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| Field | Value |
|---|---|
| Gene ID | LotjaGi4g1v0142400 |
| Transcript ID | LotjaGi4g1v0142400.1 |
| Lotus japonicus genome version | Gifu v1.2 |
| Description | AP-4 complex subunit epsilon; TAIR: AT1G31730.1 Adaptin family protein; Swiss-Prot: sp|Q8L7A9|AP4E_ARATH AP-4 complex subunit epsilon; TrEMBL-Plants: tr|G7L7U1|G7L7U1_MEDTR AP-4 complex subunit epsilon; Found in the gene: LotjaGi4g1v0142400 |
| Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr4:22014525..22023888) extracted from Lotus japonicus Gifu genome v1.2.
GTTTTTATTTTTTTATTTTTATCGTTTTGGTTTCACCAACACACCCGAGTCAGGAAGACGACTCTGTTTGTCTGTTTATG CTTTTACATTTCTCACATTGCATCTCCGTCCGACACGACGCCGTCTACTGACTCTCTTCTCAATTCTCATTCTCCACCTC GCACACTCCTCACTCCCCCAATTCTCAATCTCAAACCCTCTCTCTCTCCGCCCACACCACTAGATCCACCACCGTCACCG ACACTCCCTCTCGGATCCGGATCCGGATCCACCACCAAACCCCAAACCTGGAGCAGTTAAAGACGATCGGGCGCGAGCTC GCCATGGGTTCCCAAGGCGGGTTCGGTCAATCCAAGGAGTTTCTCGACCTCGTCAAGTCCATCGGCGAAGCCCGATCCAA GGCGGAGGAGGACCGCATCGTCCTCCGCGAAGTCGAAACCCTCAAACGCCGCATCGCCGAGCCGGACATCCCTAAACGGA AGATGAAGGAGTACATCATTCGCCTCCTCTACGTCGAGATGCTCGGCCACGACGCCTCCTTCGGTTACATCCACGCCGTG AAAATGACTCACGACGACAATCTCCTCTCCAAACGCACCGGCTACCTCGCCGTCACGCTCTTCCTCAGCGACGATCACGA CCTCATCATCCTCATCGTTAACACCATACAGAAGGATCTCAAGTCTGATAACTACCTCGTTGTTTGCGCCGCGTTGAACG CCGTCTGCCGCCTCATCAACGACGAGACGATTCCCGCCGTTTTGCCCGTCGTCGTCGAACTTCTCTCGCATTCCAAGGAG GCAGTTAGAAGAAAAGCAGTCATGGCGCTCCACCGGTTTCATCACAAATCACCTTCCTCGGTTTCGCACCTCATTTCGAA TTTCCGGAAGCGATTGTGCGATAACGACCCTGGTGTGATGGGTGCTACTTTGTGCCCTATCTTTGACCTTGTGAATGAGG ATCCTACCCCGTACAAGGACCTTGTTGTTAGCTTTGTTAACATTCTTAAACAGGTCGCGGAACACCGGTTGCCCAAGAGC TATGACTATCACCAAATGCCTGCTCCCTTCATTCAGGTCCGCAATCTGCGCTTATTGTTTACATTGCAAAAAATATCACT TGGTAGTTTGCATGAGGTTTAGATTCAAGCTCCTTGCCACATTGTATTAAAAAGAAAAGCTGCTGAAAATTATGTGACTG ATTGATTGAAAAGCATGTAGATTTCATATTAGAGAGGTTTTTCTTAAACATTACTTTCTCTGTGAGGGCACAATATTTAA TTCCAAGCTTGGATATGTTTGTTTACTTTTTTTTATAGTCCTGAAGCAGTAGAATGTCATGTAGTTAAACTAATTTATTA GGAGAATGACATTGCTGTGTTAGTTGGGCCTTTTGTTTTGCTTTGAATTGCGGCCTGAATTTGAGGGGAAAGAGTTGTGT TTTTGAGTGTGCAGATTAAGTTGCTGAAAATTCTGGCTTTGTTGGGGAGTGGGGACAAGCATGCAAGTGAACAGATGTAT ACGGTTGTTGGCGATATAATGAGGAAGAGTGATTCATCGAGTAATATAGGGAATGCTATTCTTTATGAGTGCATATGTTG TGTCTCTTCCATATATCCCAATCCGAAGATGTTAGAATCGGCTGCGGATGTGATTGCCAAGTTTTTGAAGGTTTGTTCTT TCGTGAACTGAATTCTGTTTGAAGTTTGTGCTTTACATGTTATTGCATTGGGCTGTGTTTTGCTGTGTTGGGTTACATGT GTGGTGGCATTGTGTGACCAGAGCGACAGTCATAATCTCAAGTACATGGGCATTGATGCCCTCGGTCGGCTGATAAAGTT AAGTCCACATATTGCAGAACAGCATCAACTAGCAGTCATTGACTGCTTAGAGGTGAGGACATTCATCTCAAATACTCAAG AGTTAAGATGAATGTGTGCTGTCTTGCCAATTTTTGTTTGGTCTTATTGGTTATACATTCCCTTTATTCTAATTTAGTAA GGAGAAGTTTTTTTTAGTGTATGTTATATTGAAAAGAAACCCCTCAGCATCTCTTCATTATGAGAAAGAAGAATAGCTAT TTGTTCATGTTGTGACCAAATTTCATAGGCCAAATGTACTTTTCAAAGAGCATGTAATGCTACCCTCAGTCATGTTTGTA GTCATGTACTATTTAGCATTTCTAATTGTTATGTGTTGTATTGATATTAGTTTGGATGATAAACTGTTTCTGCATCATTG AATTTACACATTAAGAATATCTACCTGTAACAATTTCATGCTTTCTGTTTTTTCGTACCTGAAGGCTTATTATTTAGGCT ATTGTAGGAGACTATTGGCTATGGTTGTCATGTAAAATAAGGATTTACCTACAAGTTCATCAAGAGGACAACTTAATGTT CGTCAAAAGTCATCTGACGTTGAAAAACATGACAATGTCAAGAATTTGGCAACTAATCTAGTAACACGATAAATTAATGC TTGTATAATGTGCGTGGACCACCTGGTTTGACTGCATAAACATGTCCATTTTAATCTATTAAATAGGTTCACCTCGTAAT TCATCATTTACTGCATGTCCGTCTATGTAATCTATTTGTTTATATATTCTATCATATTTTAATCTATTAAGCAGTTCCAC TTAGTGTGTATTCATTACTTGTATATGAACCCAATCAGATATTGCTCTATCTGGTTTACGAAAATTTGCAATTCTACATC TGAATTATGAAGTGTGCATGATAGCACTGCTGTGTGTTGTGGCGTCATGGCGTGGCTGGCATCTGCCACAGAAACTGCAT CACGGGACGTTTTAGCATTGTGTCCATCATGCCTGCGTTGCACCTTGACGTGGAAAGTTGCAGCTGTTGCTGCTGCATGT TGAAATGGGATAAAACCGTAAAATCCCCCATTCTGTTCCCCATTTTCTGAGTTGTTAAATAACTTCCTCCGGTTATTTTT GCAATTTTACCCCTTTTCATCATAAAAGTCTTTAGGGTTCGAAACCTTGTTTGAAGTTTTATTCACACAACATACACTGC CCTCCGGTTTCAACACAAATCACCAACCGCTTCTGCTCGCTGGCACATAATCTGTTCTGCTGATTGTTTGCACGTTCTCT ACTTCTTGAGTTTTCACTATAGTCTTTGTAGTAGATGAAAGATCTGTGCCCTTCCTCCTTTTCTGTTCTGTTGCTCACCC TTCTTTTTTTATTTGCTACTCTAATCCTTCTCTCATCTATTATGTTGTAATTTTTTTAATAACCCTTCCCAATCTCATAA AAAGCACCCATGGCATCATTCACTCATAGGCATGAACTTATTTATTTATTGACCTTTTTAGTTTTTAGCTTCTTTATTTA GCTCAGGACTAAGAGCATGACTTTGTTACTAATTATGGATGTGTTTTTAATTTTTAGTAATCTCTATTTGTGTGCATATA TATACATATATCTATGTGTGCGTGTGTGTAAATGACTCAACTAGTATTACATTCTTCTGTATAGCGGTCATCCTGGTACC AACAATCCTGCTATAGCAGTTTTGTAGTCGGCTTCTCCGTGCTGCTATCCAGAATTGATAACTATTATTGTACCTGTTTT TTGAGAACTGTTAATTAATCTTAATTGGTCTTTAGAATGACATGCACACATTTGCGTGCTTTTGGAGGAATATTTCAATG TTTAGGTCATCTCAGGCTTTCAAGTATGGATAAAATTCTAATTTGTATGCTGCAGGACCCTGATGATACTATGAAGCGGA AAACTTTTGAACTGCTATACAAAATGACAAAGTCCTCCAATGTGGAAGTGATTGTTGACCGTATGATTGATTACATGATT AGCATAAATGATGAACATTATAAAACCTATATAGCATCTCGATGTGTAGAACTTGCTGAGCAGTTTGCACCAAGCAATCA TTGGTTTATACAGGTAATTTGATTTGTTTCCTTTTTGTTTCTTGATTTTGCATAGTAATTATTGAATTTCTTGAGAAATG CTACCTATACACTTTCTAACTACCTTTTTCAAAGGCCATATACATTGTAAAATTCATTTTCACCCGATAATTGAGTGTGT ATTGAAAAGAGTGTGTTGCTAGTGTTCCTCAACATTCTTTGATAACTAACAATATCTTGTGCTTTATTAAACAGACAATG AATAAAGTTTTTGAGCATGCTGGAGATCTTGTGAATATCAAGGTGGCACATAATTTAATGCGGTTGATTGCTGAAGGATT TGGAGAGGATGATAATGGTGCAGATAGTCAGTTGAGATCGTCTGCTGTATGTTACTCTGATAATAGTGCTTGTTAATTTA GTATTACCCTGCATAAGTAGTCATGTGCAAGCATGGTACTTAATGAATGCTATTTTCTGAAATGTAGGTTGAGTCGTATT TACGCCTAATTGGAGAGCCGAAGCTTCCCTCTGTGTTTCTTCAAGTATATTTCCCCACTTAGTTTACTTTTCAAGACATG ACATCTGGTTTTGGCATAATGTTTAGTACTGATTACAGGTCATCTGCTGGGTTTTGGGGGAATATGGCACATCTGATGGT AAACATTCTGCTTCCTACATCACTGGGAAGTTATGTGACGTAGCAGAGGCATATTCTAATGATGAAACGGTTAAGGTACT TATGTAATGCCAATTATTTTGTTTAGCACTAGAGAAAGCCAACATTTTACTGATCAGGGGAGGGGGAAGGTCATGATGCC CTTTTGAGAGAATTTGATTATCTGTGGATAATTTCTTTCTATTTTTTCTTTGCTTTCAGTATTTACAATGGCACCAATAT CATTTTTGAAGTTAAGCATAATCTTTTTATCCACTCTAGCTAAAAGCTCTGTTCCAGTTTAATGAGAAGTTTTTATCAGG ATTGTTAGGTTTTTAATCTGTCTTTGCCCCACTTCGTCGCTGCATCTATGGTCTCTTTTCACTCAATTAATACACGTTCT CAAGAATTAAGTACTTTCTTCATAGCTTAAATGTTTGTTGTCCAGGACTGCATTGTGGTCTTTGTTAATGTCATTACTAT TTAACATAAGAAATACTTGCTTGGACCACCATTATCACCTTTCTGATTGATCGAATTGGGTGAGCATATAAGAAGCTTTA ACTTAGACTTACCTGACCATTATCTTCATTGATGATTATAGGTAGTTATTGTAACAGTTTTCATTTCTATACTGATTTCA TTAGTGAGATTCCAGTAGTTCCTATACTATGAAAATGTGTGAATGTACTTTAACAATAAATTATGAATCTAATGCTTTGT TATGGAATCTGATTATTGTAATGGTATTCAATATCTTTGTTCTTAATTGATTTTGTGATAAGATGTCTTGCAATTGGTGT TAGATGTTTCTAAATTTGGAATCTATTATGTCTTGCCGTCCTGCTATGTGCAATAGCGCTATAGTGTTTTTGGGGTCAGC TGCTACACGCCACTATCTGGGATTGACAATGCTGACCCTAACCCTCTCTCCTGCTCTATTATATCAATTTATTTGATCTT TTTGCTTGAACGATTTTCAATTGGACTAAATTATTGTTTGTTTTGAAGGGATATGCAATTTCAGCGATGACAAAAACTTA TGCATTTGAAATAGCAGCTGGGAGGAAGGTGGATATGCTACCTGAGGTATCTGCTGATAGAATTTGGGTTAAAATTTTGT ATCTCTTCTATGCCATGGATGTTCTGTGTTGGGGAAGTGAATGTTTATGTTTTGGTCACAATCATTCCTTTGACTTTTAT TCATAATAAATGTTACGTTCCCCCCATCTTTGTCGTCGTACAAAGGAATTGCACTGCAACGATGTTCTGTTTTATGAGTT TGTTTGAGGCGTTGGTTGTTGCTCCAATCATGTTGTTATTTACAAATGTATTTTGATACGCAGAGTTCAAAGTGTTTTTT GGGTTGACTATTTAAGAAAATAGACTTGACATGGTAGAATATGAAGATCAATATCATGTTTGATTTTGATTAATTTTAGC AGAACATTTTTCTCAAAGGCTCTTGGTAAGATTTTTATTATAAGCAGTTTTTGATGAAATTTATGTCTAAATTTCTTGTA AATGCTTTTTTTTCTGTTGACCTCTTCTATGCTTATTAATTTCAACTTTCAACTACATTTTTCTGTGAAAAGTTACAGTG AATAAGTTGCCCAATTAACTGTTGTGGTATTAAATATTTGTTTTTCACTTTATTATATGTGTGATTATTTTCAAAAGTCA TTGTTCACGTGGATAGGCTGTTAATGAAATTCTGCATTCACTACTCAAGTTGATACTGAAATTTGACCGATATTGTACTG CTAAGATGACTAGTATTTTACTTTCTACATGCAGTGTCAATCTTTGGTTGAAGAATTATTGGCATCCAACTCCACTGACT TGCAGCAACGTGCTTATGAATTGCAAGCCCTTATTGGTTTGGATGCACGAGCTGTTGAATCAATAATGCCGCAAGATGCA AGTTGTGAAGATATTGAGGTTTTTTGCATATTCCTGTATCATTTTAAGATTATAATATTTTGACTGCTTTCGTATATAAT GATTTACTTTTTGATGTTGGGTGCATTGAAAATGTGTGAGATGTATATTCTCTTCAATGAATTATTATATTTCTGCATCC AATTAATTTTATTGATAAGAATATTTTATTATTTTAGATGAAGTTATAATTTCAGTAACTACAAGTTATTCATGAGTCAT GACCCTTTACCAGTTATAAGCATCCTACCAGTCTACCACAATTAGCAGCGGTAGCTCCATCGAGGACTTCAAATTATTTT TGATTCTTAAATGATATTTGATCGGACTTTGCCCCTCTCCAGATATAGTAAGAAAACCAAAATGATTTTCTAAAATTTGG AAACCTTTCTTGGTAAGCAAGGCAGTTTCCACCCAGGGTAAATCTAAAAATTATAGTGGTAGTCTTCCTGTTGTCAAATA CTATTGCTGATTATATTTTCTGTCAGGGTAAATCTAAAAGCCAATTGTTTTATATTTGCTTTGTTTTGTTTGTGTGGTAG TCTTCCCGTTGTCAAATACTATTGCTGATTTGGCACTTCAGTTCAAAATTCAGATCATTGCATCTTTTCTGCCCAGATCT TTCTTTATTCTTGTCAGTTTTAATCTATAAATATTTGGTCATGTATATCTCTTGATTAATGTCTTTCTGCAGATAATTCT TTTGACCACTTTGTTGGTTGATGAGTTAAACTTCATCAGCAGTTTAAATTTGTATTGTACACATTCATCTCTTTTCACTA AATGTAATAATGTACCTGGGAACAATGCATATTACCATTTGGACATTCTTGTTTTGCTGAACTAAGATTATTGACATGAT GAAACTTTTATGCAGGTGGATAAAAATCTTTCTTTCCTCAATGATTATGTCCAGCAGTCTCTAGAAAGGGGTGCGATGCC CTACTTTCGTGAGGATGAGCGGGCTGGAATAGTGAATATAAGCAACCTCAGTAGCCAGGATCAGCATGAATCTGCACAGC ATAGTCTGAGATTTGAAGCGTATGAACTTCCCAAGGTTCCAGTACCATCAAAAGTTGCTCCAGTTTCTCTTTCATCCTCA ACTGACCTTGTTCCAGTACCTGAGGCATTGTATTCTAGAGAAACTCCCCAGATCTCTTCAGCGAGAGTACCATCAGAGAT AGGATCATCAGATCTTAAGCTAAGGCTTGATGGTGTTCAGAAGAAGTGGGGTAAGCCAACCTATTCATCTCCATCACCAT CTTCCTCAAGTTCTACTTCCCAAAACCCAGTGAATGTGGTGACTAAGACGGATGTTGCTACTGCTGTAAATTCAAAAGTA CGTGATAGCTATGATTCAAGAAAGCAACATATTGAAATTTCACCAGAAAAGCAGAAGCTTGCTGCTTCATTGTTTGGTGG TTCCACTAAACCCGAGAAAAGAACATCAACTAGCAATAAGGTTCCAAAGGCTAGTGCTAGTGCTTCAGACAGATCTCAGG AACCGAAAGCTGCAGTTTTACCCAAGAAAACAGCTGCAGAGAAAACCAATCAACAATCTCCTCTTCCAGATTTGCTTGAC TTGGGTGAACCAACTGTTACTGCTACAGCTCCCTCTCTGGACCCATTCATGCAATTGGAAGGACTTCTTGACCCAAGCCT TAGTTCTACAACAAGTAATAGTAGTAGTGCTGCTACAAATACACCTGACCTTATGGAACTCTATTCGGAAACTACTGCTA GTGGACAGAGTGATAGTGGTGGCTATTCTATCCCCCCTGTGAGTGGGGATAATTTAACTCTTTTATCTGAGTTGTCGAAC GCCACTGCCCGAGATACCAAAGGAGAAACAATTGCAATGCCTTTGTCACAATCCGTAAAGGGTCCGAACGCTAAAGATTC TTTGCAGAAGGATGCAAAAGTCAGACAGATGGGTGTCAACCCCTCAAGTCAGAATCCCAACTTGTTCAGGGACTTGCTTG GCTAATCTGATCAAAAGAACAAATGTAAATCATATGATGCTTCAGGATAGATTACCTTGCGACTTAAAGCTCATGGAGTT ACCAGAACCAATTGGCTATCTGATATATGCGAAAATTGAATAGTCTAAAATATGATCTAAGACGGTTGCAGCCACCATTT GGGTGATTCCCTATCCAGGAATTATGGCTAAACCAGGTAAAGATCTGTTCTAGTTGCAGAATAGCTTTAGTTGCGATCGA ATGCATGAAGTGTTCCTCGTTGAATCCAGGTTCTGGTCCATTCTAGACGCTGAAGGGTACTGTCAGTCATTTCATTTTAC ACTTTAATGGAAGTCCAGTGTCATCTTTGTTGTTATACCAAAGCACTTTTTGTTTCTTGTTTTTTGCCCCAATTTTTGTG CATTTTCATACCGCTGTCTACATAATGGATTTTTTCCCATAAATGAGAAGCTTGGTACTGCGGTCATATCCAGTTTGGTG TATGGCATTTGTAAACGTGAAATTTTTAGTGATAAATGAATTCAGCTATTCCTTTGTCGAAGGCCAATGTCCCCATGATT GGCTGTTTCAGTCTTTCGTTGCCTTCAAATCTCTTTCTCTATCATGCACCATGCTGATGTTTCGGTACTCATCACGATAT CTGTGGTTTTAATATTATCTGTACAATCATACATGATCACATGAGCTTAGTTTTTCATTTTGGGCGGCTTATGATAATTA TATGGTTCAAGATAATTTCAATTTAATTTTGCCTATATTTCTTTTGACCGTAGTTTGACTATTTATTTGGTTTACTGAGA TTGATTTTTCTCATGAGATCATATTTTCTCTGGTACACTCTTTTATAAAACATTTCATGCATTGTAGCGATATTTTTATG GAAG
CDS sequence (LotjaGi4g1v0142400.1) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGGGTTCCCAAGGCGGGTTCGGTCAATCCAAGGAGTTTCTCGACCTCGTCAAGTCCATCGGCGAAGCCCGATCCAAGGC GGAGGAGGACCGCATCGTCCTCCGCGAAGTCGAAACCCTCAAACGCCGCATCGCCGAGCCGGACATCCCTAAACGGAAGA TGAAGGAGTACATCATTCGCCTCCTCTACGTCGAGATGCTCGGCCACGACGCCTCCTTCGGTTACATCCACGCCGTGAAA ATGACTCACGACGACAATCTCCTCTCCAAACGCACCGGCTACCTCGCCGTCACGCTCTTCCTCAGCGACGATCACGACCT CATCATCCTCATCGTTAACACCATACAGAAGGATCTCAAGTCTGATAACTACCTCGTTGTTTGCGCCGCGTTGAACGCCG TCTGCCGCCTCATCAACGACGAGACGATTCCCGCCGTTTTGCCCGTCGTCGTCGAACTTCTCTCGCATTCCAAGGAGGCA GTTAGAAGAAAAGCAGTCATGGCGCTCCACCGGTTTCATCACAAATCACCTTCCTCGGTTTCGCACCTCATTTCGAATTT CCGGAAGCGATTGTGCGATAACGACCCTGGTGTGATGGGTGCTACTTTGTGCCCTATCTTTGACCTTGTGAATGAGGATC CTACCCCGTACAAGGACCTTGTTGTTAGCTTTGTTAACATTCTTAAACAGGTCGCGGAACACCGGTTGCCCAAGAGCTAT GACTATCACCAAATGCCTGCTCCCTTCATTCAGATTAAGTTGCTGAAAATTCTGGCTTTGTTGGGGAGTGGGGACAAGCA TGCAAGTGAACAGATGTATACGGTTGTTGGCGATATAATGAGGAAGAGTGATTCATCGAGTAATATAGGGAATGCTATTC TTTATGAGTGCATATGTTGTGTCTCTTCCATATATCCCAATCCGAAGATGTTAGAATCGGCTGCGGATGTGATTGCCAAG TTTTTGAAGAGCGACAGTCATAATCTCAAGTACATGGGCATTGATGCCCTCGGTCGGCTGATAAAGTTAAGTCCACATAT TGCAGAACAGCATCAACTAGCAGTCATTGACTGCTTAGAGGACCCTGATGATACTATGAAGCGGAAAACTTTTGAACTGC TATACAAAATGACAAAGTCCTCCAATGTGGAAGTGATTGTTGACCGTATGATTGATTACATGATTAGCATAAATGATGAA CATTATAAAACCTATATAGCATCTCGATGTGTAGAACTTGCTGAGCAGTTTGCACCAAGCAATCATTGGTTTATACAGAC AATGAATAAAGTTTTTGAGCATGCTGGAGATCTTGTGAATATCAAGGTGGCACATAATTTAATGCGGTTGATTGCTGAAG GATTTGGAGAGGATGATAATGGTGCAGATAGTCAGTTGAGATCGTCTGCTGTTGAGTCGTATTTACGCCTAATTGGAGAG CCGAAGCTTCCCTCTGTGTTTCTTCAAGTCATCTGCTGGGTTTTGGGGGAATATGGCACATCTGATGGTAAACATTCTGC TTCCTACATCACTGGGAAGTTATGTGACGTAGCAGAGGCATATTCTAATGATGAAACGGTTAAGGGATATGCAATTTCAG CGATGACAAAAACTTATGCATTTGAAATAGCAGCTGGGAGGAAGGTGGATATGCTACCTGAGTGTCAATCTTTGGTTGAA GAATTATTGGCATCCAACTCCACTGACTTGCAGCAACGTGCTTATGAATTGCAAGCCCTTATTGGTTTGGATGCACGAGC TGTTGAATCAATAATGCCGCAAGATGCAAGTTGTGAAGATATTGAGGTGGATAAAAATCTTTCTTTCCTCAATGATTATG TCCAGCAGTCTCTAGAAAGGGGTGCGATGCCCTACTTTCGTGAGGATGAGCGGGCTGGAATAGTGAATATAAGCAACCTC AGTAGCCAGGATCAGCATGAATCTGCACAGCATAGTCTGAGATTTGAAGCGTATGAACTTCCCAAGGTTCCAGTACCATC AAAAGTTGCTCCAGTTTCTCTTTCATCCTCAACTGACCTTGTTCCAGTACCTGAGGCATTGTATTCTAGAGAAACTCCCC AGATCTCTTCAGCGAGAGTACCATCAGAGATAGGATCATCAGATCTTAAGCTAAGGCTTGATGGTGTTCAGAAGAAGTGG GGTAAGCCAACCTATTCATCTCCATCACCATCTTCCTCAAGTTCTACTTCCCAAAACCCAGTGAATGTGGTGACTAAGAC GGATGTTGCTACTGCTGTAAATTCAAAAGTACGTGATAGCTATGATTCAAGAAAGCAACATATTGAAATTTCACCAGAAA AGCAGAAGCTTGCTGCTTCATTGTTTGGTGGTTCCACTAAACCCGAGAAAAGAACATCAACTAGCAATAAGGTTCCAAAG GCTAGTGCTAGTGCTTCAGACAGATCTCAGGAACCGAAAGCTGCAGTTTTACCCAAGAAAACAGCTGCAGAGAAAACCAA TCAACAATCTCCTCTTCCAGATTTGCTTGACTTGGGTGAACCAACTGTTACTGCTACAGCTCCCTCTCTGGACCCATTCA TGCAATTGGAAGGACTTCTTGACCCAAGCCTTAGTTCTACAACAAGTAATAGTAGTAGTGCTGCTACAAATACACCTGAC CTTATGGAACTCTATTCGGAAACTACTGCTAGTGGACAGAGTGATAGTGGTGGCTATTCTATCCCCCCTGTGAGTGGGGA TAATTTAACTCTTTTATCTGAGTTGTCGAACGCCACTGCCCGAGATACCAAAGGAGAAACAATTGCAATGCCTTTGTCAC AATCCGTAAAGGGTCCGAACGCTAAAGATTCTTTGCAGAAGGATGCAAAAGTCAGACAGATGGGTGTCAACCCCTCAAGT CAGAATCCCAACTTGTTCAGGGACTTGCTTGGCTAA
Protein sequence (LotjaGi4g1v0142400.1) extracted from Lotus japonicus Gifu v1.2 Proteins.
MGSQGGFGQSKEFLDLVKSIGEARSKAEEDRIVLREVETLKRRIAEPDIPKRKMKEYIIRLLYVEMLGHDASFGYIHAVK MTHDDNLLSKRTGYLAVTLFLSDDHDLIILIVNTIQKDLKSDNYLVVCAALNAVCRLINDETIPAVLPVVVELLSHSKEA VRRKAVMALHRFHHKSPSSVSHLISNFRKRLCDNDPGVMGATLCPIFDLVNEDPTPYKDLVVSFVNILKQVAEHRLPKSY DYHQMPAPFIQIKLLKILALLGSGDKHASEQMYTVVGDIMRKSDSSSNIGNAILYECICCVSSIYPNPKMLESAADVIAK FLKSDSHNLKYMGIDALGRLIKLSPHIAEQHQLAVIDCLEDPDDTMKRKTFELLYKMTKSSNVEVIVDRMIDYMISINDE HYKTYIASRCVELAEQFAPSNHWFIQTMNKVFEHAGDLVNIKVAHNLMRLIAEGFGEDDNGADSQLRSSAVESYLRLIGE PKLPSVFLQVICWVLGEYGTSDGKHSASYITGKLCDVAEAYSNDETVKGYAISAMTKTYAFEIAAGRKVDMLPECQSLVE ELLASNSTDLQQRAYELQALIGLDARAVESIMPQDASCEDIEVDKNLSFLNDYVQQSLERGAMPYFREDERAGIVNISNL SSQDQHESAQHSLRFEAYELPKVPVPSKVAPVSLSSSTDLVPVPEALYSRETPQISSARVPSEIGSSDLKLRLDGVQKKW GKPTYSSPSPSSSSSTSQNPVNVVTKTDVATAVNSKVRDSYDSRKQHIEISPEKQKLAASLFGGSTKPEKRTSTSNKVPK ASASASDRSQEPKAAVLPKKTAAEKTNQQSPLPDLLDLGEPTVTATAPSLDPFMQLEGLLDPSLSSTTSNSSSAATNTPD LMELYSETTASGQSDSGGYSIPPVSGDNLTLLSELSNATARDTKGETIAMPLSQSVKGPNAKDSLQKDAKVRQMGVNPSS QNPNLFRDLLG
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 |
|---|---|---|---|---|---|---|
| PIRSF | 1 | 699 | 699 | 0.0 | ||
| Gene3D | 3 | 594 | 592 | 3.7E-174 | ||
| PANTHER | 6 | 960 | 955 | 0.0 | – | |
| PANTHER | 6 | 960 | 955 | 0.0 | – | |
| SUPERFAMILY | 10 | 584 | 575 | 7.82E-89 | ||
| Pfam | 44 | 582 | 539 | 3.8E-81 | ||
| PIRSF | 717 | 832 | 116 | 4.1 | ||
| MobiDBLite | 720 | 742 | 23 | - | – | |
| MobiDBLite | 722 | 742 | 21 | - | – | |
| MobiDBLite | 755 | 847 | 93 | - | – | |
| MobiDBLite | 758 | 772 | 15 | - | – | |
| MobiDBLite | 786 | 809 | 24 | - | – | |
| PIRSF | 865 | 971 | 107 | 2.8 | ||
| MobiDBLite | 931 | 971 | 41 | - | – | |
| MobiDBLite | 953 | 971 | 19 | - | – |
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 | 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. | ||
| Biological process | Protein transport | The directed movement of proteins into, out of or within a cell, or between cells, by means of some agent such as a transporter or pore. | ||
| 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. | ||
| Cellular component | Membrane coat | Any of several different proteinaceous coats that can associate with membranes. Membrane coats include those formed by clathrin plus an adaptor complex, the COPI and COPII complexes, and possibly others. They are found associated with membranes on many vesicles as well as other membrane features such as pits and perhaps tubules. | ||
| Cellular component | AP-4 adaptor complex | An AP-type membrane coat adaptor complex that consists of beta4, epsilon, mu4 and sigma4 subunits and is found associated with membranes in the trans-Golgi network; it is not clear whether AP-4 forms clathrin coats in vivo. |
Expression pattern of LotjaGi4g1v0142400.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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