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| Field | Value |
|---|---|
| Gene ID | LotjaGi1g1v0390200 |
| Transcript ID | LotjaGi1g1v0390200.3 |
| Related isoforms 5 | |
| Lotus japonicus genome version | Gifu v1.2 |
| Description | Syntaxin, putative; TAIR: AT3G24350.1 syntaxin of plants 32; Swiss-Prot: sp|Q9LK09|SYP32_ARATH Syntaxin-32; TrEMBL-Plants: tr|A0A0B2Q4J0|A0A0B2Q4J0_GLYSO Syntaxin-32; Found in the gene: LotjaGi1g1v0390200 |
| Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr1:87345723..87357655) extracted from Lotus japonicus Gifu genome v1.2.
GCGCAGTCCCATAGGGGAGGCCCCAAACCCAACTCCCCAAATAGAGCAACACGGTGGTGTAAGCAAAATTCCGTCGTGAT TCACAAAAATCGTTTTCGACATTGCATCTTCTTCCCCTTCTCCTTCTCCGATTTCAACCAACCCAACCACCGCAATTCCA ATCCCAATCCCAATTGGATCTATCTAGGGTTTCCCTTTCCTTGCCACCATTCTCCCCTCCGTGAAAATTCCTGAACCGGG AAAATGCACGTCAAATCGGCGCAGTCATCGTATCGGGATCGGACGCACGAATTCCACAGCATCACAGAGAGGTTGAAGAA ATCAGGATCTGGACCCAATGGACCTGCCACCACCACCACCACCTCATCCAGATCGGAGGAACCCCGTTCTGCCATTGCTA TGCAATCAGAATTCAACAAAAGAGCCTCCAAAATCGGTTACGGCATTCACCAAACCTCTCAGAAGCTCGCCAAGCTCGCA AAATGTAACCAATTCCATTGATTCACTCACTATTTCTCAACACTGACTATTCAATGCTAGTTTATGTGATTGTTTTAGAA CTATGCAAATGCAATCAATAGCTTTAGCTTTCTATTTGTTATGGTTTGCAGTGGCGAAAAGGACTTCGGTTTTCGATGAC CCTACCATGGAAATCCAAGAGCTTACTAGTGTTATTAAGCAGGATATTACTGCGCTAAACTCCGCGGTTGTTGATCTTCA GTTACTCAGCAATTCTAGGAATGAGAGTGGAAATGCTTCTGCCGACACGACTAGTCATTCCACCACGGTTGTAGATGACC TCAAGACGCGGTTGATGGGTGCCACGAAGGAGTTTAAAGATGTTCTCACCATGAGAACTGAGGTAATGATAATGTACTGT ATTGGTGTGTTTTTTGTGTGGATGTTTTGCACCTTCATGTCTGAGGCTGATGATGATGTTGTGTTGTTGTGTTTTGTGAA GAACATGAAAGTACACGAGAGTAGGAGACAATTGTTTTCGGCCTCTGCCTCGAAAGATTCTGCTAACCCTTTTGTCCGTC AGCGACCTTTAGCTACGAGGTCCGCTGCTAGTTCTTCTGATGCCCCTGCACCTCCATGGGCTAGTGGTTCGCAATCTTCA TCCCAGTTGTTTCCTAAGTAAGTTGTGTTGTTCTATCTTTGTTCTTTTGTTGATTCGTTGTAGGCTCTAGTTAAGCACCG CTTTGTTGTTTTCCTGCTGATTTTTTATGCAATGCAGGTAAACTAATTTATTAGATAATCTGCATTACTGCTTCTTCATC GCTTAATTTGTAGTAGTATGCCATTAGACTATTGAGGTGCATAATTTTTATTCAAAGGAACTGGCGATTCTAGTGAAGAT TGATCTATTCATATTGAGCAAAAGCGTAGCTACATACCCTTGTTTTATTTGACTTCCTCAAATTGTCATTTGAAGTATAA TAGAACTCAAATTTGCTGCTTTTTGGCACAAGTGCACCACCATTGGGTCCATATTTATTAATTTCAGTTTGGAAAGTATG TCTTTACTCCCTCCTTTGTGATTGCATTTGTTAGATAGAGTATATAGATAAAAATAGATAATATGCATCGAGTTGTAATG AGTGATCAGTACTGAGCAGTCTGAGCTATGGAACTGTTAAGTTAGAGTTACTTAGGTATTGGTTAGAATTCTGTTAGAGA AGTTACTTTATAACTGCAGTTTGCAACAAGCCTGGTTAGGCTTTATGTCCACTCATATATTGTAGAATCATTCAGATATG AAATTATCACTTCAGAAACAGTTTTTCTCTATCTTTTCACTTCTATGAACTCTAACAGCATTGAACAGACATAAGTTCGT AACCTTTGCTTTACTGTATTAATTAATTAAATCACTTAAATTAATTTATGGATTTCATTTGCTTGTTTGCTTACAACTAG GCCTGTCAAACAGGGTGTCTCGTCAAACCTTGTTTTGTTGCCCTAGCCTGGACTGAGAAAACTGTAGGACTAGTAAACTT GGCCCGGCCTAGGGAAATTGGCTGGTCAAACAGGATAGCCCAAAATGCATGTAGAAAAGCAGGAAGGCTCATTCAAAATG TCAGACCATTTTCCTTTATTGGGATGACTTGGCCTGACAAAGAGGATTGGAATTGAAATGGCAGGTCTTCCTAAAAAAAT TGTGCATCTGGGACCAAATTAAGAGCTCTAGTTACAAGCATGACTTGTGGATCCTTTCCTATTTAATAATGAAAACTTTT GCTATGCTTAATATTTTAAGGTTGTTTCAGGTTGGATTAAATTCTTTCTGGAACTATGGCTCCAGACATTTTTTTTTTTG ATTTAAAACTTTCATGGCTTTAAATCTACAGGAAGCAAGTGGATGGGGAGAGTCAACCATTGTTGCAACAGCAGCAACAA CAACAGCAACAGCAGCAACAGATAGTTCCTTTACAAGACAGTTACATGCAAAGCAGAGCAGAAGCACTTCAGAATGTTGA GTCCACTATTCATGAGCTCAGCAACATTTTTAATCAACTAGCAACACTTGTTTCCCAACAAGGAGAGGTTGCCATCAGGT ATTTATATGTCGAACTCATGTTGCTATACAAACCTCTAACAACCTAGTCTATAAATATTGTACTTCTGAATCACGTTAAT ATCGATAACTAATCAAAATACTTCCAGTTTCAAGAAGTTTGTAGTTAAGATGATTATAGATACTGATTTAAAATACAAGA GAAAGAAAGTAAGAAACTTTTATTGAATATTCTCCTCCAATGTTGCATCAACGGTTATCCAGGGTCAAGAAGAGGAAGAA TGGGATAAAACGTAGTCTTTCCAAGCAATTTGAGAGCTTGGCCTCTCCCACCCAAAACCAATTGACCAACTAATACTTTC CTTACATTCTCTGTTTCTATTTATAGAGGTCTTATTCTTTAATTACTCTAACCACATTCCTAAAGAGGCATCCTCGTAAA TATGCCCAACTATATCAAGGGCTGGCGCACTTGATTCATTGGCTCGTGTGATGTAAGCTTTCCTAATGGGGATCTGTTCC TAAAGATGATTTGGTTGTTTACTGTGTATTTACTATAGGGTTGTGATGCCATTCTGTTTGAATTGCTTGTTTTGGTGCTT ACTAGAGAAATGTCTTGCATAAGAATTTAGCTAGGTGGACTGGGTTTCTTGTCTGTTGGAGATGATTGGGTTGTTAACTG CATGTTGACTTTAGGGTTGTGAGTGCCATGCCCTTAAAATTGGTTATTTTGGTGCTTATTGAGTGGAGACTAGAGAGATG ACTTTTATAAGAATTTAGCCTCCTTTAAAATACAAGGAAAAGTTTAAAGCTTTAAAGTATTGGTGGATAACTTTTGATGA AAATAAAAACAGATGATGTCATAGTAACTTCATGAACAAGTAATCTGGTGCTTGCACTTGAAAAAGACCTGAACCTTTGA TGTCTTCTAATCAGTTGTTGTCCGCATGCACTTTGTTTTCTATAAAGTACCTTCTACACTTAGTGCCTTAGTGGAGTTAA ATCGTATGCATAGAACCCGTGCTTTGCCCTCCCTTGTGTTGCTTTTATAATTCCTCAATCTTATTTGTTGCTTTCAGTAT GTACGGGGTCTTGCCATAGAAACATTTCCTCCCGGTTCCAATGTATTTGGTGACAGTTAAAACTTAGCCTGCTCTTTCAT CTTTGGTCTGGGGACCGAGTTGCGCATAAAATCTTTTATGTTCACTTTAATCTCCTCTTCCCTCCTTGTTTATGCCTGTT TTTAGTTAGTTTTTTTGGGTGTCTGATTTTGTCATTTATTTGTTGAATATGTTTTGGGATGTGTGGATACACATATGCTA GGATTACAGTATAAAACTAGTTGTAATTTGGTGTGAACAATTTCATACATATACTTTGATTGCTGCTGATAAGGTGAAAT TGCTTGATCTTTTCTTTCATATTGGCCAATTGTCACAATGGCGAGGTTTACAGAGGTATTGAATTTGCAGGATTGATGAA AACATGGATGATACATTGGCAAACGTGGAGGGGGCGCAAGGTGCTTTGTTGAAGTATCTGAACAGCATATCTTCTAATAG GTGGCTCATGATCAAGATTTTCTTTGTATTAATATTTTTCCTTATGGTTTTCTTATTTTTTGTGGCATAGTCATTCCAAT GACTGAAATGAAAACGAGCTTTCTTACTTATGTCAAACCTTCTTCCGTATTTCATTCATATTTAGTTCTCCAAATATCTA TCTTTGTCAAACTTGTACGTATATTAATACATATGACGAGGACTTTATTTTTTTGGACGAAATAACGAGGTTAAATTCTA CTTTATGCGTTGCATATTGTTCCCTCTGTCCTTCTTTGTGCTACTATAACGTTGGAGGCATTTAATATGGACCACACAAA AGTGGTCCATAATAAATTTTTCCCTATAACGTTATGAAATAATAATCATAAAACAGAATATTTCCCCACCTTCATGATCT TACTGGAAACCACTACACCACCACTGGAGTCCCTGACTTTTAACACCCCCTCCGATCCTGACATTGAACCACCTGCGATC ATTGATGACTTCAACAACTTTTTCGGAGCAGCATCAGCCTTGAAAGGAGAAGAAGGTGAAACTCTCGATTGACAACCACC TCCTGCCTACTGGGACCACAACACGATACTCCCACTCCATCGCGTCTTCCGTCACCTGTCCTCCCCTTCGTGACCAACCT GACCGCGAACCAGCCCCAATTCGAGATGCTAAGTAGAGTGCAGATAGTGCGATCTTTCTTGAAGTTCTCTTCATTTTCTC TTCTCTTCTATTCCTTTTCTACATCACTATCCCCTAATTTCACCCCATTCTTCAAATACAGGTTGTAGTTAGTTGCATTA TTTTCCAAACACCAAAATGAGATACACTACATAAGTTTTGACCATTATGTGTTCTTTCTACCTCGATTGGGGCCTTGTCC TCATTAATGTTGAAGAGGAGAGGAAGAAAGAATACGATAATGAAATGAATGTGAGCATTGAAGGAGGGGAAGGTGTCGCG TAGAGGTTGGGAGGTGGTTCTATGAGCACAATGGATAGTTGGTGGCCTTTTGTGCACAATAGATAGTAATCGGAAGATGG TTCACGAAAGATTGGACCAAGCAGGTGAAATTTTGAAAATGATAATTCTTGAGGTTATTTTGGTAATCTTGAAAAGTTTT CTCAAACTTTTTTACATTGTGATCCATCCATGGACCATTAAAGACCATGATAGACCAAGACCATTTTAGACACTGCAGTC TTCAACGACACAACAATAACGTTTTTTATTTTTATATGAGTAAAGTACACTCACCCCCTTAAGGTTTGTTAGAATTACAC TCTACCCCATTCTTATCTAAAATCTACATCCCACCCCATTTTATATAGAGGCAAATTTAGTGACGAAAAATATTCTTCAT TAATAATTAGTTATTATTTAAATTGTTAATCAATAATTTCAAAAAAAACATTTCAATATAATCCAATAAATTTAAAAATG AAAACATCACAATCCTCCTCATTCTCTCAATCGTGTTTTTCCTCCGTAAATTCACAATGCAAATTATGCAATAGCACACC TGCCCGATTTACAAACCATATCTCGAACATAGTGAAACATGCTTGTGTTTTCATATTTTGTAATAATTCAATTTTAATCA AAATAATCTCTTTATACCTCCAATTTTCAAAATTGGGTTGTAGGCCAAAAAAGCAACACAAATGGGTGAAGAAAATAGAG AAACAAAATTATGAAAATATGAAGTGGATCTCAGGTTATTAGAGCCCAACGAGGCGGTGGAGCATCGTTTTTAACAAAAT TCAACAATATCTTAGACCAACAGAGCGTTCGCTCACAACTTAAAGGGGTGAAATTCACAAGAAGTAGTTGAACAAGTGGC TTTAGGGATGTGCGATTCACGTTCTGGGGTTCAGGTCGCAACAAAACTTTGAGGCATGGTGGTGCCATGGGGTTTCACAT TGTGGGACAGTGGAGCCGTGTTAAAGGGAGTAAAGGCTTGGTGGTGGCCGTTTGTGGTGAGAAATATGATTTGGAGATAG ATGAGACGTGGACTTAACAGACAGATTTGATGGTTTTTTTAAATTTAATTCAGTAAAATTATTTTCATAAATTAATGTAT GATAGTGTATATGCATTAAATTTATTTAAATTTTTACTAATTAGTAATTAGTTTTTAGTAGTGACGAATTTGTTTTCGTC ACTAAATTTTGCCTTTATAAAAAATGGGGTGGAGTGTAGATTTTTAAAAAGAATGGAGTGGAGTGTCATTCTTGCAAATC TTGAAGGGGGTGAGTGTATTTTACTCTTTTTATATCCCTCTTTTATTTTTCTTAAACTAAACCATTTGTAATTTTTTGTT GCTTAAAATAGTTCAAAACTTTTTTTTATCCTTTAAACAAGTCAATTTAATGCCCATTGCTGCCATGGATAAACAAATAT AATTCAAATACACAACTAACATTGTCAACAAAAACAAAAGTAAGGAAGTTCCCTAAGCTTATATATACATAAAGTGAGAA ATTAAGTTCTTAAATTTGTTTATGTACATTAAAAATTATAAAAATTTAAATCAAATTAACTGTCCATAGTCTTCTGATTT TTTATGTCAGATTAAGACAAAGCTCAGCTAAGATTAATTCAATTCATTTCATGTTGACAAGCACAATTAACACAAATAAG CGATTAACCAGAGAACAGGATCAAGTTCCAAATAGAGTAACGAGCTAGCTACTGCTACAACGCTCGCAATGAATCATCAT CTTCATTCCCAAATGCAATCCAATCCCAATTAGACAGATCTAGGGTTTCCCTTTCTTTCTTCTTCACCGGAGCACCACCG CACGATCAACATTAACCCACCGCGAAGCCATGAAATCGGCACAGTCCTCATTCCGAGATCGGACACACGAATTCCAAAAC ATTGCAGAGAGGTTGAAGAAATCAGGATCTGGACCCAATGGACCTGCCACCACCACCACCGCCACCGCCTCCTCATCCAG ATCGGAGGAACACCGTTCCGCTGTTGCTATGCAATCAGAATTCAACAAAAGAGCTTCCAAAATCGGCTACGGGATTCACC AAACCTCTCAGAAGCTCTCCAAGCTCGCAAAACGTAAGCAATTCCATTCCGTAACTAACTAACTAACTAACTACTCAATG CTAATTTATGCGATTTTGTAGAACTGTGTTAGTGGAATCAATAGCTTTGTGTTTGTGTTGATTCGCAGTGGCGAAACGGA CTTCGGTTTTTGATGACCCTACCATGGAAATCCAAGAGCTTACTAGTGTTATCAAGCAAGATATTACTGCGCTGAACTCT GCGGTTGTTGATCTTCAATTGGTTAGCAATTCTAGGAATGAGAGTGGAAACGCTTCGGCCGACACGACTAGCCATTCGTT CACGGTGGTGGATGACCTCAAGACGCGGTTGATGAGCACCACCAAGGAGTTTAAAGATGTTCTCACCATGAGAACTGAGG TAATGCATTGGTTTAGCATGGAAATTCATGTTAGTGCACATTTTCTATAGTCATTGATGTTTTGATGTTTGTTTTGATGA AGAACTTGAAAGTACATGAGAATAGAAGACAACTGTTTTCGTCCTCTGCTTCCAAGGAATCTGCAAATCCTTTCGTCCGT CAGCGGCCGTTAGCTACGAGAACGGCTGCTAGTGAATCTAATGCTCCTGCACCCCCATGGGCTAGTGGGCTGGGGTCCTC GTCGTCTTCTCAGTTGTTTCCTAAGTAAGTCTGTCATGCTTTCTTTCTTTGTTGCTTTGTTGCTTGTACACTGTAATAGG CCTTAGTTAAGCATGTGACTGACTTGAATAATTGAATTACTATTCTTTTTCATCAAATTAGCTTGTAGTATTATGCTTGA ATAGATTATCAAGTGCATAGTTCTTGTTCCATGAAACGTGTGATTCTGTGTAAGCCTGTCTGATAGTGGAGAATATAATA AGAATTATGGTCATATACCCTTCTTTTATTTATTTTCCTCAAATTGTTGTCGCAGTATAGCTTAATTTTCAAGAACAATA TCGTAGCGATTGTACTGATCTTAGTTTCCTATCACGAGCTTTGTGTTTATCAGTCTGTTGTGATAGTATTTTGAGATTAC CTAGCACAATCCTGAGTTAGTTATTTCATTTGCTTTATTGTGGAATTCTTTTGCTTGTGTGCTTACAAGTGGACCTGTCA AACAAGGCTACCTTGCTCAGACTTGTTTTGTTGGGTTGGTTGCGCCCAACAAAACTATGCCCCTAATGAAACTTTTCCTT GCCTAGAGATACTGGGTGTTTAAGCAGTCCAGCCAAATATAAATGTAAAAAGCAGGCTGGTCTATTCCATCTATTTGCCT TTTTGTCTTCGCATTTTAAGGTTGCTTCATGTTGGGTTGAATTATATATGAAACCATGGTTTCCTACAATTTTCTTTTTG ATATCCACAGGAAGCAGGTTGATGGGGAGAGTCAACCGTTGCTGCAACAACAACAACAGCAACAGCAGCAGCAGTTAGTC CCACTGCAAGACAGTTACATGCAAAGCAGAGCTGAGGCTCTTCAGAATGTTGAGTCCACTATTCATGAGCTCAGCAACAT CTTTAATCAACTAGCAACACTTGTTTCCCAACAAGGAGAAGTTGCCATCAGGTTTTTTGTCTCACTTGTGTATTATCCTT TATTACTTTATTCCAATACGATGTATGATGTATGTTACTATTTGGTACTTGCTTACTTGATTTGTCAGTAATTCCAATTT CAAATGAGCCGATGCCACTTATATTCACTGTGAGATTAAGTTTGAGCTTTGACTTTAATTAGCTTGTATTATGTGTAGCA AACCCTATCTTTGGTTTGTGGTTGTCTGTGGGAGATCATTTGGTTGTTTACTTCTAAATTATGAGTCTTCTGACCATAAG ATTGTCATCTTTGTCCGTACCATGTTTGAATTGCTTGTTTTGCTGCTTAATGAGCTGAGAAATGACTTGGATAGAAATTT AGCTCATATAAAGTACTAGGCGAATTCTAAAGTGTATGTACATAAGGTTACTTGTATGAAGGAGAAGATTGGGTATTTTA CTACATATTGATAAAGGTGTGGATTGAGTATTGACTGGTCTGTTTAACTGTTAAATTGCCTGTTTTGCTGGTTTCTGAGT GTGAGTGGTGAATTGACTTTTTAGCCTCCTCTAAAATACAAGGTGAACTTTACAGAGTAAGGTGCAAGTAGATAGCCGTG GATGAAAAAGTTAGCAGGTTGAGTCATGTTAACTTCAGGGAAAGTTCCTTGGACTTCAAAAAATTATGAACCTTTCATGT CTTCTAATGAACCTTTCACTTGAGCTTTGTTTCTCTAACATGCAGTTTACACTCATAGGCCTTGCCTTCAGCTAATAACT TAATTACTTCTTTGATCCTATTTGTTCTTATGGAAATCTAATGATCTTGGCATAGAATAGATACATACATTTTATCCTGG TTACCAACAGTTATAATTATTCTCTCCTCTTTGGTTTAGGGCTAGATTGGATATTACCAATGAAAGTTGAGGTGTTCAGT TTATAGTTTATGCCCTTTTCCGTCCTTGTTTAATGTTTATGACTCTTCTTGTATTTTGTTTTTTTCCGAGTGCTTGTTTT GTCGTTCTTGTTTATGACTCTTCATGTGTTTTGTTTTTTTCCGAGTGCTTGTTTTGTCGTTTATTTCTGTAGTTTGTCAT GGGATATGTTGAAGTTTGGGTGTATATAGGAGTAGGATACTGTAAACTAATTTGCGCTTGTCCTTTATCGATTCTCTGAT GAAGATTGATTTGATGGTTGGCTTTTTCTGCTGGAAGTGTCAGAGGCAGTTAAAGCCTTGTTTTTCTATAATGCTTGTTT CATCTAATACTTGTATTTATCTTGATTACATTATCCTGATTTTGGATGTAGTCTTTTTATTAATTTCTTAATTTCTGCGA TTCCTATTAAAGAGAATCTGCTAAACTGAGAAGTAAAAGAGGAGAAAGTCCTGCAATCAATATTTTTAAAACCAATGAGA TAACTCGTTTATTACCTTAAACATGCATTAATTTAGTAGCAAAAAGGTGAAACTCTAGGTAAAGTTTGTACAATGTTGAG AATGATGAATCATGAATGAATCCAATTTTGAAGATCTTGCATAATCTTTTCACTTTAGGTGTTATGATTCGACTCCTTAT GCGTTATTATGAAAATATAATTTTTTTTAGTATTTTGTTATTTTGAATTTCTGATGATTAGATGTGGTATTAGTTTTTAT CCCTTTAAATCTTTGTAATTTTTTTTGTTTGTGTGTATCAGACTATCAGTATATGTTATTTGCTGAATTAGTTTTAGCAT GGCAACCGGGCAGGCAGGTGCAGGTTTTGCCTCAACCTAACCCTGCTCTTCGTTCTTAAGGATAAAAAATTTGAACCTGT TCTCGCGCTTTACCTGCTTGTCCAGTACCTATGAATTTTTCAAATTAATTTTGTACAGTGTTTAAAATCATAATCACAAA GTTAATGTACTATCTCATATAAAATAAGATTCATGTCTAGTATTAGTGTGTGAAAATGATAAGATAAGTTAATATCATTG TACTTATTGTAGCTAAGCCTAAGATAAGCATAAAAGTTATGGTGACAAGGAGTGTGGGGTGTTTTGACCCTATCCCTGCA TCTGCCTTCCCTGTCCAATGTTGGAGCCGGTTTCGCTTATGTTTGTTTTTAAGTTACGTCGACATAATGTAAATGAGACT CACAGTCCTCTTTCACGTGTGCATGGGGATTCATTATTCAGAATTATGAGGTGGATACTGGTGTTGTAATGGAAAAACAA ACATGTTTCGTGGCGGGGCTAGTTGAGTATCCAAATGTTAGGATGGGGTTACTGAGCGTACCTCATTAGATATTAACTAA AGTGGCAGTGTACTGAGTTGGCTTTGGCTTTCCATGGGTTGCTTGAACTTGCTTGTTTGACCACCTTTCCGCTCATTTTG AACTCGTGTAATTTGATTTATGATTAGTTGAATAGTCTTTGCTTGATTTTTGCCTTTTCATATTGGCCAATTGAGACACT GGTGGGCTTAACAGTGGCAGTACTTAATTTGCAGGATTGATGAAAACATGGATGATACATTGGCAAACGTAGAAGGGGCA CAAGGTGCTTTGTTGAAGTATATGAACAGCATATCTTCTAATAGGTGGCTGATGATCAAGATTTTCTTTGTATTAATATT TTTCCTTACGGTTTTCTTATTTTTTGTGGCATAATCATTTCGGAGAAACGACGATTCAAATGGCAATACAAATGACGGCC TTCTCACTGATGATTAGCCTCCTGTATTCCAATAATATTTCTATCTCCAAATATATGTTCATTCCGGCAGAGTTTAGCTT AGGACCTTGTGTGTCAAATTTTATACTTGTAAGTATTGATACATATAACAAGGTAAAGAACTATATGCATTGCATATTCT ATGTGTATCTTTGTGATTTGTGGTGATTATTATGCAGTGGGGGCTCTCTGTAATATTGAGGGCAAAGAAAAGCAATGACT AGATAACTCTGTTCATGGGTCCCAGAAAAATAAGCAAAGCAAAATCTGATTGTATTGTATTGCAATTACAATTGCTATAT TAATCATTTCCAGTGTTCTGCTGAGTGTTGTCAAATACTAGCAGATATCGCGGCGCTTTAGCGTAATGCAGTGAGGGTTG GCCGCTATCCGCTATTTTCTGCTACTATATTTAGAACTGGAAATAATAACATATCTTGAGATATCTGTAACTTGTTATGA TTGGAAATAGCTCAGGTGCAAACCATACCATTTTTTGTGTGAGCTGAATGTACGACATAGTATACTATTGTTTTGAGAAA AAACCGCAAATAC
CDS sequence (LotjaGi1g1v0390200.3) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGCACGTCAAATCGGCGCAGTCATCGTATCGGGATCGGACGCACGAATTCCACAGCATCACAGAGAGGTTGAAGAAATC AGGATCTGGACCCAATGGACCTGCCACCACCACCACCACCTCATCCAGATCGGAGGAACCCCGTTCTGCCATTGCTATGC AATCAGAATTCAACAAAAGAGCCTCCAAAATCGGTTACGGCATTCACCAAACCTCTCAGAAGCTCGCCAAGCTCGCAAAA TTGGCGAAAAGGACTTCGGTTTTCGATGACCCTACCATGGAAATCCAAGAGCTTACTAGTGTTATTAAGCAGGATATTAC TGCGCTAAACTCCGCGGTTGTTGATCTTCAGTTACTCAGCAATTCTAGGAATGAGAGTGGAAATGCTTCTGCCGACACGA CTAGTCATTCCACCACGGTTGTAGATGACCTCAAGACGCGGTTGATGGGTGCCACGAAGGAGTTTAAAGATGTTCTCACC ATGAGAACTGAGAACATGAAAGTACACGAGAGTAGGAGACAATTGTTTTCGGCCTCTGCCTCGAAAGATTCTGCTAACCC TTTTGTCCGTCAGCGACCTTTAGCTACGAGGTCCGCTGCTAGTTCTTCTGATGCCCCTGCACCTCCATGGGCTAGTGGTT CGCAATCTTCATCCCAGTTGTTTCCTAAGAAGCAAGTGGATGGGGAGAGTCAACCATTGTTGCAACAGCAGCAACAACAA CAGCAACAGCAGCAACAGATAGTTCCTTTACAAGACAGTTACATGCAAAGCAGAGCAGAAGCACTTCAGAATGTTGAGTC CACTATTCATGAGCTCAGCAACATTTTTAATCAACTAGCAACACTTGTTTCCCAACAAGGAGAGGTTGCCATCAGGATTG ATGAAAACATGGATGATACATTGGCAAACGTGGAGGGGGCGCAAGGTGCTTTGTTGAAGTATCTGAACAGCATATCTTCT AATAGGTGGCTGATGATCAAGATTTTCTTTGTATTAATATTTTTCCTTACGGTTTTCTTATTTTTTGTGGCATAA
Protein sequence (LotjaGi1g1v0390200.3) extracted from Lotus japonicus Gifu v1.2 Proteins.
MHVKSAQSSYRDRTHEFHSITERLKKSGSGPNGPATTTTTSSRSEEPRSAIAMQSEFNKRASKIGYGIHQTSQKLAKLAK LAKRTSVFDDPTMEIQELTSVIKQDITALNSAVVDLQLLSNSRNESGNASADTTSHSTTVVDDLKTRLMGATKEFKDVLT MRTENMKVHESRRQLFSASASKDSANPFVRQRPLATRSAASSSDAPAPPWASGSQSSSQLFPKKQVDGESQPLLQQQQQQ QQQQQQIVPLQDSYMQSRAEALQNVESTIHELSNIFNQLATLVSQQGEVAIRIDENMDDTLANVEGAQGALLKYLNSISS NRWLMIKIFFVLIFFLTVFLFFVA
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 |
|---|---|---|---|---|---|---|
| MobiDBLite | 1 | 51 | 51 | - | – | |
| Phobius | 1 | 322 | 322 | - | – | |
| MobiDBLite | 1 | 23 | 23 | - | – | |
| PANTHER | 2 | 343 | 342 | 1.4E-166 | – | |
| PANTHER | 2 | 343 | 342 | 1.4E-166 | – | |
| Pfam | 8 | 26 | 19 | 4.1E-4 | ||
| MobiDBLite | 30 | 51 | 22 | - | – | |
| SUPERFAMILY | 54 | 307 | 254 | 1.53E-44 | ||
| MobiDBLite | 169 | 240 | 72 | - | – | |
| MobiDBLite | 172 | 186 | 15 | - | – | |
| MobiDBLite | 195 | 240 | 46 | - | – | |
| Gene3D | 235 | 344 | 110 | 3.6E-16 | – | |
| SMART | 247 | 314 | 68 | 2.0E-15 | ||
| ProSiteProfiles | 252 | 314 | 63 | 17.281 | ||
| CDD | 255 | 333 | 79 | 9.87594E-42 | – | |
| ProSitePatterns | 258 | 297 | 40 | - | ||
| Pfam | 289 | 340 | 52 | 5.3E-15 | ||
| TMHMM | 321 | 343 | 23 | - | – | |
| Phobius | 323 | 343 | 21 | - | – | |
| Phobius | 344 | 344 | 1 | - | – |
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 | SNAP receptor activity | Acting as a marker to identify a membrane and interacting selectively with one or more SNAREs on another membrane to mediate membrane fusion. | ||
| Biological process | Intracellular protein transport | The directed movement of proteins in a cell, including the movement of proteins between specific compartments or structures within a cell, such as organelles of a eukaryotic cell. | ||
| Cellular component | Membrane | A lipid bilayer along with all the proteins and protein complexes embedded in it an attached to it. | ||
| Biological process | Vesicle-mediated transport | A cellular transport process in which transported substances are moved in membrane-bounded vesicles; transported substances are enclosed in the vesicle lumen or located in the vesicle membrane. The process begins with a step that directs a substance to the forming vesicle, and includes vesicle budding and coating. Vesicles are then targeted to, and fuse with, an acceptor membrane. |
Expression pattern of LotjaGi1g1v0390200.3, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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