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Field | Value |
---|---|
Gene ID | LotjaGi4g1v0137400 |
Transcript ID | LotjaGi4g1v0137400.1 |
Lotus japonicus genome version | Gifu v1.2 |
Description | Adipocyte plasma membrane-associated-like protein; TAIR: AT3G51430.1 Calcium-dependent phosphotriesterase superfamily protein; Swiss-Prot: sp|Q9CAZ7|SSL5_ARATH Protein STRICTOSIDINE SYNTHASE-LIKE 5; TrEMBL-Plants: tr|G7LA68|G7LA68_MEDTR Strictosidine synthase family protein; Found in the gene: LotjaGi4g1v0137400 |
Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr4:20185324..20193109) extracted from Lotus japonicus Gifu genome v1.2.
TATGAGATGATTTCAGTCCAAAGTAGGTGGCATTTATGCTGATTAAGAAGTTCACAACAAGTACAATATTATAAATAGCT AGTCTGTCATCATTCTCATCCTAATCCTTGACAAAGCTTGAAACAAACCACTGCCACTAAAACCTTACCACCACTCCAAC CATATATAAAATGTCCGAGCCAGGCCATGTTCGTAAAACCTCATCATCATGGCTCTTAACACCACTTTTCGCCATAGTTC TACCGGTTGCAGCGGCGGCCGCGGTTCTGTTCTGGCTCGACCCGTTCGAACCGGTTCAAATCCCGGTTCACAGTACGAGT CGATCCGCGTTGGCGGCCGCCGGCACCATACGTAACGACCACATGCTGCGAGGATCCGATAAAGTGGGGGAGGGACACAT GATGGGACCGGAAGACTTGGTCTACGACGCCGCAACGGGCGTGGTATACACAGGGTGTGTGGATGGGTGGATTAAGCGAG TCAGATTGAATGACTCGGTGGTTGAGGACTGGGTCAACACCGGAGGAAGACCACTTGGGCTGGCTTTTGATCAGAATGGA GATCTCATTGTTGCCGACGCTGATAAGGTAAAATATTATGGGATTTGAATATTCGGTATTGTGAACAAGGATACAGTTAA CAAACTATCTCACGTGTCCGTTTTATTAATTGTCTCCTCTCCTCTAGTAAGAAAACATATTTTTTGTCATACTATATATA GATTATGAACTGCGAGTTCTCATGCCGTATCTAAATTAGCTGGATGAACTTCAAGGGGTTGGTTTTGTGAAGTATGAAAG ATGATACTTTGATAGGTTGCACGTTCAAACTTTTCCTAATATTTTAAAGGTAAGTTAAATATAAATCTTCGATAATGTTA TTTGATTCTGACTGTTTTTTCTACCTTAGACTAATGCACAATCTCCTCATTCTAAATTTTTTTAACCAAACAAAGAGTTA ATTTTTTGATCAACTATATGTATTTTTATATTAAATGTTTTTTATTTTTCTTATAATTTATGTAGATTTTTTTAAATTTC TTTTTTTAGCCAATTTTTTTTTTTTTTCATTTCACCTCTTAAATGATAAAGTTCTGGATAGGCACTTGTAAGTTCTCATA TTGTTGTTATCTCAATTATTATCAACTAAGTTTTGATTCATTCAACGTTGCTTTCTTTATCATTTTAATTTTATTACCTT TCTCTTTCTATCTTGTTTTTTATTAAACCACTCATCCTATCTCTTTTTTGTCTCTTCTACTTCTTATTATTAGGTGTAGT TTGATTTGGAGTATAAAAATAGTATGTTCTATTTGAATTGATCTTTCTATCTTTTTTCAAACATCACTTTTTTAAAATTC TACATCTGGTATTGGTTTAGTATGTTTTATTTTTTTATATGTTATGAGAGTCTCGATAATTAAGGGTCTAGAGTTCGATC ATCTGCATCCAACTCATCTTTTAATAAAAAGTTAAATTTTAAAACATGGTAGGTGAGTCTGTGTCTTATCCACGTTTCGT CCAAAGAACTCTTACGTGAGAGTGTGTTATAAAACTATTCATATAACTCTTACCAATAATTTAAGTTTTTTGAATAAGTA GCTACTTTGACACAGATCTCTCTAAAGAGATATATGAAAGAAAGAGAGATAAATAATGAGTTTGTCCTAAAATAATTTAT ACTAAATTTACCTAAAGGTTCATGAGTGTGGACCTATTTTAAAGATGGTTCACATATAATTGTAGACATTTTCTGAGTAG TCCAATTGAATGCAGGGTCTTCTGAGAGTGACAAGGCAAAAGGAGATTGAGGTGCTGGTAGTTGAGAATGAGGGTTCAAA ATTCAGACTAACTGATGGTGTTGATGTAGCACATGATGGTACTATTTATTTCACCGACGCTTCATCCAAATACTCCATTA AGGACTCCATATTAGACATATTGGAAGGTAACCCTAATGGTAGGTTCATGAGCTATGATCCAACAACGAAAAGAACAACC CTACTTGCCCATGACCTCTACTTTCCCAATGGAGTCGCTGTTTCACCAGATCAACATTTTGTGGTCTTCTGTGAAACTGC CCTGTAAGTTAGTTATACTTCCATGCTCACCTAGTAGTGTTTTTTTTTATTGTTAATTAATTATCTGGGTAAGTGAAGGT TGGGCTTCATTTGAATTCGGGCTTAATAGGCCCAACACATTGAATATGCTAGGCTTATTTCTGAATTAATTAATGGGCTG ATTGTGCAGGGTGAAGTGCATGAAATATTTCATACGAGGCCCTAAGAAAGGAAGCATGGAAAAGTTTTGTGACTTGCCTG GCTTACCTGATAACATTCATTACGATGGACAAGGACAGTATTGGATTGGAATAGCCACGGTAACCTGTGCTTTTGAAAAT TTTCTACAATTTATCTTAACTGTTAATTATTGGGGAAACTTCTAAATGTAAGAAATTGATTCTGAGAGGAAAAAAAACAC TGAATCAAACATGCTCTATCGATCCCTTGACATATAAGTGGTCTAGCATTCAGTTTTATAACTAACTAAAGGGAAATAAA GTTACGCTTTATTTACTTTGGACTAAGAAAAGTTTTTGTTCTTTCAAAAAAAAAAGAGTTTTGGTTTAGAAGTTAGAAAT GTTTCTGTACAAATTAATTTTAGGTTTAAATATGTTTTTAGTCCCTCTAAAATTAGCATTCTTTGGTTTAGGCTCCTCTA AATTATTATTTTTGAAAACCGCCCCTAAATGAAAATTAATACTGAGGTTTCAGCCCCTGCCGTCACCTTCCATACTTTAG AGGGACCTAAGACCATGATAAAAATTGGTTTTAGGTCATTCTAAAATCATTGTTCTTTGGTTTAGGCCCCTCTAAAGTCA TGTCACATCAGCTTCCGTTAAGTGATTCAGCACTCAATAGATGGAAGGTGACGACAACGACCAAAAGCTCAGTACTATTT TTCAAATAGGGGTGTTTTAAAAAAACATATTTTGAGGGGCTTAAACCAAAGAACTCTGATTTTTTAAAGACCAAAAACAT ATTTAAGCCTTAATTTCATGTAAAAACCATATTGTAAGAAGTACTGAATTATCGTTCTACCATGGTATCGGTAAGGAGTA CTAAATGTTAGTAGTAGTATATGGTTTGTGCTAGATTAGTTTTAACATGATTCACCATAGAATTTTTGTCCATAAAACTA TATGATTAAGATTGGTACACACCCAATAGATATAGACCACTAGAGAGATAAGAAAATGGGAGAGATAGTTGATAATGTAA TATATAATGTAGAGTGACCAGAAGAGAAATGTATGTATTGTTTGGTGGTACATGTACGTATCGTTACTAAAAATTTATAT TTGTGTGTTACTGATGGCGTTGGTTGAGTGAAAAAAGGTTGGGGAAAAACTTCTTGAGCCCGTAGGTTTCCCATGTCTTA GATTGCAACACTAAAGAAAATGTCATTTTCGAAATTAAGATATATATATATATATATATGTGTTAACCCTTGGAAACGTG AAAAGAGATATGAGGATTCTTATATATTAAGCCTAAAACCATGATATTACATAAAGTAAAGTATGAACGAATATATAAGG ATTTCAAATTTTGACACAGTTCAATTTTAATTCTTAGAATACTTTGTCTATGATTTGTTATAAGAAGTACTGAATTATCA CTCTTCTGTTTTCTGATCATAATTGTATTTTTGGTGCATTATGGGCAGGCCTTTGGCACTGATTTGGATGTATTATTTAG ATACCCTTTCTTGAGGAAGGTTTTAGCAATAGTTACAAAGCATGTACCGAGTCTAAGTGTGGTGAAGAACGGTGGAGTTC TGGCTGTGGATTTGGAAGGCAAGCCAACTGCATACTATTATGATCCCAAATTAACATTGACTTCTGGGATCAAAATAGGG AACCGTCTATATTGCGGTTCAATTATCTACCCCTTTCTATTACGTCTTGATACAGAGCAATATCCTGCTCTCCCCGCAAT ATGAACATGTAATTGAGAACATCTCATACAATTGTAGCAAATATTTTTAGTGTCATGTGGGTGGCATAAATTGGGATTCA TGCCAAAATTTCATACATCACTCAGCTATATTTAGTTTACCATAATAAAAATCGGAATTTCAAGTCGAACAGCTTTTCTA TTTATATTTTTTTGAACTTAGAAAATTGGGTTAAATATGTTTTTAGTTTTTGTAAATATAGGGTTATTTGATTTTACTCC GTCATCAAAGTAAAGTTGCATTTAAGTCACTGCAATTAGAGAATATAACCCTAGGGACCAAATAGGAAAGGTGTATCCAC CACCACTAAATTGAAACACCACTAAAGTAACAAGGATTAAATTACAAATTTACTCCGGCGAAGGATTAAAATCAACCGAC CCTACATTTACATAGACCAAAAACATATTTTTAACACTAGATAATTTTGTCCCTCTTTTCCTTCTATCTCCTTTTACATT TCCATTGCCCTTTGTCTTGTTTTTTCATCATATCATTTGTCAGTTGTCACATTTTTTTTTTATCTTTTTGTCTCCCTCTA AACCAAAGAAGCGTGTATCCACCTCCAAATGGCTGAGACTATTCTTTCTTTGCTCTTTTATAACTATCTTGAGTAATCAA ATCTACTACAATTTATTATACTCTTGGGGTCCAGAAATGCTTCCCAAGGCCCTAGCTTTCTCCCTCAGAACATACTTTTG TATCTTCCCAGTAGATGTTTTTGGCATATCTTGGAAAATGACTGTTTTAGGAGCCATGTAATGGGGCAAATGGTCCCTGC AAAAGTTTATGATTTCTTGGGCATCTGCATCAAATTCAAACCCCTCTTTCAACTTCACAAAGGCACAAGGAGTTTGACCC CAATGATCATCCGGCCGGGCAACAACCGCAGCTTCAAGAACTGCTGGATGGCTATACAAAACTGTTTCCACCTCAACTGA GCTAATGTTTTCACCCCCAGAGATTATTATGTCCTTCAATCTGTCCTTGACTTCTATGTAGCCATCAGGGTGTTTCACTG CAAGATCCCCACTATGAAACCACCCATCACTAAAAGCTTTTTCTGTTGCTTTCAAATCTCTATAATATCCACTCATCACT GTGTTCCCTCTAAACATGATCTCACCCATTGTTTTGCCGTCATTCGGAACGCTTTCCATTGTGTCAGGATCTTTGACATC AATCTCCTCCAAACCCACATGGGGCACCCCTTGTCTGGCTTTCATCTTTGATCTTTCTTCAGGAGGCAATGAGTCCCACT CAGGTCTCCATGCACAGAAAGTCCCCGGACCATATGTTTCTGTGAGGCCATATAGGTGAGAAACGCTGAAACCGAGTTCC TCCATCTTGTACAGGATTTGCGGCGGTGGAGGAGAACCTCCTGTCATCACTACCACCTTTTGATTGAGTGGCTTTCTATC AGTTAATTCTGAGTTCACAATCATGTTTAATACTGTAGGAGCTCCTGCCATGTGTGTCACATTGTGCTCAGTTATATTAT CAAATATGTTCTTTGGAGTGACTTTCCTTACACAGATATTGGTACCAAATTGTGCTGCCACTCCCCAAGGGAGGCACCAA CCATTGCAATGGAAGAATGGAACATTCCAAAGATAAACAGGGTAAAGGTCCATTCTGAAGAGTAGAACCGTTGCTAGAGA GTTCAGATAAGCACCCCTGTGACTGTAGACAACTCCTTTAGGCCTAGATGTGGTGCCAGAGGTGTAGTTTATACTTATGG GATCCGATTCACTATGTGGTCTCACTATGTCAAAACCATTGTGCCCAAAAGCCAGTAGCTTCTCATACTCATAACTAATT GAAGTAATGTCAATGGTAGATGAGCAATTAGAGTCAGTAATCAATACTAAAATTGGCGATTCTATCGCTCTTTTGTGTAG GAGGTCCAATGCCCCCCGAGCAATTTCAAGTAGTTGGTAGTCTACAAAAAGGATCTTCGCTTGTGAATGTTCCAGCAAGA TTGAAGTCATAGCTGCATCAAGGCGTGAATTTAGGGTACAAAGGATGGCTCCAGCCATTGGGACCGCAAAGTGCAGCTCA TACATTGCAGGGACATTAGGTGACAGGGTTGCAACCTGTTTACATACAACATGGAGGAGAATCAGAAATTTATTTACTTT AGGGAATTTCAAGATTCTTCAGGATATTTGTTCCCTAGCACAAGTTTCATCAATGCAAATGCAGTATGTTTTATACAAGG CTAAAAAAGCATTTTTTGCCTCTGATGTTTCAAGTTTGTGTAAATTCTGTCTCTACTATATTTTTATCGACGTTTATACC CCTCATGTTTTCAAACAGTGCACTGTCTACCCCTCCGTCAGTCAGGCTTTCCCTTTGAGAGGTTCCTGAGTGGATTGGAG AGATGAAGAAGAGTATATGAAGTTGATGATGATCAAGGAAATGATATAAATTAAATTTGCTTGATGAATATATCAATTAT ACATGTAATTGAACTGGTTAAATGCATGTTTTGCTACTTACAGGTCTTGAATTGAATCTCCCTTGCCCATTTTTTCCAAT TTCACTTGTAATTTCCATGTGACAGTTCCAAAAAAATATAAAAAAAAAATGTCACATCAGCTCATTCCGCTAGTTTTTTA ACGTTTGACTGATGGAGGGGTAGATGATGCACTGTTTGAAAATATGAGGGGTAGAAACATCAATAAAAATAGAGTAGGGG CAGAATTTGCACAAACTTAAAACATCAAGGGTCAAAAGTGTTTTTTAGCCTTTATACAAACTTCTAAGCAATGCAAATGA AGTATGTTTCTAACTAGAAAACATGAAGAAAAGTGTAAACTTAGTAAATTCGTGAAAATTCTAGACCTAAGAGTGCAAAA ATGTCATTGTAGTTGCTGCAATTCAGCATATAAACAAGAAAGCCTAACTTAAATGTCTCCTTAGTCCTTCCATTTACCAA ACAAAACAGACAGCTATCAACTACTCTTCCAAATGTTCATCCTAGCCAGTTTCCAAAATTCTGCCACGCTTGAAGCTTAC TAGTACTACTCGAATCAATACCACCTAAATATTCAATTAACTCCTCTATTCCAAAACTTACCATCTACCCAGAATCCTAA CCATAGAACACGGATCAAACAAGTTTATGTTTAGAAATTCTGAAACTTATCACAGTAAAATTAAAACATAATAGGGCCCA ATAGTACCATAACTCACCACATCCCCATGGGAAATTCCCAATTGGGTCAGAGCAGAAGCAAGTTTGAGGCACCTTTGATT GGTTTCACCCCAGCTATACTTCAAAGAACCATACACAAGAGATGTTCTGTCTCTGCAAACCTTTGCTGCTCTCTCTAGAA AGCTGATAGGGGACAGAAGAGCGAAATTTGCAGAGCATTGAAGCAGGCCCTCAATCGATTCCCATGATCCCGGATCGGAA TCCTGGGGAAAGTTACAATTTTGGCGTGAATTATGAGCTGAGAAGAGTTTTGTTGGTTTGAATTGCCTTAAAGAACAAGA CCAAAGCATGCTCTTGAAGCTGATTACCATGTTAACTGATAAATCACACTTGATGGTTCAAAGTATGAGAATATCAACTA AGATTGTATTAGTACAATTCCAATAAGGCTTAAATAAGTTTTTCGTCCCTAACATTTCCATAATACCTGGTTTTCGTCCC TCGCCGGAGCAAATGTGGGGTTTAGTCCCTAACCTTTGCCAAAACGTTTGGTTTTGGTCCCTCCGGAGCTCTGGGTCAAC GCCGGAGCTCCGATGGCCCATGTGGC
CDS sequence (LotjaGi4g1v0137400.1) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGTCCGAGCCAGGCCATGTTCGTAAAACCTCATCATCATGGCTCTTAACACCACTTTTCGCCATAGTTCTACCGGTTGC AGCGGCGGCCGCGGTTCTGTTCTGGCTCGACCCGTTCGAACCGGTTCAAATCCCGGTTCACAGTACGAGTCGATCCGCGT TGGCGGCCGCCGGCACCATACGTAACGACCACATGCTGCGAGGATCCGATAAAGTGGGGGAGGGACACATGATGGGACCG GAAGACTTGGTCTACGACGCCGCAACGGGCGTGGTATACACAGGGTGTGTGGATGGGTGGATTAAGCGAGTCAGATTGAA TGACTCGGTGGTTGAGGACTGGGTCAACACCGGAGGAAGACCACTTGGGCTGGCTTTTGATCAGAATGGAGATCTCATTG TTGCCGACGCTGATAAGGGTCTTCTGAGAGTGACAAGGCAAAAGGAGATTGAGGTGCTGGTAGTTGAGAATGAGGGTTCA AAATTCAGACTAACTGATGGTGTTGATGTAGCACATGATGGTACTATTTATTTCACCGACGCTTCATCCAAATACTCCAT TAAGGACTCCATATTAGACATATTGGAAGGTAACCCTAATGGTAGGTTCATGAGCTATGATCCAACAACGAAAAGAACAA CCCTACTTGCCCATGACCTCTACTTTCCCAATGGAGTCGCTGTTTCACCAGATCAACATTTTGTGGTCTTCTGTGAAACT GCCCTGGTGAAGTGCATGAAATATTTCATACGAGGCCCTAAGAAAGGAAGCATGGAAAAGTTTTGTGACTTGCCTGGCTT ACCTGATAACATTCATTACGATGGACAAGGACAGTATTGGATTGGAATAGCCACGGCCTTTGGCACTGATTTGGATGTAT TATTTAGATACCCTTTCTTGAGGAAGGTTTTAGCAATAGTTACAAAGCATGTACCGAGTCTAAGTGTGGTGAAGAACGGT GGAGTTCTGGCTGTGGATTTGGAAGGCAAGCCAACTGCATACTATTATGATCCCAAATTAACATTGACTTCTGGGATCAA AATAGGGAACCGTCTATATTGCGGTTCAATTATCTACCCCTTTCTATTACGTCTTGATACAGAGCAATATCCTGCTCTCC CCGCAATATGA
Protein sequence (LotjaGi4g1v0137400.1) extracted from Lotus japonicus Gifu v1.2 Proteins.
MSEPGHVRKTSSSWLLTPLFAIVLPVAAAAAVLFWLDPFEPVQIPVHSTSRSALAAAGTIRNDHMLRGSDKVGEGHMMGP EDLVYDAATGVVYTGCVDGWIKRVRLNDSVVEDWVNTGGRPLGLAFDQNGDLIVADADKGLLRVTRQKEIEVLVVENEGS KFRLTDGVDVAHDGTIYFTDASSKYSIKDSILDILEGNPNGRFMSYDPTTKRTTLLAHDLYFPNGVAVSPDQHFVVFCET ALVKCMKYFIRGPKKGSMEKFCDLPGLPDNIHYDGQGQYWIGIATAFGTDLDVLFRYPFLRKVLAIVTKHVPSLSVVKNG GVLAVDLEGKPTAYYYDPKLTLTSGIKIGNRLYCGSIIYPFLLRLDTEQYPALPAI
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 | 11 | 11 | - | – | |
PANTHER | 7 | 369 | 363 | 1.0E-150 | – | |
PANTHER | 7 | 369 | 363 | 1.0E-150 | – | |
Phobius | 12 | 36 | 25 | - | – | |
TMHMM | 13 | 35 | 23 | - | – | |
Phobius | 37 | 376 | 340 | - | – | |
Gene3D | 69 | 318 | 250 | 3.5E-72 | ||
SUPERFAMILY | 70 | 367 | 298 | 8.17E-47 | – | |
Pfam | 166 | 252 | 87 | 1.1E-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 |
---|---|---|---|---|
Biological process | Biosynthetic process | The chemical reactions and pathways resulting in the formation of substances; typically the energy-requiring part of metabolism in which simpler substances are transformed into more complex ones. | ||
Molecular function | Strictosidine synthase activity | Catalysis of the reaction: 3alpha(S)-strictosidine + H(2)O = secologanin + tryptamine. |
Expression pattern of LotjaGi4g1v0137400.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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