Your browser is unable to support new features implemented in HTML5 and CSS3 to render this site as intended. Your experience may suffer from functionality degradation but the site should remain usable. We strongly recommend the latest version of Google Chrome, OS X Safari or Mozilla Firefox. As Safari is bundled with OS X, if you are unable to upgrade to a newer version of OS X, we recommend using an open source browser. Dismiss message
| Field | Value |
|---|---|
| Gene ID | LotjaGi2g1v0334800 |
| Transcript ID | LotjaGi2g1v0334800.2 |
| Related isoforms 4 | |
| Lotus japonicus genome version | Gifu v1.2 |
| Description | ABC transporter ATP-binding protein; TAIR: AT4G25960.1 P-glycoprotein 2; Swiss-Prot: sp|Q8LPK2|AB2B_ARATH ABC transporter B family member 2; TrEMBL-Plants: tr|A0A0B2P6C0|A0A0B2P6C0_GLYSO ABC transporter B family member 2; Found in the gene: LotjaGi2g1v0334800 |
| Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr2:81078852..81087600) extracted from Lotus japonicus Gifu genome v1.2.
AAAAAAGTTCTCTGTTATAATAAGTTGTTTGTTTGTATTTTTCTTTTAGTAAAAGTATGGTTGTGGTGAATATAACACAG AAGTGAGGTAAAAAATTTATTTTCATCAAGAATTATTTTTAGTGTCAAACTCACTCACAAAACATAATATTTATTATTCA GAAGCAATTAATTCTTCATGTACCTAGCTTTACCTAAAAAAAGCAAGATTTTGGGATATACTTAATTCATTGACTTTGAA GTAAGTGGTTCGGAGTTAAATATTGCTGTCTCATTAACATATTTTGGGGTCCATGTTCCCTCATTGACTTAAAAAATTCA TTTTAATCCATAGGTGCATTGAATTGGCTTGTGGATTGTCTATGAAAAAATCTAACTAAGCTTGCACTAATAAGTAATGA ATGGAGGTTTTCCAAGTGTAACAAAAAAAACATGTTGTAATAAATGGAGAAACTTGCACAGATTGTTGTATTATTGGCAG TCCAAAGTCCAACGATTGAACATAGCTTCAGGTTGAGGAGTGAGTTGACCAGTCTGGTTCCAAGTAGTTGAAAAAATTTA ATACTACCATAACCATTGACACCTTGTTCTGCTTCATGGACTCGTGTTGTTATGCATGCATGCTTCGTTTCTCTCTGTTG TTGTTATGTTTCGTGGACTCGAGGCAAAAAGTAAAGTTTGCTAGTATTTCTGAGTTCTGACACCACCACCATCACCATGA GAGTCTAACTTAGCGGTATCAGTAGTATTTATAACTTCGGTGGGATGGCATGGTATGGTAGTAGTAGCATTCATTTTCAA GATCTTTGCCGCTTTTTCCGCTGTGCCTCCATGGATGCAATAATGGCTACCACCGGTAACAGTCACCGCTCTCCAATCAC GTAAACATCACAGTCACCGATAAAAAACATTTCAAGTCTTTAAATTTTCTGACAATCAAATCCTGCACTCACCGCATTCC TTCAAAAATTGGTGGTGGGCAATTTTCTTTTTGGTCCACCGGTGCTCCATGGGCATTTTAGACTTTACATTCAGGGGCTT TTAGACTTTTTCCCCTTCTCTCCTTCTCCCTCTCACTTCAATCATCCCCAACAGCACCCTCTCATGGACTCTTTGTTTTC TCTAACCCCAAAACTCTTATAATTGAATTGCAACCCTCTTGTTCAAAATTAACCCACTATCACTATGTCGATTTCATAAC AACTCTATGCAGGAACCAATACTCATAACGTTATCTCAAAACTCTTACTAAATGAAAGCACAATCCAAATAACACTTGAG AGCAGCAAGAACCCAGCAAAAAAAAACGAACAGGACAAACTCTGCAACATTACTCTGTAAAGATCAACTAAGCTTCATGG GTTAAAACAGTTTTTGCATAAACTTAACATCAATTTCAAGTTTCAACCTCGCAAAACAGAAACACATGGCTTTGGTACAG AGGTTGGGAAGTGAGGTTATGATGGGGTATATGACAAGGTTGATGGAGGCGAAGAACCTCGTACTGCTGCGGTTAGGGTC ACGGTGGCTGGAAGGTGGTGCTGGGTTCTTGCCTTGGTGGTTTATGCGTTCTTCCTGTGGTGGTCAGGGTCAGTAAAGAT TGGTTGGGAAAGATGAGTTTCTCATTTACATTTTTGCCCTTTTATCATCCATTAAATCCTGGCCATTTAATTGAAAAATA TTCCAAGATGCTAAGATCCGATCACCGGACCCAACCGCCACTCAAGCTCATCTTCTACACCCGCACCGTCCATGAAAGGA GACCCTCGCTTAGCTCTGAGTCCTCGTGATTACTGGCACGGTTCCTTAGCCCCGCCGCCACCATTCACGCCCTTGGCCTC TTCTCTTGCAATAACTATTCTCGTCCATTCTCAACCCGCATCTCGCCGCCTAGATCGCGATTCCATAGGCTCCGGGTGCC AGAACCTGAGCGTCACCTGGATCAGGGCGCTTGCTGCGAGAACCCTGTTTTGTATTTTGATCAGTTTTGTTCTCCTTGCC CAAATCTGAAATGTCTGGCATGAAATTCTCATACCGGTGGCTATTAAATAATTTTGATCATGCAATGATTTTGTTAATTA ATTCTTCTCTAATGGTTAAGATGGATCATAGTTATAAAGATTAATGGATTTTACAGGTAGGGAACTTCTTGCACTACATA AGCCGATTCATAGCGGGGTTTACTATTGGATTTGTCAGAGTGTGGCAGATTAGTTTAGTGACACTTTCAATTGTGCCTTT GATTGCTCTTGCTGGAGGTCTTTATGCATATGTCACAATTGGTCTCATTGCAGAAGTTCGAAAAGCTTATGTTAGAGCTG GTGAAATTGCTGAAGAGGTAAAGTTAGCTATTGTTCTGTCCCTCTCATGTTTGACAAAATGCTTGAATGAAACCTAGTAG TATCTTCTATATTTTTTCCTGTACATAATTGTTCGAAATATAAAACTATTCATGTGACCATACCCAACAACTTAAACTTT TGAGATAATTGGTTGTTTAACATGGTATCAGAGATTCTATGACCACAGTTCGATCCTTGCAACTCTCATTATTCTAATAA AAACGTGGAATTTCAGCACTTGTACATTGTCCACGCTTCAAGCCCAAGTGCCCTCTTGCGTGAGGGGCGTGTTAGAAATA ATAATATAAAACCATTTTGCTTGTTTGAAAATAATCAAATGTGGTTTGAATTTGTCATTGTTTGGTTTCAGGTGATAGGC AATGTTAGAACTGTACAAGCATTTGCAGGAGAAGAAAGAGCAGTGAAATCGTATAAAGAGGCTCTCATGAAAACTTACGT CAATGGTAGAAAAGCAGGTTTAGCTAAGGGTCTGGGACTAGGCTCAATGCATTGTGTCCTTTTCCTATCTTGGTCTTTGC TTGTTTGGTTCACTAGCATTGTTGTTCACAAGAATATTGCCAATGGGGGAGAGTCTTTCACCACCATGCTCAATGTTGTC ATCTCTGGCCTGTAAGCCCTTGTTAACTATTGTTATGTTGGGTCCTGATCATTTTATTGTGTTTTATAATGCATGCTGTT AGAGCAGAATCAGCAGATAATAGTAATACTTCTTCATTATTATGTTCAAAAATTAAATAGTGTAATATTATTACCTTCTT TGGTGACACTGCAACATTTTTAAAATTGTCATTCAAATACATAGCTAGTTTTATAATATGAAGTGTAGAAACCAAATCAA TATGTGGTCCAAATCACATATCCTACTGCTACAACTCCTGCTTTTAGTCCTATTTTTTTTTTCCTTCTTCAATAAATTGC ATAACATTTCCATGCCGATTCTTAATAATGGATTTTTACTTTATCACTCTGTAATGGACATTGTTTAATGCATTAGTTGT AGTATAGGAGAGTAAGGAAAATCCTACCATAGCACTTCGGTATTTTATCTGTTATATTTTGTGTACATATTGTCTTTTCT AAACAAAGGAATGTATATTTTGTTTCTCAGGTCACTTGGGCAGGCTGCTCCAGATATCTCTGCATTTATACGAGCAAAGG CAGCAGCTTATCCCATTTTTAAGATGATAGAGAGGGACACATTAAGCAAAAAAAGCTCAAAAATTGGTCGAAAATTAAGC AAATTGGAGGGGCATATCCAGTTTAAGGATGTCTGTTTCAGTTACCCATCTCGTCCGGATGTAGAAATCTTAAACAAACT CTGTCTTGACATTCCTTCAGGGAAAATTGTAGCTCTTGTGGGAGGTAGTGGTTCTGGAAAGAGCACTGTCATATCATTAA TTGAACGGTTTTATGAACCCCTTTCTGGTGATATACTATTAGATGGAAATGATATCAGGGACCTTGATCTCAAATGGCTT AGGCAGCAAATTGGGCTAGTTAACCAAGAACCTGCCCTTTTTGCTACAAGCATCAAGGAAAACATACTGTATGGAAAAGA TAATGCCACTCTAGAAGAGCTAAAACGTGCTGTTAAGCTTTCAGATGCTCAGTCTTTCATTAACAATCTTCCTGAAAGAC TAGAAACTCAGGTAAGATGTTTGATCTCTGCATCATTTAGATTTTTGATATAAAAACAACATCCAAATAAATTCCAAAAT ATGTGTTGATATATTTTAATCATGATGATCATACATGTTATATAAATGGTTGTACTTCATTCCTATTGCTGTAATTGCAA CAATGGTTTGACAGGATTGCAAACAGTTGAAGATAAATATTCATAAGTTGTCTATTTGAAGAAAATCCTGCAGGCAGCTA AGACGTCACTTCTTTGAAAAAACCTGGGTTTTCATACTAGAATGTAAAAATAGCATTTTGATAATACTGTATGATGATAA GTGATAAGTGTGTCCAGCTCATAATTTGTCAAACTACTGCTGAAAAATAGCTTCTATAACAAAGAAACATAGGATGGGCA TTCTTTAAGAGGCTATACTTAATTTGTATTTCAGGTTGGTGAGAGAGGGATACAACTATCAGGTGGGCAGAAGCAAAGGA TTGCGATATCTCGTGCCATTGTGAAGAATCCCTCAATCCTTTTGTTGGATGAAGCAACCAGTGCTCTGGATGCTGAGTCT GAGAATAGTGTACAGGAGGCTCTTGATCGTGTCATGGTTGGTAGAACAACTGTGATAGTGGCACATAGACTTTCTACCAT TAGAAATGCAGATATGATTGCTGTTGTACAGGGTGGGAGGATTGTTGAAACTGGTAACCATGAAGGGCTCATTTCTAACC CAAGTAGTGTATATGCATCTCTTGTTCAACTCCAGGAGTCAACTTCTGTGCAAAGCCTCCCCTTGGATGATCCTAGCTTG GGACGGCAATCAAGGTACTTCATTCTCAATGGGTCACTTAGAAGTTGTAACATTTGCAATTGCCATTAATGAACTGTAAT TAGATGAAATGATATTACTTCTGAGATTTAGTCATGTCAAGTTATTTTGTCATCATATGAGGTATTAATATCCATCCATT GATAGTGTTGTTAGAAAAATGAAACATTTCTCTATCTAAAATTTTTGTTGACTGAAGTGGCTGTAATGGAGAAACCTGAT ATAGGAAATTCAAGCTTCTTTTGCAGCTGAAGTTCGGAATTGAAAGTGTTTGTAGACTATTTTATCTATCACCTTTTATA TATGTTATAGGAACACATACCAATTAGCATTTACTTGTAATTTCAGCATAACCTACTCAAGACAATTATCCCGCACAACA GCAACAGCAAGCTTAGGTGGTAGTTTTCGATCAGACAAAGAATCTATTGGCAAGGTTGAAGCAGAAAAGGGAAGCAATTC AAAGCATGTTTCAGTAGCAAGACTATATTCTATGGTTGGTCCTGACTGGTTTTATGGGGTTTTTGGAACGTTATGTGCAT TTGTTGCTGGAGCACAGATGCCGCTTTTTGCCCTTGGAATCTCTCACGCACTTGTATCATACTATATGGACTGGGATACA ACACGTCATGAAGTCAAAAAAATTTGTTTTCTCTTCGTTGCAGCAGCAGTGATAACTATCACCGTTCATGCCATTGAACA TCTTTCTTTTGGAATCATGGGCGAGCGACTCACTCTTCGTGTGAGAGAAATGATGTTTGCGGGTAATTTTGATAAACTTA TTACTTTCTCTATCACTCATCTTATTGTCTTTGTATGAAACGGTTCCTTTCATGATTCTTGCACCTATCAATTTCACACA ACATTATATCAGAAAAATAAAATCTGATGTGATTTGTAAATATGGATGTGTGTGCTGTTTTACACATTTTTAAGGTTTGA GTAATGTTTAATCAATACTATTGATCAATCCATTTTCTGATGAATTCTGTTATAAAGGTGCATTGCATTTTCAATACATT GTCATTTTTACTTCCAATGTATGTAATGCTTAAAAACAACATAATTATCACAGGCTTAAATTTGATGATAATGCCTGTTT CACTTAAATTGCCTTATTTATCTGGCTGCAGCTATTCTGAAGAATGAGATTGGCTGGTTTGATGATACAAACAACACAAG TTCTATGCTTTCATCACGTTTAGAGAGTGATGCAACTTTATTACGGACTATAGTTGTTGATCGCTCTACAATTCTGTTAC AAAATGTTGGTCTGGTTGTTGCTTCATTTATTATTGCCTTCATCTTGAACTGGAGAATAACACTTGTTGTCATAGCCACT TATCCTTTGGTCATCAGTGGTCACATCAGTGAGGTGAGGTTCCTTCTTCTATATTTCAAAATTATAAATTAGCATACTTG TTTGTGTCTTAATAGTTAATACCCTCCATCATTTCAGAAAATTTTCATGAAAGGCTATGGTGGCAACTTGAGCAAAGCAT ATCTAAAAGCCAACATGCTTGCTGGGGAGGCTGTGAGCAACATGCGCACTGTTGCTGCATTTTGCTCTGAAGAAAAGATC CTTGACCTTTATGCTAATGAGCTTGAAGGTCCTTCCAGACGTTCATTTCAGCGGGGCCAAATTGCTGGCATATTCTATGG CATTTCCCAGTTCTTTATTTTCTCATCTTATGGCCTTGCCTTGTGGTATATATGCTTTAACTTCATTCTTTAATTTGTTA TAAGATAAATGTCACACCAAATGGTGGTTGAGATGTTTATACCTTGTGCAGGTATGGATCTGTTTTGATGGGAAAGGAGC TTGCTAGCTTTAAATCAGTAATGAAGTCATTTATGGTTTTGATTGTAACTGCACTGGCTATGGGGGAGACTTTGGCACTG GCCCCAGACCTTTTGAAAGGGAATCAAATGGTTGCATCAGTTTTTGAAGTGATGGATAGAAAGTCAGGAATAACAGGTGA CACTGGAGAAGAGTTGAAGACTGTTGAGGGAACAATTGAGCTCAAAAGAATCAATTTCAGCTACCCTTCAAGGCCAGATG TGATAATTTTCAAGGATTTTAGTTTAAGAGTTCCTGCAGGGAAGAGTATAGCCATAGTGGGGCAAAGTGGTTCCGGTAAA AGCTCTATAATCTCCCTTATACTCAGATTTTACGATCCAACATCAGGGAAGGTGTTAATTGATGGTAAGTTGTTTTCACT ATCAATATTTTATCTATTCAGTCCATTACTAGTGCAAAAGGGAGTTTTAGAAGTTTTTAAGAAGTAAAATGAGTTAAGCT CAACACATATTTGCATGCACAAGTCAATGACACTAGAGAAGGTTTATTGACTACATGCACGGGTGCCATAAAGGCTCTGT TTATTTGAGCTTATCTTATGGTATAAGCGCTAATGCAAATATTTGGGAGAACTTATGTAAATAGCTTATAAATATTTGGG AGAGCTTATGTAAATAGCTTATAACCTGCCTATAAGCTGTTTTGAGCCAATTTTCTTAAGCTACTTAGCTTGTGGACAAG CGTTTATACATACCTATAACCTATTTTGAGCTTATTTCAATAAGTTTCTCAAATTAGCTTATGAATAGGCGATTATGTAA TAAATGCTTATTGCTATAAGCAAGCGTTTAAGTAAGTTGTTTACCCAAACACACTCAAAAGTAATTATGTGCTACACTAG TACCATAAGATGCAAATTTTTCTAACAATGATGGATCAAATTGTTACAGGAAAAGACATAACGAGACTTAATTTGAAATC TCTGAGGAAACATATTGGTCTTGTACAACAAGAACCTGCTCTGTTTGCAACATCAATATATGAAAATATTCTTTATGGGA AGGAAGGCGCTTCTGATTCAGAAGTAATTGAAGCAGCTAAGCTTGCCAATGCTCATAACTTCATCAGTGCTCTTCCAGAT GGTTACTCTACTAAAGTAGGGGAACGAGGGGTGCAACTATCTGGTGGCCAGAAACAAAGGGTAGCCATTGCCAGAGCTGT TTTGAAGAACCCTGAGATCTTGCTTCTCGATGAAGCCACTAGCGCGCTAGATGTGGAGTCGGAGCGCGTGGTGCAGCAAG CTCTCGACAGGTTGATGCAGAACAGAACAACAGTTATGGTGGCGCATAGGCTATCCACAATAAGGAATGCAGACCAAATC TCAGTTTTGCAGGATGGGAAGATAATTGAACAAGGGAGTCATTCAAGTCTTGTAGAGAATAAAAGTGGAGCATACTTTAA ACTAGTTAGCCTTCAACAACAACAGCCTCAACCATAGATTGATGGAAGACATGACAAAAAAAACATGAAGTTTTTCATAC TGTAACTTTGTATGTTCTTTTGTTCTTCCAACCCTCATCAATGATGTGGATTGGGAGCTGGTGTCAGACCGGAATAATTT CAAATATATGTATGTGCAGGTGAGTGTTAACGTATTATAAACATGTAAAATAGCTTTCTGTATTTAGCATATCACCTCTG GTTATAGCATACAAGAAAGAGTTGCCTGACTAGCACTAAACTTAAAATTCATAAATTATCATCCGATTCATTGAAGAGCA TAAAAAGTGTTGATATTGACATCATATCCACCATTGAAAACATAGTTGAGTTATTGTATACGAATATGATGAAGTTCAGT AGTAGTCTAGTAGATATGCTATGCAGGATTTGGCAGAACCTAAGTGATCTTTAAGATTATAGCCCTTGTAAAAATGGGTA ACGGCATCATTTTCATGCTTTAGAACTGCTGCTATATTGGGACTCTCATATGAACACTACTGTGTCACATTAATGTATTC AAGGTTCAGGAAACTTTGTAGCATGTGTTGAGTTTGGTCTTCGGTCACCATTCATGTATTGATGACAGTACCATGATACC ATCCAACCAAGCAAATAAATTGCAGTGGC
CDS sequence (LotjaGi2g1v0334800.2) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGAAAACTTACGTCAATGGTAGAAAAGCAGGTTTAGCTAAGGGTCTGGGACTAGGCTCAATGCATTGTGTCCTTTTCCT ATCTTGGTCTTTGCTTGTTTGGTTCACTAGCATTGTTGTTCACAAGAATATTGCCAATGGGGGAGAGTCTTTCACCACCA TGCTCAATGTTGTCATCTCTGGCCTGTCACTTGGGCAGGCTGCTCCAGATATCTCTGCATTTATACGAGCAAAGGCAGCA GCTTATCCCATTTTTAAGATGATAGAGAGGGACACATTAAGCAAAAAAAGCTCAAAAATTGGTCGAAAATTAAGCAAATT GGAGGGGCATATCCAGTTTAAGGATGTCTGTTTCAGTTACCCATCTCGTCCGGATGTAGAAATCTTAAACAAACTCTGTC TTGACATTCCTTCAGGGAAAATTGTAGCTCTTGTGGGAGGTAGTGGTTCTGGAAAGAGCACTGTCATATCATTAATTGAA CGGTTTTATGAACCCCTTTCTGGTGATATACTATTAGATGGAAATGATATCAGGGACCTTGATCTCAAATGGCTTAGGCA GCAAATTGGGCTAGTTAACCAAGAACCTGCCCTTTTTGCTACAAGCATCAAGGAAAACATACTGTATGGAAAAGATAATG CCACTCTAGAAGAGCTAAAACGTGCTGTTAAGCTTTCAGATGCTCAGTCTTTCATTAACAATCTTCCTGAAAGACTAGAA ACTCAGGTTGGTGAGAGAGGGATACAACTATCAGGTGGGCAGAAGCAAAGGATTGCGATATCTCGTGCCATTGTGAAGAA TCCCTCAATCCTTTTGTTGGATGAAGCAACCAGTGCTCTGGATGCTGAGTCTGAGAATAGTGTACAGGAGGCTCTTGATC GTGTCATGGTTGGTAGAACAACTGTGATAGTGGCACATAGACTTTCTACCATTAGAAATGCAGATATGATTGCTGTTGTA CAGGGTGGGAGGATTGTTGAAACTGGTAACCATGAAGGGCTCATTTCTAACCCAAGTAGTGTATATGCATCTCTTGTTCA ACTCCAGGAGTCAACTTCTGTGCAAAGCCTCCCCTTGGATGATCCTAGCTTGGGACGGCAATCAAGCATAACCTACTCAA GACAATTATCCCGCACAACAGCAACAGCAAGCTTAGGTGGTAGTTTTCGATCAGACAAAGAATCTATTGGCAAGGTTGAA GCAGAAAAGGGAAGCAATTCAAAGCATGTTTCAGTAGCAAGACTATATTCTATGGTTGGTCCTGACTGGTTTTATGGGGT TTTTGGAACGTTATGTGCATTTGTTGCTGGAGCACAGATGCCGCTTTTTGCCCTTGGAATCTCTCACGCACTTGTATCAT ACTATATGGACTGGGATACAACACGTCATGAAGTCAAAAAAATTTGTTTTCTCTTCGTTGCAGCAGCAGTGATAACTATC ACCGTTCATGCCATTGAACATCTTTCTTTTGGAATCATGGGCGAGCGACTCACTCTTCGTGTGAGAGAAATGATGTTTGC GGCTATTCTGAAGAATGAGATTGGCTGGTTTGATGATACAAACAACACAAGTTCTATGCTTTCATCACGTTTAGAGAGTG ATGCAACTTTATTACGGACTATAGTTGTTGATCGCTCTACAATTCTGTTACAAAATGTTGGTCTGGTTGTTGCTTCATTT ATTATTGCCTTCATCTTGAACTGGAGAATAACACTTGTTGTCATAGCCACTTATCCTTTGGTCATCAGTGGTCACATCAG TGAGAAAATTTTCATGAAAGGCTATGGTGGCAACTTGAGCAAAGCATATCTAAAAGCCAACATGCTTGCTGGGGAGGCTG TGAGCAACATGCGCACTGTTGCTGCATTTTGCTCTGAAGAAAAGATCCTTGACCTTTATGCTAATGAGCTTGAAGGTCCT TCCAGACGTTCATTTCAGCGGGGCCAAATTGCTGGCATATTCTATGGCATTTCCCAGTTCTTTATTTTCTCATCTTATGG CCTTGCCTTGTGGTATGGATCTGTTTTGATGGGAAAGGAGCTTGCTAGCTTTAAATCAGTAATGAAGTCATTTATGGTTT TGATTGTAACTGCACTGGCTATGGGGGAGACTTTGGCACTGGCCCCAGACCTTTTGAAAGGGAATCAAATGGTTGCATCA GTTTTTGAAGTGATGGATAGAAAGTCAGGAATAACAGGTGACACTGGAGAAGAGTTGAAGACTGTTGAGGGAACAATTGA GCTCAAAAGAATCAATTTCAGCTACCCTTCAAGGCCAGATGTGATAATTTTCAAGGATTTTAGTTTAAGAGTTCCTGCAG GGAAGAGTATAGCCATAGTGGGGCAAAGTGGTTCCGGTAAAAGCTCTATAATCTCCCTTATACTCAGATTTTACGATCCA ACATCAGGGAAGGTGTTAATTGATGGAAAAGACATAACGAGACTTAATTTGAAATCTCTGAGGAAACATATTGGTCTTGT ACAACAAGAACCTGCTCTGTTTGCAACATCAATATATGAAAATATTCTTTATGGGAAGGAAGGCGCTTCTGATTCAGAAG TAATTGAAGCAGCTAAGCTTGCCAATGCTCATAACTTCATCAGTGCTCTTCCAGATGGTTACTCTACTAAAGTAGGGGAA CGAGGGGTGCAACTATCTGGTGGCCAGAAACAAAGGGTAGCCATTGCCAGAGCTGTTTTGAAGAACCCTGAGATCTTGCT TCTCGATGAAGCCACTAGCGCGCTAGATGTGGAGTCGGAGCGCGTGGTGCAGCAAGCTCTCGACAGGTTGATGCAGAACA GAACAACAGTTATGGTGGCGCATAGGCTATCCACAATAAGGAATGCAGACCAAATCTCAGTTTTGCAGGATGGGAAGATA ATTGAACAAGGGAGTCATTCAAGTCTTGTAGAGAATAAAAGTGGAGCATACTTTAAACTAGTTAGCCTTCAACAACAACA GCCTCAACCATAG
Protein sequence (LotjaGi2g1v0334800.2) extracted from Lotus japonicus Gifu v1.2 Proteins.
MKTYVNGRKAGLAKGLGLGSMHCVLFLSWSLLVWFTSIVVHKNIANGGESFTTMLNVVISGLSLGQAAPDISAFIRAKAA AYPIFKMIERDTLSKKSSKIGRKLSKLEGHIQFKDVCFSYPSRPDVEILNKLCLDIPSGKIVALVGGSGSGKSTVISLIE RFYEPLSGDILLDGNDIRDLDLKWLRQQIGLVNQEPALFATSIKENILYGKDNATLEELKRAVKLSDAQSFINNLPERLE TQVGERGIQLSGGQKQRIAISRAIVKNPSILLLDEATSALDAESENSVQEALDRVMVGRTTVIVAHRLSTIRNADMIAVV QGGRIVETGNHEGLISNPSSVYASLVQLQESTSVQSLPLDDPSLGRQSSITYSRQLSRTTATASLGGSFRSDKESIGKVE AEKGSNSKHVSVARLYSMVGPDWFYGVFGTLCAFVAGAQMPLFALGISHALVSYYMDWDTTRHEVKKICFLFVAAAVITI TVHAIEHLSFGIMGERLTLRVREMMFAAILKNEIGWFDDTNNTSSMLSSRLESDATLLRTIVVDRSTILLQNVGLVVASF IIAFILNWRITLVVIATYPLVISGHISEKIFMKGYGGNLSKAYLKANMLAGEAVSNMRTVAAFCSEEKILDLYANELEGP SRRSFQRGQIAGIFYGISQFFIFSSYGLALWYGSVLMGKELASFKSVMKSFMVLIVTALAMGETLALAPDLLKGNQMVAS VFEVMDRKSGITGDTGEELKTVEGTIELKRINFSYPSRPDVIIFKDFSLRVPAGKSIAIVGQSGSGKSSIISLILRFYDP TSGKVLIDGKDITRLNLKSLRKHIGLVQQEPALFATSIYENILYGKEGASDSEVIEAAKLANAHNFISALPDGYSTKVGE RGVQLSGGQKQRVAIARAVLKNPEILLLDEATSALDVESERVVQQALDRLMQNRTTVMVAHRLSTIRNADQISVLQDGKI IEQGSHSSLVENKSGAYFKLVSLQQQQPQP
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 | 1 | 987 | 987 | 0.0 | ||
| CDD | 1 | 84 | 84 | 6.42619E-17 | – | |
| PANTHER | 1 | 987 | 987 | 0.0 | – | |
| Phobius | 1 | 11 | 11 | - | – | |
| TMHMM | 12 | 34 | 23 | - | – | |
| Phobius | 12 | 35 | 24 | - | – | |
| Phobius | 36 | 422 | 387 | - | – | |
| SUPERFAMILY | 105 | 349 | 245 | 9.35E-86 | ||
| ProSiteProfiles | 111 | 347 | 237 | 25.75 | ||
| CDD | 111 | 349 | 239 | 1.26584E-136 | – | |
| Pfam | 129 | 278 | 150 | 1.7E-33 | ||
| SMART | 138 | 330 | 193 | 1.3E-16 | ||
| ProSitePatterns | 250 | 264 | 15 | - | ||
| SUPERFAMILY | 414 | 727 | 314 | 4.05E-47 | ||
| CDD | 416 | 731 | 316 | 4.62296E-108 | – | |
| Phobius | 423 | 456 | 34 | - | – | |
| TMHMM | 425 | 447 | 23 | - | – | |
| ProSiteProfiles | 427 | 713 | 287 | 37.558 | ||
| Pfam | 428 | 699 | 272 | 8.5E-48 | ||
| Phobius | 457 | 467 | 11 | - | – | |
| TMHMM | 468 | 490 | 23 | - | – | |
| Phobius | 468 | 485 | 18 | - | – | |
| Phobius | 486 | 554 | 69 | - | – | |
| TMHMM | 548 | 570 | 23 | - | – | |
| Phobius | 555 | 582 | 28 | - | – | |
| Phobius | 583 | 649 | 67 | - | – | |
| TMHMM | 650 | 672 | 23 | - | – | |
| Phobius | 650 | 671 | 22 | - | – | |
| Phobius | 672 | 690 | 19 | - | – | |
| TMHMM | 687 | 709 | 23 | - | – | |
| Phobius | 691 | 708 | 18 | - | – | |
| Phobius | 709 | 990 | 282 | - | – | |
| Gene3D | 716 | 743 | 28 | 3.5E-134 | ||
| SUPERFAMILY | 739 | 984 | 246 | 1.17E-91 | ||
| Gene3D | 744 | 986 | 243 | 3.5E-134 | – | |
| CDD | 746 | 984 | 239 | 1.84842E-132 | – | |
| ProSiteProfiles | 746 | 982 | 237 | 25.13 | ||
| Pfam | 765 | 913 | 149 | 2.2E-36 | ||
| SMART | 773 | 959 | 187 | 3.7E-16 | ||
| ProSitePatterns | 885 | 899 | 15 | - |
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 | ATP binding | Interacting selectively and non-covalently with ATP, adenosine 5'-triphosphate, a universally important coenzyme and enzyme regulator. | ||
| Cellular component | Integral component of membrane | The component of a membrane consisting of the gene products and protein complexes having at least some part of their peptide sequence embedded in the hydrophobic region of the membrane. | ||
| Molecular function | ATPase activity | Catalysis of the reaction: ATP + H2O = ADP + phosphate + 2 H+. May or may not be coupled to another reaction. | ||
| Molecular function | ATPase activity, coupled to transmembrane movement of substances | Catalysis of the reaction: ATP + H2O = ADP + phosphate, to directly drive the active transport of a substance across a membrane. | ||
| Biological process | Transmembrane transport | The process in which a solute is transported across a lipid bilayer, from one side of a membrane to the other. |
Expression pattern of LotjaGi2g1v0334800.2, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
Loading expression data from ljgea-geneid. Please wait…