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Field | Value |
---|---|
Gene ID | LotjaGi3g1v0362000 |
Transcript ID | LotjaGi3g1v0362000.3 |
Related isoforms 5 | |
Lotus japonicus genome version | Gifu v1.2 |
Description | Coatomer subunit beta-like protein; TAIR: AT1G52360.1 Coatomer, beta' subunit; Swiss-Prot: sp|Q9C827|COB22_ARATH Coatomer subunit beta'-2; TrEMBL-Plants: tr|A0A0S3T103|A0A0S3T103_PHAAN Uncharacterized protein; Found in the gene: LotjaGi3g1v0362000 |
Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr3:74571013..74580908) extracted from Lotus japonicus Gifu genome v1.2.
CAGCCTCTCAGACTCGAAATCAAGGTACTACTGTTCTCTTCTCTTGACTTTTGATTTCAGAATTATTTGTGTTTAGTTGC TGAGAAGTGCTTGATTGGATTTCACTGCTTAAACTGACTTGTTGTGTAAATTTGATCAGCGAAAGCTTGCGCAAAGATCA GAAAGAGTGAAGTCTGTGGATCTACATCCAACAGAACCATGGTACTGCTTTGTCCTGTATTGTTTGATTTCGTATATAGA ATTATTTTATAATATGAAGCTGAATTTTAAACCGGGTTTAATGTAGGATTCTAGCAAGTTTATACTCCGGAACTGTCTGT ATTTGGAACTATCAAACTCAGGTATGTCAATTTTTGTAATTCAGATGATGTATATTGTTAGAGCATATTTAAGGGACAGA ACTGGTAAATGAAATGGTGAAATTCCTATATGCTAGCGGGTTTTTTGTTGACTGATATCCAAAGTATACTCGTTTTGCAT AGTAGTGCTTATATACAATGAGCTGACGATTTAGAAAATAATGGGGCTATTTATGATGGCTCCGTTCAAATCTTAATCAG TTGCTTTATTCTCTTTCTTTTATGAAAAAAGAACTAGTGTAGTAGTGTTTACCTATATTACTCGAGAGCATTGTTCAAGT TGTTGGTGTTCTGCTAAAATATAATTAGGGTGCGTTTGGGTAAAGAGCTTAATTGAGCGCTTATGGTAATAAGCGTTTAT CACATAAGCGCTTATTCGTAAGCTAATTTGAGAAACTTAATGAAATAAGCTGAAAATAGGTTATGCATAAACATAAGCTC TTATTCATAAGCTAATATGAACAACTTGTGAAAATAAGCTCAAAACAGCTTCTTGGTAGAACATAAGCTATTTACATAAG CTCTCCAAGACACTTGCATAAGCATTTATGTTATAAGATAAGCTCAAATAAGCTCTTCCAAACGGAGCCTTGTTTATATA GCCTTACATATGTCTAAGCTTCAAGATAAATTTAACATTTCCCTTGATAGAAATATCTGGTCCTTTCAAACTTATAAATT GTGATTATATGTAAATAATTTCCATCTGTATGAAGTTAGGAGGAAGACCTTTGGCTCAATACATGCAGCAATTTTTGAAC AGGATCAACAAACAAATTTCTAGTAACTATGTAGTCACTACTCACTAGTCATCCTATAACGAATGGCATTTTAAAAGAAA CACTAAGTGAATAGATTGGCTCCTCTAATGATCTTTTGTGTTAAAGATGAGTTGGGGATTACTGTGGCTAGCATTTTATA CTTTAAAATTGATTTAGTTGTGTTGTGGGATACAGTTACCAAAATTAGTAGAAACATGATTTCATAATTTCTGTAATTAG GATATATATGATTTGTATCTAATTTGTACTGATTTTATTTCCTTAGTTAGGTCAGTTATAGTCTATATATAGTAATGTTG GGTAGTTGTATGAGAGATTTATACCCTGGTAAACTCACCAAGTTCCTTTGGGATCTGTTTGAGATTGGGTTCAAATCCCA ACAAGACCGATTTGGTTCCACTTTAACTTATCATCCCTATTCAAGGTCCTATATTGACTAGAGATATGGCCAAATAAGTC TTCATGATGGGTAGGGCAATCCTCAGTTCCTCACCCCCTAAACTAGCTTTTGAGGTAGAGTTAGGCCTAAGTCTGAATTC TAAGATGGTATAAGAATCTATCCTAGGGCTAGATCTATTATTGGGCCACTTGCAGATGTCCAATCCTGCAACTTCACAAT CCAGCCCTACATGAAGGGGTGTGTTATAGGTTCCACATTGGCTAGACATAGACAAATAATCCTTATGAATGGTAGGGCAA TCCTTACCCTTAAGATAGCTTTTAGGGTAGAGTTATCCAGTCTGGATCCTAAGATCCTCCGACCTCCCCCGACGCATAAA AAAGAGAGTGAATTGTGTAATAGTGTTTCATGAAACCAATTATTTAGTTGATGCCAAATGACAAGTTCCCACCAAAATGT TGTAGACTAGTAGTAATTCCTATTTGACAGAAATCGATAGTTTAAAAGTTCCCTATTTGGGCTGAGTGTTTATATCAAAT TCCATCCGTATAAATATTTATTTAAAATTTATTATGACATTAAACTTTGTTTGTTGAGCTGTTTAAGGCATATTTTTTTA GTTTGATGAAGTGTGGGCTTTTGTAGATTTAATATAACTTTGTCTCTGGGTGCTATTTGACCCTCTTGTGCACCCAAAAA AAAATACCTTCATTTACTTGGAAGAATTTTACTCTTGTGCCTAGATCTGTAGATTCTGCTTGTTATTCCGGTTCTACTTT ATTCAGTGAGGCAAACTCTTCTTGTTTGCTCTATCATAACTTCATGGTGTCTCTATTACCATTTATAATTTAATTGACTG ATCTTCATTTTATGTATTCATAGATTGGTCTTAAAAGACTGCTTTTAACTCTACTGCGGAATGTTTAAATTTATTACCAG ACTCTCCTGTTTTGGTGTTGCAATTAACTTTAATTTCTTTGATTCTGTTTCAGACCATGGCCAAGTCTTTTGAGGTTACT GAGTTACCAGGTACGTGAACTTTTCAGTCTGTTTCACTGTTTATATATCTGCCTCTTGATTCATTTGCTTGAAGCCATTT TTTCTTTGTATTTTTCGTAGGTCACTTATATATGTCATGATTTTGCAGTTAGGTCAGCCAAGTTTATTGCACGCAAGCAG TGGGTTGTTGCTGGAGCAGATGATATGTTTATTCGTGTATATAATTACAACACAATGGATAAAGTTAAAGTATTTGAGGC CCATACAGATTACATCAGGTGTGTGGCAGTCCATCCTACTCTTCCTTATGTGCTGTCATCATCTGATGATATGCTCATTA AGCTTTGGGATTGGGAAAAGGGCTGGATCTGTACCCAGATATTTGAGGGGCATTCACATTATGTCATGCAAGTGACATTT AACCCTAAAGACACAAACACCTTTGCCAGTGCATCTCTTGATCGCACCATAAAGGTATGCACCTTTTCTTTGTCTCAGTT TTTCTTGTATTTTCTCATTTTTTCCATGACCTATGATATAATATAATGCGTTGATGTCCTTCGCTTTCAGATTTGGAATC TTGGCTCTCCTGACCCTAATTTTACGTTGGATGCCCATCAAAAGGGAGTGAATTGTGTTGACTACTTTACAGGTGGTGAC AAACCTTATCTAATTACTGGTTCTGATGATCAAACTGCCAAGGTTTGTTTTTTATTTTTTTATTTACTCTTCATCTGCCC TTTAATTTCTTTGCCTGTGTATATGGGTAGGAATAATTACACCAGTAAACCCTATGAAACAGGTATGGGATTATCAGACC AAAAGTTGTGTCCAGACTCTAGAAGGCCACACACACAATGTATCTGCTGTGTGCTTTCACCCTGAACTTCCTATAATCAT TACGGGCGCTGAAGATGGCACAGTGCGCATTTGGCATTCGACAACTTATAGGTAATTTAATGCTCTGCATAGAATACTGA GTTGTGACTTGTGAGCTTTATCTTTTTCTTAACAACACTTTAATTGCTCTGCAAATTTATTATTACTTTTTTTTTCTACG GTAAGCAGTAAGCTTTCTTTAGATTTTACTAAAATTAGTCTGATTTTATTTAAATATTCTAGGCATGTTAAAAGTTTACG GTGGTTTGATCTATTTGCAGGCTTGAAAACACATTGAACTATGGTCTTGAAAGAGTTTGGACCATTGGATACCTGAAGGG TTCACGTCGGTTAGTTTTTCTTTTTTCTTCTTTAGATAAATACTTGCAAGTAATTCTGATTTCTGAGTCTCATACTTGGG CCCATTAATCATGTTTAGGGGGACAGTAGGATCAAGTATTGCCTCTATAATGAAGTGTTCATATCTGATTAGATTACCGG CTAAAAACCTTATTTCTCCTTTTCTCCTTATGTTTCACGTGATCTTGTTTGCTTTTATGCCCTGTTTGGTTTAGGGGAGA AAGAGAGAAGAGAGAAGATGAGTAGAGAGAAAGATGTGAGAAATAGAATAGATTTTGTAGGTTGTTTGGTATGATAGAGA TAAAAGAAGAGAAAGAATGACGTGTAAAGTTATATTTTGTGCAAAAATTCATTTTTATCTTAACATATATAATAAAAAAT AGTGATAGTGATAACTTTAAGGGTAAAACAAGGAGTGAAATAAAGTTGCAGCAACTTTATTAATTTCTCTTCAGAATGAA GAGACTGCAAAAAGCTACCAAACTCTCTCTCTGCAGTCTCTCTCTGCTGTAGAAGATTCATACCAAACACACTTGGTATT TCTATCTCTCTCACATCTCTCTCTCTCTCTCTCGCATCTCTTTCTCTCTCACTTCTCTTCTATAACAAACAGACCCTTAA TCTGGTCAGAGATGCTGGGCCTCTCGTGTTTTTTCTTCTCTTGAAAAATCAGTCTCTTTAAATCCTCCATTATGATCAAC TTTACCAAAACATCTTTCTTTGCAGGGTTGTGATTGGCTATGACGAAGGAACTATTATGGTCAAACTTGGCCGAGAAGAA CCTGTAGCCAGCATGGACAACAGTGGAAAAATAATTTGGGCTAAGCACAATGAAATTCAAACTGTCAATATAAGGAGTGT AGGAGCCGATGTGGAGGTATGGCTAATTTTTTACCCTTTTTTGCTGCATATTATGCGTGCAATTGGTAGTGACGCACACA TGTACCACCGTTTTTAGATTGCTGATGGAGAAAGGCTGCCTTTGGCTGTTAAGGAGTTGGGCACCTGTGATCTCTATCCA CAAGTGAGTAAACAACATTTTTCTCAATAATATGATGCTATTTTTGCATTCCTTCTCTTTTTTGTATTTATGCTCACATT ATGCAACACTCGACAGATTTTACGAAACAAGCATATTTACATTTTTTCAGCAAATTGGACATTTTGGTAGACATAACATT TTTGTTGAACCCGGGCTGAATTTTTGGTTTTTGTTTTTTTATATTTTATGCAAAAGCCTCTTTATTTATAGGATTGATTT GTTCATTATCTTCTTGCTCGTTCTCCTCAGTTCCTGTACAGATGAGTATCTGTTCAAATAAATATAGGTTTTATTGTTTA ATGTTAGTCATTTGCAGTCAAAAGTCAATGACAAGAATGAGTTGGTATCTGAGAGAACTATTGTGTACTCTTCATTCCAT ACTCAAATAAATGAGCTTTTAAATAATAATACATTCCTTAGTCAAATACCACTGTAGTTTGTTTTTTCATGTATGTTGGC TGATGATTGACTGGAGATTTGCTGTTTTATATCCAGAGTTTAAGGCACAATCCAAATGGAAGGTTTGTTGTTGTTTGTGG GGATGGTGAATATATTATATACACTGCTTTGGCGTGGAGAAATAGGTCATTTGGTTCAGCACTGGAAATTGTTTGGTCTT CCGATGGAGAGTATGCTGTAAGAGAAAGCACGTCCAAGATTAAAATTTTCAGCAAAAATTTCCAGGTTACTTAAACTTTA TTTTGAATTGCTTTTTCATTTTATGATTTGGCTGTAGATGAGAGTGATGGTGACCAACAAATTCTTAATATTTCTTTAAC GGGCAAGCAAAATGCGTCTTTCCATTGATTTACTGTTAATGACAAGGACCGCCTAATAAAACTATGTTGGCAATAAATTT GCCTCAATTTTTTAGATTCCAATCCAGTGCTGCTAACAAGACTTTCAATTTTTTTTATCCATAATGTTAAAACCTGACTT TTTTTCTGAAAAGTAAAATTCTCTCATTGCTTGAGCTGTCTGCTAAATCAAATAGTTTTCTCTAGGAAAATTTTAATTGA AGTTGAGATTTTCTGTATTTCAGGAAAAGAAGAGTATCCGACCAACGTTTTCAGCCGAAAGAATATTTGGTGGCACTGTA TTGGCTATGTGCTCAAATGATTTCATCTGCTTTTATGATTGGGCTGAATGCAGGTTGATTCGTCGTATTGATGTGAACGT GAAAGTGAGTGCATTCATGAAGTGACATCTGGTTTTCATTTTTTCCCTTCTCTATCCTTGTTAATTTTCTTATTTTCCTT GTGTCAGAACCTCTACTGGGCTGATAGTGGTGATCTTGTTGCGATTGCTAGTGATTCATCATTCTACATCCTGAAGTACA ATGTGAGGATTCTGACATAATCCTTCTCTTACAGTTATATGCTTTCTATGTAGTGCATTATATTTTCCCTAAGTTTTCAG TTAAGTGAATATTTGGTTTGGTGGCACTTTACTGGTGAAGCTCTGTAAACATTCTCACTTCCACTGTTGCAGCGTGATGT TGTTGCATCATATTTAGATAGTGGAAACCCAGTAGATGAGCAAGGTGTTGAAGATGCCTTTGAGCTCCTTCATGAAATGA GTGAACGTGTCAGGACGGGTATCTGGGTTGGTGATTGTTTTATCTACAGCAATTCTTCTTGGAGGCTTAATTACTGTGTT GGTGGTGAGGTATTGACTCTTTTCTCATTTAGCTTCAAAATGACTCCCATTTTATTTATTGAACCGTTTGTAATCATTGT GATTTTACTTCTTTTATTTGAATGACTTGTTGACTAAAAGTATCTTATGAAGCCTGTTGATGCATAACATTATGAATATA GGTAACTACAATGTTTCATTTGGACCGTCCTATGTACTTGTTGGGATATCTTGCCAGCCAAAGTAGGGTCTACCTTATAG ATAAAGAGTTCAAGTAAGTGGATCAATTATTTGCCTTACTCAAAATCTCTCAATGCAGTAGTCTTGATTACTTTCCTCTT TGTTGGTTGCTTTTTTTTTTCAGCGTTATCGGATACACATTGCTTTTAAGCTTGATTGAGTACAAGACTCTTGTGATGCG TGGTGATTTGGAAAGGGCCAATGAAATTCTACCTTCTATTCCAAAAGAGCATCAGAACAGGTAGTTGTTACTTTTGGTTA CTTTGTTACAGAAAGACCTTTCCTTTCATTATTTGGAAATTATGTTTGATTTATTTGAAGAAATACTTTTTTATAACAGG GTTATGCTTTATAAAACCATGTAGTTGCACTAACCAAAAAAAAGGAAAAAAAAGTGTATGTAGATAATAATCTTGCCCTT TCTATCTTTTTGCAAGGAAAGTTTTGGTCTGTTTCCCTGAGTAGAAATGTTAGCCTGCTTAGAAATGAAAGTCGATCTTC TGTGGTTTTGTTGACCGCAGAATCTTTTGACACTTATATGGTCATAAATTGTTTACAACACTTTGCTTCTTGCCCATTTG ATATGTCATTCTGGACTCTATCCAGTCTGCTTACTCCTTCTATATCATAACCCGGTATTCTTTTACGACATTAATGTATA ATCTGTGTATATACTTGTTTTTATGTAAAGTACATTTTTAACTTGTCTCTTTTATTTAGAATATTGTTCTATCAGTATCT GGTGTTTACTTGGACTTAAGTTTCGAAGTTTGATGTTTAGATGCCATGGCTTTAATTGCATTTATATACTTTTTATGGCA GTGTGGCTCGTTTCCTGGAATCGAGAGGGATGATAGAGGATGCTCTTGAAGTAGCTACTGACCCTGACTACAGGTTCGAT CTAGCCATGCAGCTTGGGAAATTAGAAGTTGCAAAGGTAAGTTCATACGTAAAGGAGATATTACTTGCAAACTTTTCATA CCTTGGGTGTCTAGTGTTTTCTTTCTTTCCTTTCAATGAGTTTGTCTTGTTAGTTCATATTGTGAGTTATGAATCCTCTC TTTTTGCAGGGTATTGCGACAGAAGTGCAGAGTGAGCCTAAATGGAAGCAGTTGGGAGAATTAGCCATGTCTTCTGGAAA GGTTTTTGTCTCTGCCAAATGAATCTTCGTTTTTGGTGATTTCTGTAATACTGGTTGTATTATATTCCTAGATATCAATG TCCTAACCTATTTTATGTGAGTGCCCTATTAATGTGACGCTGAGCATGGCCACGAATAAGAGGATTCTGTGGTTTTAATT AGTGCCAAATTAAGATAGTTTAGATAAATGTTTATGCTGTTTGGAATTTGTGTTCAGATGCTTTGGGTTATGTTTGAATG GAATGGATAGAGTGTAAAGATAAAAGGAACATATCATATTGTAACCTCCCAAATGCCCAATTTTTTATAACCTCCAAATT GGGTAGTTTGAAATGGAATATTTCTTTTTTTTAACACACACTGTACTCTTCTTTTGCTTCAACCACATAATTAAAAGGTT ATTCTTGGAAGTGAAATCTCTAATCCACTCCATTAGTCATCATTGTGACTTCCAAACGATGGTGGCAGGCCTCCTTCCAC TGCTTCATTAAAACTTAAAAAAAAATAGAATGGGATTCTTTTACCATTCTACATAATCCCATTCTAGATCAGTCTATTAT GGATCACTCCCACTCTGTCCCTTTCAAAACTGCCTAACATATCTTGTGCTCTAGATGCTGATTCTAAATTTCTAATACAT GATTAGGATGTCAAATATTTATTTTATACTTGTCACAATCTGTAATGATTCTGGTGGCACTTGATGTTGATTATTGTTGG TTATCTCTCTCATTCTAGTTCAGCTCACTTTATTATCTGTTCTTGCAGTTAGAAATGGCTGAGGAATGCTTAAAACATGC AATGGATTTGAGTGGGTTGTTGCTGCTATATTCTTCTTTAGGAGATGCCGAAGGGTTATCAAAACTTGCAACTCTTGCTA AAGAGCAAGGGAAGAACAATGTTGCATTCCTTTGCTTATTTATGTTGGGTAAACTTGAAGACTGTCTTCAACTGTTGGTA GAAAGGTAATCTTATAGAACTTTGCTCTTTTTATTTATCTCACTGGCACGGAGAGAGAGAGAGAGGGTTGAATGGACTAC TGTTAGATGTAACTGAGTTATGCATTTGGCAGTAATCGGATTCCGGAGGCTGCTTTAATGGCTCGATCTTATCTCCCAAG CAAAGTCTCAGAGATAGTGGCAATTTGGAGAAAAGATCTCAACAAGGTAATTTGTTATTGAGATATATATTATTTACTTA CAATGGAATGTTGTGCACATGATATTGTGGGTAAGGAATTTCCGTTCCCATTATATTGCGTTGTCCGGGAATTCTTATCA TATTGATCTTGCAATCATGTTGACAGATGGCATGAGAATTTAAAATGTTATTTCTCATATTTATTTGTTAATACACACAG GTTAATCCAAAGGCTGCTGAATCATTGGCTGATCCTGAGGAGTATCCTAATTTGTTCGAAGATTGGCAAGTTGCTCTTGC TGTTGAATCTAAATCTGTAGAAACAAGGTCAGTGGAGAAATGCACACTTTCTTCGATCATTTGTGTTTTGAGTAATGTAC TGAACATCTCCAAAAAGTGTTTGTACTAACTACTTTTGGTCTTCTATAATAGGGGTGTTTACCCTCCTGCGGAGGAGTAT GTCAACCATGCTGGTAAATCACATGTAACCCTAGTTGAAGCTTTCAGAAACATGCAGATTGAAGGGGAACAACCTCTTGA GAATGGGGAATCTAGTCATGAGGTATAACATAGAACTAAACATAAAATTTATCAAAATATTCTCATGACTAAATGATATT GTATTATTTTGCTGCTATGGAAGGAATAAATTTATAGCTCCAATGGATAGTTAGTACTTGTGTTAGACTGTTGCAGTGTT GCTTTATGTTGTTTTTATGTCATTTTGTCTCAGTTGGCTGAACATAATGGAGAGGAGGACCATACCGAGGAACACGAGGA ACAAAATGGAGAGGAAGGCAGCCAAGAGGAGGGAGTTGTAGTGGATGCTGATTCGACTGATGGTGCTGTCCTCATTAATG GTAATGAGGCTGACGAAGATTGGAGTGCCAATAATAAAGAGGACCCATCAACATAA
CDS sequence (LotjaGi3g1v0362000.3) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGGTCAAACTTGGCCGAGAAGAACCTGTAGCCAGCATGGACAACAGTGGAAAAATAATTTGGGCTAAGCACAATGAAAT TCAAACTGTCAATATAAGGAGTGTAGGAGCCGATGTGGAGATTGCTGATGGAGAAAGGCTGCCTTTGGCTGTTAAGGAGT TGGGCACCTGTGATCTCTATCCACAAAGTTTAAGGCACAATCCAAATGGAAGGTTTGTTGTTGTTTGTGGGGATGGTGAA TATATTATATACACTGCTTTGGCGTGGAGAAATAGGTCATTTGGTTCAGCACTGGAAATTGTTTGGTCTTCCGATGGAGA GTATGCTGTAAGAGAAAGCACGTCCAAGATTAAAATTTTCAGCAAAAATTTCCAGGAAAAGAAGAGTATCCGACCAACGT TTTCAGCCGAAAGAATATTTGGTGGCACTGTATTGGCTATGTGCTCAAATGATTTCATCTGCTTTTATGATTGGGCTGAA TGCAGGTTGATTCGTCGTATTGATGTGAACGTGAAAAACCTCTACTGGGCTGATAGTGGTGATCTTGTTGCGATTGCTAG TGATTCATCATTCTACATCCTGAAGTACAATCGTGATGTTGTTGCATCATATTTAGATAGTGGAAACCCAGTAGATGAGC AAGGTGTTGAAGATGCCTTTGAGCTCCTTCATGAAATGAGTGAACGTGTCAGGACGGGTATCTGGGTTGGTGATTGTTTT ATCTACAGCAATTCTTCTTGGAGGCTTAATTACTGTGTTGGTGGTGAGGTAACTACAATGTTTCATTTGGACCGTCCTAT GTACTTGTTGGGATATCTTGCCAGCCAAAGTAGGGTCTACCTTATAGATAAAGAGTTCAACGTTATCGGATACACATTGC TTTTAAGCTTGATTGAGTACAAGACTCTTGTGATGCGTGGTGATTTGGAAAGGGCCAATGAAATTCTACCTTCTATTCCA AAAGAGCATCAGAACAGTGTGGCTCGTTTCCTGGAATCGAGAGGGATGATAGAGGATGCTCTTGAAGTAGCTACTGACCC TGACTACAGGTTCGATCTAGCCATGCAGCTTGGGAAATTAGAAGTTGCAAAGGGTATTGCGACAGAAGTGCAGAGTGAGC CTAAATGGAAGCAGTTGGGAGAATTAGCCATGTCTTCTGGAAAGTTAGAAATGGCTGAGGAATGCTTAAAACATGCAATG GATTTGAGTGGGTTGTTGCTGCTATATTCTTCTTTAGGAGATGCCGAAGGGTTATCAAAACTTGCAACTCTTGCTAAAGA GCAAGGGAAGAACAATGTTGCATTCCTTTGCTTATTTATGTTGGGTAAACTTGAAGACTGTCTTCAACTGTTGGTAGAAA GTAATCGGATTCCGGAGGCTGCTTTAATGGCTCGATCTTATCTCCCAAGCAAAGTCTCAGAGATAGTGGCAATTTGGAGA AAAGATCTCAACAAGGTTAATCCAAAGGCTGCTGAATCATTGGCTGATCCTGAGGAGTATCCTAATTTGTTCGAAGATTG GCAAGTTGCTCTTGCTGTTGAATCTAAATCTGTAGAAACAAGGGGTGTTTACCCTCCTGCGGAGGAGTATGTCAACCATG CTGGTAAATCACATGTAACCCTAGTTGAAGCTTTCAGAAACATGCAGATTGAAGGGGAACAACCTCTTGAGAATGGGGAA TCTAGTCATGAGAATGGAGAGGAGGACCATACCGAGGAACACGAGGAACAAAATGGAGAGGAAGGCAGCCAAGAGGAGGG AGTTGTAGTGGATGCTGATTCGACTGATGGTGCTGTCCTCATTAATGGTAATGAGGCTGACGAAGATTGGAGTGCCAATA ATAAAGAGGACCCATCAACATAA
Protein sequence (LotjaGi3g1v0362000.3) extracted from Lotus japonicus Gifu v1.2 Proteins.
MVKLGREEPVASMDNSGKIIWAKHNEIQTVNIRSVGADVEIADGERLPLAVKELGTCDLYPQSLRHNPNGRFVVVCGDGE YIIYTALAWRNRSFGSALEIVWSSDGEYAVRESTSKIKIFSKNFQEKKSIRPTFSAERIFGGTVLAMCSNDFICFYDWAE CRLIRRIDVNVKNLYWADSGDLVAIASDSSFYILKYNRDVVASYLDSGNPVDEQGVEDAFELLHEMSERVRTGIWVGDCF IYSNSSWRLNYCVGGEVTTMFHLDRPMYLLGYLASQSRVYLIDKEFNVIGYTLLLSLIEYKTLVMRGDLERANEILPSIP KEHQNSVARFLESRGMIEDALEVATDPDYRFDLAMQLGKLEVAKGIATEVQSEPKWKQLGELAMSSGKLEMAEECLKHAM DLSGLLLLYSSLGDAEGLSKLATLAKEQGKNNVAFLCLFMLGKLEDCLQLLVESNRIPEAALMARSYLPSKVSEIVAIWR KDLNKVNPKAAESLADPEEYPNLFEDWQVALAVESKSVETRGVYPPAEEYVNHAGKSHVTLVEAFRNMQIEGEQPLENGE SSHENGEEDHTEEHEEQNGEEGSQEEGVVVDADSTDGAVLINGNEADEDWSANNKEDPST
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 | 602 | 602 | 0.0 | – | |
PANTHER | 1 | 602 | 602 | 0.0 | – | |
Gene3D | 1 | 108 | 108 | 4.8E-8 | ||
Pfam | 24 | 468 | 445 | 2.6E-166 | ||
SUPERFAMILY | 53 | 197 | 145 | 3.48E-12 | ||
Gene3D | 295 | 503 | 209 | 1.9E-86 | – | |
MobiDBLite | 552 | 620 | 69 | - | – | |
MobiDBLite | 557 | 572 | 16 | - | – |
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 | Structural molecule activity | The action of a molecule that contributes to the structural integrity of a complex or its assembly within or outside a cell. | ||
Molecular function | Protein binding | Interacting selectively and non-covalently with any protein or protein complex (a complex of two or more proteins that may include other nonprotein molecules). | ||
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 | 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. |
Expression pattern of LotjaGi3g1v0362000.3, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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