTCTGTGCTATAGAAACAATTT ACACTTCCTAGTGCATCCAATTTGTTGGCTAGGCTTCATTTTGTGATTGTGAGCTACTTCTGTTTGCCAAGAAGACTTTA ACATTCAGATGTTATACATGTAAATCAAAGTGGTTAAAATTAAGTTTTCTGTGTAAAATGTATGTTGTGATTGTCATATT AGTAAATGCATGTTAATATTTTCAGATGTCATCTGCCCTAATCTCATTCCTGATTCTTTCATATCCATTTTCTAATTAAA TCTATTGTGATGCTATCTATATGGTTTTCAGAAGTATTCTTGATTAAAGTTGGGTTTTGATCTTCGGTGCTGTAACATGC TTTTCGTCCTTTGCAATTACAGATAATCATTTGAAAAAACAAAATGCAGATTGCTCTTATAAGCAACCAAATTTTAACAT TATTGATTGTGGCAGGATGAAGATATATATGCCTTTTTTGAGCCAGAGCTTCCTTGTGTTGGTGTGGGTCTCCCACGAGG AAAGGTAACTGATGCTGCAGGAGTTAAGTTTCCAGTTGAGAGGATATCGACTTTGAAGATCTCAGCTAGTAAAAATGGAG CAAAGTCATTTCAAAACAAGGGACAACGACCTCTCTCCAATTCTGAAAAGAAAGCAAGTAATCATCATATCTGCCCGCCG CAGCGGCCAGCTACTACTGAAAAGATCTCTTGGAATGTCCTTGACCTGAAGAAGGAAAATTACTTTTCTTGTGCTGTTGG ACGAACTCAAACAAACGCTCGGTATACTCTTGGGTCATCCGATGACGTTATTGCCTTCTTTAAGGAACTAGCTGATGCCT CTTGAAACTTATCAGAGATGATCGAAGTTCATGTGTAGAAGAAGATGAAAATTGAGAGAGGAAAACAGTGAGGAAGATTG AAACTGAATTGTATTATTCATCATCTTCTTGAACTTGATACAATACACTTAGCTTAAATACACAGCTAGTGTAGTTACAT GAATGTTAAACTAACTCTCTTTGTACAAACTAGCCAACTAACTGAAATCTAACTCAGTTTTCTGTTGCAAGGAAGTTATC ACACTGCTATGGGCAACTTCTGTGTTGTGCCTAAATAAAACTCTTTTACTCAAGAGAGTAAAGATTTCGCGCTTTTGCGA CTTAGGTCCTAGTATTCCTACTTCAGGAGCCAACTTTATATTACAAAAATTCAGAATAACTACGGTATACCTTTATTATT TAACTATTTTCTTATAAAACAAATATTATTTAAAACTAAACAACAATTGAATTAACATGCATCAATATGCGAGAATGTTT ATACATC
CDS sequence (LotjaGi3g1v0303900.2) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGAATCGATACTCCTCTTACCCCAATCCAGCTGGAGATAGACTAATTGAACCAGACATTTCTTTAGCATCCGCTGATTT TATAGGTGTTGCCTGGGCTGGCCTTTTAACCTTTTCCTGTAATTTTCACTACTCTATGACTTGGTTAACTCTTTGCATCA GATGGGCAGTCCTCCTTTTGTGCAATGTATTTGGTTTTCTCTTTAATCAGAGGAAGGAAGATTGCTTATTTGCGCCATTG ATATTCAAATTTCAACAGACAATGGTTGGATTCCACAGTGACCATATACATGGGAACAAGTATAACGGTAATGATAACAA ATTTTCGCCGGGTCGTGTTGAACGGCTTGTGAGAGGAAGAGAGCGAAGAAGAAGCACCAGGGAATCTAATTTGAATGATT CTCCTGATAGAATTAATAATAATCATGTGGCTACTGAATCTTTTGAGCATGAACCGCGCTTGAGAGAAGATACTAACGGC TCCTATGTTGAACGATTCCTGGAAGGGGCTGCAGCAGCAAGGGCACTTCCTCTTAGTAATGGATGCAAAACCGAGGATGG GAAGCCTTTCAAACAACGCCTGTTAGTGGTTGCCAATAGGTTGCCAGTCTCAGCAGTTAGGAAAGGTGAGGATTCATGGT CTTTGGAGATAAGTGCTGGTGGCCTCGTAAGCGCTCTTTTAGGTGTGAAGGAGTTTGAGGCGCGGTGGATAGGTTGGGCT GGTGTCAATGTGCCAGACGACATTGGACAGAAGGCTCTTACAAAGGCATTGGCTGAAAAGAGGTGTATCCCAGTATTTCT TGATGAAGAGATCGTTCATCAATACTACAATGGCTATTGCAATAACATTTTGTGGCCCCTTTTTCATTACCTTGGACTTC CACAAGAAGATCGCCTTGCTACAACACGTACTTTCCAGTCTCAGTTTGAAGCATACCAGAAAGCAAATCAAATGTTTGCT GATGTTGTGACTAAACACTACAAAGAGGGCGATGTTGTTTGGTGCCATGATTACCATCTTATGTTTCTTCCACAATGCTT AAAGAATTATAACAGTAAAATGAAAGTTGGCTGGTTTCTCCATACCCCATTTCCATCTTCTGAAATTCACAGGACACTGC CATCTCGTTCCGAACTCCTGCATGCTGTTCTTGCAGCTGATTTGGTTGGTTTCCACACCTATGATTATGCACGACATTTT GTCAGTGCATGCACTCGCATTCTTGGACTTGAGGGCACACCTGAAGGGGTTGAGGATCAAGGGAAGCTCACTCGAGTTAC TGCATTTCCAATTGGTATAGATTCGGAACGATTCAGAGGTGCACTTGACCTTCCTGAAGTTCAGGGTCACATCAAAGAAT TTCAAGAAAGATTTAAAGGAAGAAAGATTATGTTAGGTGTTGATCGCCTTGATATGATTAAAGGAATCCCTCAAAAACTT CTTGCATTTGAAAAGTTTTTGGAAGAGAATGAATATTGGCGTGATAAAGTAGTTCTGCTTCAAATTGCTGTGCCAACAAG AACAGATGTTCCTGAATATCAAAAACTTACAAGCCAGGTTCATGAAATTGTTGGTCGCATCAATGGCAGATTTGGAACAC TGACTGCTGTTCCAATACATCACCTGGACCGCTCTCTTGAATTTCATAAACTATGTGCTTTGTATGCTGTTACGGATGTA GCACTTGTCACATCTTTGAGGGATGGAATGAATCTTGTCAGTTATGAATTTGTGGCTTGCCAAGAAAACAAGAAAGGAGT TCTCATTCTTAGTGAATTTGCTGGTGCTGCACAGTCTCTTGGTGCTGGGGCAATTCTGGTTAACCCTTGGAACATCACAC AAGTTGCTGCCAGTATTGCCAAGGCTCTGAATATGCCATCTGCTGAAAGAGAAAAGAGACATAGGCATAACTTTCATCAT GTGAAAACCCACACCGCCCAGGAATGGGCAGAAACTTTTGTAAGCGAACTAAATGATACTGTTGTTGAGGCACAGCTAAG GACAAAGCAAGTCCCACCACGGCTCCCAACCAAGACTGCAATTGAACGTTATCGGCAGTCAACTAATCGATTGATTATTT TGGGATTCAATGGAACTTTAACTGAACGAGTTGAGAGAAAAGGTGATCAGTATAAAGAATTGGAGCCCACAGTGCACCCA GAACTGAAACAACCCTTGACAAAACTTTGCAGTGACCCAAAGACCACAGTTGTTGTGCTTAGTGGGAGTGGTAGAACCGT TCTAGATGAAAACTTTAAAGAATTTGACGTGTGGCTGGCAGCAGAGAATGGGATGTTTTTAAACCCTTTGAAGGGAGAAT GGATGACAACAATTCCAGAACTACTACAGAATATGGAATGGGTTGGCAGTGTGAAGCATGTTTTTGAGTACTTCACAGAA CGAACACCTCGGTCACATTTTGAAGAAAGGGAAGCTTCACTTGTATGGAATTACAGACACGCAGATGTTGAGTTTGGAAG ACTTCAAGCAAAGGACATGCTGCAACATCTCTCGACAGGTTCAATATCTAATGCATCACTTGAAGTTTTTCAAGGGAGCC GATCTATTGAGGTGCGAGCTGCTGGTGTTACAAAGGGAGCAGCTATTGACCGTATCCTGGGGGAGATAGTCCACAGTAAA TCCATGACAATACCAATTGATTGTGTTCTCTCTATAGGACATTTTCTGGCGAAGGATGAAGATATATATGCCTTTTTTGA GCCAGAGCTTCCTTGTGTTGGTGTGGGTCTCCCACGAGGAAAGGTAACTGATGCTGCAGGAGTTAAGTTTCCAGTTGAGA GGATATCGACTTTGAAGATCTCAGCTAGTAAAAATGGAGCAAAGTCATTTCAAAACAAGGGACAACGACCTCTCTCCAAT TCTGAAAAGAAAGCAAGTAATCATCATATCTGCCCGCCGCAGCGGCCAGCTACTACTGAAAAGATCTCTTGGAATGTCCT TGACCTGAAGAAGGAAAATTACTTTTCTTGTGCTGTTGGACGAACTCAAACAAACGCTCGGTATACTCTTGGGTCATCCG ATGACGTTATTGCCTTCTTTAAGGAACTAGCTGATGCCTCTTGA
Protein sequence (LotjaGi3g1v0303900.2) extracted from Lotus japonicus Gifu v1.2 Proteins.
MNRYSSYPNPAGDRLIEPDISLASADFIGVAWAGLLTFSCNFHYSMTWLTLCIRWAVLLLCNVFGFLFNQRKEDCLFAPL IFKFQQTMVGFHSDHIHGNKYNGNDNKFSPGRVERLVRGRERRRSTRESNLNDSPDRINNNHVATESFEHEPRLREDTNG SYVERFLEGAAAARALPLSNGCKTEDGKPFKQRLLVVANRLPVSAVRKGEDSWSLEISAGGLVSALLGVKEFEARWIGWA GVNVPDDIGQKALTKALAEKRCIPVFLDEEIVHQYYNGYCNNILWPLFHYLGLPQEDRLATTRTFQSQFEAYQKANQMFA DVVTKHYKEGDVVWCHDYHLMFLPQCLKNYNSKMKVGWFLHTPFPSSEIHRTLPSRSELLHAVLAADLVGFHTYDYARHF VSACTRILGLEGTPEGVEDQGKLTRVTAFPIGIDSERFRGALDLPEVQGHIKEFQERFKGRKIMLGVDRLDMIKGIPQKL LAFEKFLEENEYWRDKVVLLQIAVPTRTDVPEYQKLTSQVHEIVGRINGRFGTLTAVPIHHLDRSLEFHKLCALYAVTDV ALVTSLRDGMNLVSYEFVACQENKKGVLILSEFAGAAQSLGAGAILVNPWNITQVAASIAKALNMPSAEREKRHRHNFHH VKTHTAQEWAETFVSELNDTVVEAQLRTKQVPPRLPTKTAIERYRQSTNRLIILGFNGTLTERVERKGDQYKELEPTVHP ELKQPLTKLCSDPKTTVVVLSGSGRTVLDENFKEFDVWLAAENGMFLNPLKGEWMTTIPELLQNMEWVGSVKHVFEYFTE RTPRSHFEEREASLVWNYRHADVEFGRLQAKDMLQHLSTGSISNASLEVFQGSRSIEVRAAGVTKGAAIDRILGEIVHSK SMTIPIDCVLSIGHFLAKDEDIYAFFEPELPCVGVGLPRGKVTDAAGVKFPVERISTLKISASKNGAKSFQNKGQRPLSN SEKKASNHHICPPQRPATTEKISWNVLDLKKENYFSCAVGRTQTNARYTLGSSDDVIAFFKELADAS
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 |
|---|---|---|---|---|---|---|
| Phobius | 1 | 19 | 19 | - | – | |
| TMHMM | 20 | 42 | 23 | - | – | |
| Phobius | 20 | 40 | 21 | - | – | |
| Phobius | 41 | 46 | 6 | - | – | |
| Phobius | 47 | 68 | 22 | - | – | |
| TMHMM | 51 | 68 | 18 | - | – | |
| Phobius | 69 | 1027 | 959 | - | – | |
| PANTHER | 104 | 1027 | 924 | 0.0 | – | |
| PANTHER | 104 | 1027 | 924 | 0.0 | – | |
| MobiDBLite | 118 | 151 | 34 | - | – | |
| SUPERFAMILY | 192 | 661 | 470 | 5.97E-157 | – | |
| Pfam | 193 | 658 | 466 | 7.3E-187 | ||
| TIGRFAM | 193 | 658 | 466 | 1.4E-190 | ||
| CDD | 193 | 658 | 466 | 0.0 | – | |
| Gene3D | 233 | 656 | 424 | 1.3E-179 | – | |
| Gene3D | 435 | 643 | 209 | 1.3E-179 | – | |
| TIGRFAM | 689 | 904 | 216 | 1.2E-19 | ||
| SUPERFAMILY | 690 | 877 | 188 | 8.24E-22 | ||
| CDD | 691 | 909 | 219 | 3.73142E-53 | – | |
| Gene3D | 693 | 875 | 183 | 1.7E-14 | ||
| Pfam | 696 | 909 | 214 | 1.3E-48 | ||
| Gene3D | 781 | 861 | 81 | 1.7E-14 | – | |
| MobiDBLite | 946 | 976 | 31 | - | – | |
| MobiDBLite | 946 | 967 | 22 | - | – |
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 | Alpha,alpha-trehalose-phosphate synthase (UDP-forming) activity | Catalysis of the reaction: UDP-glucose + D-glucose-6-phosphate = UDP + alpha,alpha-trehalose-6-phosphate. | ||
| Biological process | Trehalose biosynthetic process | The chemical reactions and pathways resulting in the formation of trehalose, a disaccharide isomeric with sucrose and obtained from certain lichens and fungi. |
Expression pattern of LotjaGi3g1v0303900.2, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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