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Field | Value |
---|---|
Gene ID | LotjaGi1g1v0396000 |
Transcript ID | LotjaGi1g1v0396000.1 |
Lotus japonicus genome version | Gifu v1.2 |
Description | Cyclic nucleotide-gated channel; TAIR: AT2G24610.1 cyclic nucleotide-gated channel 14; Swiss-Prot: sp|Q9SJA4|CNG14_ARATH Probable cyclic nucleotide-gated ion channel 14; TrEMBL-Plants: tr|V7AWW4|V7AWW4_PHAVU Uncharacterized protein; Found in the gene: LotjaGi1g1v0396000 |
Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr1:88214924..88224569) extracted from Lotus japonicus Gifu genome v1.2.
TGAAAACTTGATCTGTTAGTATCAATATTTTCCTGCTATACTAGTATAACCAATGTGCACGTTCCTTGAAATGGAGTGAC TCAACAAGTTTCTCTTTATCACCATGTATATTATAAATATTTTTTTCATGGTTCCCACGTTCCTGCTATACTAGTATATC CAATGTGCACTTAGTGGGAGGCCGTTTTGGTGGTTACTCTTTTCGTTTTCCATTGATGCAAGTCAAAACCATTTTGTCCA AATCCAAAAGCTTATTTTTTGTTCTAGTGGAAGTACAATACACGTTTTGTTGGGATGAGAAGCAGGTAATGTTCAAAGGA AACAAAAGACACAGTAGAGTTTGCTTTTCTTTCATTGTGATGTAGTAACTTCCAATGCATACCTTAACAGCAGTATCTAT CTGAGCATTTGATAATAGTTCATCATAAGAAATAAGAATGGAGCTGAAAAAAGAGAAGCTAGTCAGGTAAAGTGTCTATC ATGTTCTCTGTTATTCTTCTTTTCCATTCCCATTACATCGTTGCATGTATTTGAATATTGGCTTTATAAACTTACAGGTT CTCCAATAATGAAAAACAGAATCTTGAGTCTTCTTGGGAAAAGCCATTCCAAGTCTACATGAATCCGGAATGCAAAATTG GTAGTGGTGATAAGAGCAAAATGAATGTTAGAAACCTCACATTTGGAAAATTTAAGGTTTTCCCAGAAAATCTTGAGCCA TGGAAGAAGAGGATTCTTGATCCTGGTAGTGATGTCTATTTGGAGTGGAACAGAGCTTTCCTATGTTCTTGCATGCTAGC TTTGTTTGTTGATCCCCTGTTTTTCTACCTCCCCTCAGTAGCAAATAATGGGAATTCTACATGTATGGCTACTGATTTGA ACATAGGAATTGTTGTGACATGTTTCAGAACATTTGCTGATGTTTTCTACCTGCTGAACATGGTGATCAAGTTCAGGACT GCCTATGTGGCACCAAGTTCAAGGGTTTTTGGGAGGGGAGAGCTTGTTATGGATCCAAAGTTGATTGCTACAAGGTATTT GAGATCAGAGTTCTTCTTAGATCTTGTAGCTACACTGCCTCTTCCTCAGGTATCTCATCTGCTTGAATAGCTGATTTTGC CTATGCTTAATTTATAGGAAGTAGAAACAGAAAATTATTTGTACTTTTGTAGTGGTCTGCATAGTGCAGACATCCAACTA ATACCTAGAGTGAGTGAGGAAGAGAAGAGAGAAGTAATGAATGGGATGTATTATGACAGGGACGAAACCACATTATGTGT TCGCCCTCTTAAATCTTTTCACACTATATCACTTAATTAGTGGTTGTTGATTTTGTTGAATACATGTTCAATTTTCGCTC CCCCCTATTTTTGGCTTTCATCCCAAGAGAGAGATTGAGAGAAAAATGAGGTGTTTGCAGTATTTGAGTGTCTAAGTATC ATTACTTAGTAGAAAACTAGTAATAACATGCTTAATCTTTAATTACAACTTCATAGTGGTGTGATGGAAGCTTTAATAAA TTTAATCTTCTTCATGGGGTAACCACTGATGATTACCGAGTAAATTTAATAATAAAATGGATTTGGTTTTCCCTTCTGTT CAAGGTTGGAATAGGATCTTAACATTTTGTTTCTATTACCATGTAATTTGCAGTACCAAAGAGCAAGAGTTTTATGTAAT AACTGATTGATGCACCTTTTGGAGTCTTTGCTTGGTTTTATGTATTTATATCTACTCCCTGGAAATTAATGTCATTGTTG GCTTTTCTTTGTTGGCAGATGGTGATTTGGTTTATCATGCCAGCAATTAGAAGAAGCTCCCATGCTGATCATACCAACAA TGCTCTTGTACTCATTGTTCTGCTTCAATATGTCCCCAGATTATATTTGACTTTCCCATTAAGTTCTCAGATTATTAAAG CAACTGGTGTAGTTACAAAGACAGCTTGGGCTGGAGCTGCTTACAATCTCTTACTTTACATGTTGGCTAGTCATGTATGC TAAGTTTTCTTCAATCAGAAATTGCCTTTAGTAATTGACAGTTTCAATTAGTTAGTGCGTATTTGGGTCAGCGTTGTCAT AATTGATAAAATTGATTATGGTAAAAGTGAGTTTGAAAGTGAAGTGATTTATGATTGGATACATTTATGGGAAAAGTTAT TTATTTCTATAAGATAATATTGTGAAATTCAGTAACAAAATCCCACAATTTATTATGTCCACTGCAAAACCTACTCTTTC TAACTTCTCCACAGAATTGATTTTGGGACTGAAATTAGTTCTCTAGGTTGATGGCCAAACATCTATACAACCACTTAATG AGAATTGAATTTATGGCTCTAAACGTGTAATCAAACATACTTTATTAACTTATTGTAGCATTTCAGATACTTACATAGTA CAACTCTTCTTGTAGGTCTTGGGGGCATCATGGTACTTGTTGTCAATTGAAAGGCATGCTAGTTGCTGGAAATCTGAATG CAGAAATGAAAGGCTACCAGTAAAATGTGTCCTTCAGTACTTGGATTGCAGTACTTTAGATCATGGTGATCGCATGAAGT GGGCAAATACCACTTCTGTGTTTGGTAACTGCAATCCAGAAAATAGCACAAATTTCAACTATGGAGTCTTTGCCAATGCA ATACAAAATAATGTTATCTCCTCCACATTTACTGAGAAGTACCTCTATTGTCTGTGGTGGGGCTTGCAGAATTTGAGGTT TGATTCTATGTTTTGCTAACATGCAGCAAGTATGCTTTGGCTGAAAGAAGATGATGGATCTTACTCCTGACTTTATCCCA TGTTGTTTTTTCTTTCTTCTGAGGCAAGAGGAATGAACGGTGCTGCCGCTGGCAAGCTAGTGATTGGAAGAATGAAATAC GTTCGAGAGTCCCTGAATGTATAAAATCTCGGCCGAGTTAGTCCCTACGTCTGATTTGGTCAGCTAAAACGCTGGTCAAG TTAGACTAACTTGAGTGACTTTTTACACCAGGACTTTTGAACGTATTTCCTTCTTTCAAGAACCAAGTTAATCATTCACC TTGAAGCAAGAGATTTCGCTCATTAGTCTGGATACTCAGTTAACTTTCTTTGGAGATGAATATTTGACGTGAAATTCAGC TGAACATCACATTTCTTTCTTCATTGTATTTTCAGTTCTTATGGCCAGGGTTTGACTCCAAGCACATTCGTTTGGGAAAC TGCATTTGCAATACTCATAGCTATTCTGGGCCTGGTATTGTTTGCCCACTTAATTGGCAACATGCAGGTAATATTCATAA GGACAACTCTTTAACTTGTCATTTTTTGTTATTTGACATTGTTGATTTGAACTAGAACCTCTGCATATAGCTACATCATT TGATGAAACTTCAATTGATAAAATAATCTAAGCATGCTCAATTTTAATGCAGACATATTTGCAATCTATTACTGTGAGGC TTGAAGAGTGGAGACTGAAGCGACGTGACACTGAAGAGTGGATGAGCCATCGGCAGCTCCCACCACATCTCAGAGAGCGT GTGAGGAGATTTGTTCAGTACAAGTGGCTTGCAACTCGTGGGGTTGATGAAGAAACCATCGTAAGAGGCCTTCCTCTAGA TCTCAGAAGAGACATCCAACGTCACCTTTGCTTAGACCTTGTGAGACGTGTAAGTGCAAGTTTGGATTGTCACAATTGAT TTTGGATCAAAATTGATTTTGGTTAAATTGATTATGGTCAAATCTAGCTGTAAAAACTCACAATTGATTATGTTGAGCAT AGAAGCTTCTCTCCCGATTCTAACAGAATATATTTTGGATCGAAAATCAATTCTTTGTGATGACTTTGCATGTTTGGAAA TTCATTTGAAAACCATGGTGAAGCTAAAATCATGGTGCACAGAAGCAAAGTTTCTGCTCATCATAGATTTGGCTTCACCG TGGTTTTGAAACGAAATTTAGGTTCTTTCTAAGCATCCATGGCTTCATATCTGAGCATAAAATCAAACCGTTCAACAGTT TTTCCTCATGCATTTGAAATGGAATAGTTTCTTGAAGTTCATGACACACCATGCAATGGCTTTCTTTCTCCACCAATTAC AGGTTCCCTTCTTTTCCCAAATGGATGCTCAGCTACTTGATGCAATATGTGAGAGATTGGTATCATCCTTGAGTACTCAA GGCACATACATAGTCAGAGAAGGAGATCCAGCTACAGAGATGCTTTTTATCATTAGAGGGAAACTTGAAAGCTCAACTAC AAATGGAGGTAGAACTGGTTTCTTCAACTCAATTACCTTAAGACCTGGTGATTTCTGTGGAGAAGAGCTACTAGCTTGGG CATTGCTTCCAAAATCCACTCTCAACTTGCCTTCTTCTACAAGAACAGTTAAAGCCCTTGTAGAAGTGGAAGCCTTTGCA TTAAGAGCAGAAGATCTTAAATTTGTGGCCAACCAGTTTCGACGTCTCCACAGCAAGAAATTGCAGCATACCTTCCGTTT CTACTCTCATCATTGGAGGACATGGGCTTCTTGCTTCATTCAAGCTGCATGGCGCCGGTACAAGAAGAGAGTGTTGGCGA AAACTCTTAGCCGGAGGGAATCCCAGTATTTCATTGATGGTGAACAAGTAAGGGAAGAAGAGCATAGTGTTGTGAGTTCA AACACTGCGCAAGTAAAACAGAACCTTGGTGTTACTATACTGGCTTCAAGATTTGCTGCTAACACAAGAAAAGGGGTTCA GAAGATCAAGGATGTGGGGATGCCTAAGTTGCAAAAGCCTGAAGAGCCAGACTTCTCAGTAGAGCATGATGATGACTGAA TCCATACCATCTTCATGAGTGTAAAGTATTGTTCCTCATTCAAATAATATGTGTGCATTAGTTGTTTGTTGGTGGAGAAG CTTTGTTTGGGCTACATCTCTCATAGTGTTTTTGGATAAGCTTCTCTTTCATCATAATTAATTGCAGAAGTGTTTCAAAA CATGCAATTAGTCTATACTTATCCAGATTATTTCGCTGAGTTGTGATCCATTCCCAGTCAGCACAGTTGATGGCTATAGG CATCAACTTTGTGCTAGAAGTTGCTTTTGTTTGTGTTTTGAGCTCATACATCTTTACCAAGTGATTTTCATCTTGTATAT TAGACTTTCTTGACATGCCAACTGTATATTACACTACACTGTTTATGGCATATTGTCCTATTAGTTCCTGTTTTTGCTCG TGCTTATTTTTATATTCTTTCTATTGTATCATAAATATACAATTACTTTTTGAAGACTATTTTGATGGCTTATCCTAAAC TTTTTCATGTTACTCAGATTGAAGTGCTTACACTACTGTAATTGGTAAACTACTTGTAGAAATTAGCTAGTGGTAACTTT GTTATACTGCTCTGATTAGGGTCTGATATCCCTTAATATGTAAATGCCGTTTGGCTTGGCTTCAGCCATTAATCTGATGT TTGATGACAAAAAAAGTTGTACCGTCAAGAGCACAAAGCATGTTGGGTCAGTGATGAAAATCTCAGTGTCTACTTGATAG ATTTAAGAACATGAATGTATTAGAGGGGCCACATGCACTTGAGCTTGTCTTTGCTATTTCCTGCCGACACCATTTCATTG ATGGAATCCATAGTCAGGCAATTGAAAAGCAAGTTTGCCCAAGTACCAAAACAAACAAAGGGATGAAACAGAGTAGAGGG AATAAAAATTATTATTGTTTACATTAGATACTAACGAATGTACAGAAAGATGCACTTTGCTCTAAGAAATCTGGAATGGT AAAACTGGAAACTCTGAATCAGAACTTACAATCCCAAACACAACCCAAGAATACAATGAAGAAAACTGAAATTTTTTTAT ACACCTACCTAAAACAGATTAACAAGAATTCGATATCTGTAAGATTACAATGACCAGCTCCCTATGGAATACTTAGGATA TATAGTGTGAACTGTGAATGCAAAATGGATAGAGTTGAGTAACAGGGAAGCTTTGTTTTGGGTAAGTGCAATCAATGATC CTGTAGTAGGAATTTCATGAAGGAAAAACTATTCAACTTTACTTCATTGCTGATTTTGTTGCTGGACTGCAACTTGGATG GTAAATCAGAAGTTGCATTTCGTCTACACTTTTTTTCGCTGTATTGAATGAAAACTAGCTCATCTGCTCTCCAATCAAAT CAAGACCAACAAGAAGGAAGGTAATACCTTGGAAAAGCAGAAAGTAGAAGTGAACTCCTTGTGCAGATAACAAACTCCTC ACAGAAGCTGTGAGAAGAAGGAATGCCAAAGTGAGCTCTTTCTTATATATCTTATTAGTTTTCTTAACAGGTGTTGGAGC TGCTTCTTTGAGTTCCTTGAAATGGCGTGACTCAACAAGTTCACTATCAGAAGCTCCTCTATGTATCTTTGGTTGATCTA TTGATTTGGCTTCCCTTTCCGCAGCGGCGAGTAAATCGGACTCCGACGACCTTCCAGCCTTCTTCGTGACAACCCATTCA TAAGAGCTTCCCAATTGGAAGAGTCCAGATACCATTGCATTGAATTTGGTGACAGACATGGTGTTTTCAAAGAGGAGGTA GGGAACGATGAAAGGAAAAGATTTCGGGGCAGGAAGAATGTTAAGGAATGACATGAACACAGGCACATAGCAGATCACCC ATAGAGGAAGTTCTGCCTCTGGGACAAACATGGTTAAAGGAAGAATTATGCAAAATAAGGTAAAGGAGTAAAAGGGAAGG ATTAGTTTCCTTAACAGAAAAAATAGCAGTATTAGGTTTGCTTTCTTCCATGCTGAGACCTGCAAGAGAATAAGGCCCTT TAACGCAGTGCGCATTATAAGCAATACTTGCAAGTTGTCAAAACTTGCTTTTCTCTATCACTATTCTATTTATTACTTCA ACCTGAGTAATAGATGTACCTTAGATTTCAAAATTGCGGGAAGGCACAACCTAAAAAGTTGCATAGGACCTGAATGCCAG CGGTGTTGCTGCTTCCTATAAGCTTCATATGACTCAGGAACTTCACAAAGTACCTGAAAATTTAGTAATTTAAGGAATTC AAGAGGAATCTTAGGATAAATAGGAAACCCAATTCATGAAGGTGACTCAACCAGTCATATGATGCACCCATAAGAAAAGG AGAAATGGATGGAATAAAACTGCAATTTATGATCACCTTCACATCATTTAGGAAGATAAACTTCCAACCATGAAGATGAG CTCGGACAGCAATGTCCATATCTTCTACGGTTGTCCGCTCCAGCCAGCCCCCGGACTCTTCTAGGGCTTGAATTCTCCAA ACACCAGCAGTTCCATTGAAACCGAAAAAATTGAGGAATACCCCATTGACCTGTTGTTCTACTTCAAAATGGAAGCATAA ATTAATGTTTTGGAGACGAGTCAACAAATTTTCATCCTTGTTCACAAAAGACCATCTAGCTTGCACCAAACCTAGTTCAG GGTTGTCCTGTAATAAGAAGGTTTTAAAATATGTTAACCAAAGTTTCCAATAAAGTTTTCTGGACAACATGTTTCATGAT CTTCACTTAACCTTGAAATGTGGCACAGTTTGCTTAAGAAAATCAGGATTTGGTTGAAAGTCTGCATCAAAAATTGCAAC AAACTCATAGTCTTTCACATAGTCACAGCCCATTGCAGATTGAAGATTTCCAGCTTTATATCCAGTCCTGATTAAGCGAT GCCGATAGATTATGTTAATTCCCTTTTGGTTCCACTTAGTGACCTCTGCTTTAATTAACCACTGGATGTCCTCATCATCA GAATCATCAAGTACTTGAATCAGTAAACGATCCCTTGGCCAATCAAGTTGGCACACTGCAGAAATAGACTGGTCGTATAC CTGCACAAAGCCAGTGTATGCAAAAAGATTATATGTTTTACTCGTTGACACATTGTCACTGATAGCTTAAAAGAGTTAAG AATTCCTCACTACAACATAACATCATGAGGAAACTTATCTTCTAAATTATTAAGATGTGCCATGAGTTACATAAACAGAA AATAATGCTATCAATACTACATTTGTTTAACCTAACACAGATGTTCTCCACGTGAGACAACCCTATTTGAACCTTGGACA TGCTTTTGGGGCTAGCACAACCAGCGGGTTTTATTTTTTCCATACACAAAACTCAAACATGAGAACTTACTTAAGGAAAT TAAACATGCACCACTTAAACCAATCACTCATTGGTTTTTTATTACCTAACATAGTCAATTCAGCTTTAATAGTGCAGAAA AGTATTCATGATTCTGACTTTAGAAGGTTGCAGATAATTCCTAAGGGAGTTATATCTTGAAATTATAATGTGTCATGTGT CAACCTAGATGGTACTACATGCCTGGATGCTGTGTACAAATTCACTTCCCTCCTCTTTTCCTTTTATTTTTCAAGTGGAT TCTTCTAATTCTTTAAGCATTAGAAAAAAGTGAAACAAAACTTCTAAGCTCTATCTACACATGACATTTGCAAAATCTAT TCCTCGCTAAACAATAAGAAAAGCTAAAATTAATGTAAACAAAGCAACTTGATCAGCACAAATGGAATACAGAAGTTTAG TGTTATACCTCCCTCTCATTACACATTGGAATTTGAACCAGAACCATGGGATAATTGCACACAGATCCTTCTACATCATC AATCTCGAAGGGATCTCCAACAATCTGTGGCTTAACCTTCTTGAATTTCATCCAAAAGCACCCCAAGCAAAGAAGCAAAC GATCCACCGATTGGATAAGAAACATAACAACACAAAACATGGTAAGAGCCTGAATTGGTGGAGCAATGTACTCGGCGCGA AACGTTACCCAAGCAACATAAACCATGTGGAACAACCCTTGCAAATCCGAGGTACGAGGAATGTGCAACAACCTAGGATT CCCAAAATGCCAACCTTGCAGGTAAGCAACAACCTCAAACCCCAGAACAACCATTGAAGTCACCAGGAACATTCTAATGA CTCTAAACAGTAACCTCCCTTTATCCAAATTCTCACTCTCCCTATGAATCAACCTCTTCTTAATGGCTCCGAGCAACGCC CACAGCACGGTGGCGAGCCAAGAGACACAGCCAACAGCACGGTGAGCCTTGAGAAGCAAAACCCATGTGACCTGCTTGGC ATTCTTGCCACGGTTCTTCTCTACTGGCCTAAACGCAGCGTCTGCACCGTTTATCTCCACAACAGAGAAAGTGGGGTTCT CCATTTTCACTACCACTGGTGTTCCTCTCTCTGAATCCTTGAAACCCCAGTTGGAAAAATCCAATCTAGGAGCCATTTTT GGATGCAGATTCACAGTTCTCAACAAAAAAACACTAAAGAGTTGGATCTGAGAAACAATGGAAAGGAAGAGAAAAGAAGG AAGGTTTCATATTCTTATTGGAAGGTGAAGGAACCCTCTTGAAGGCTCTGCATTTAACAAAATGTGGAACATAAAAGGCA AAAACTTGAAGTGAGTGAGGGTGTTTTTGTACTAGTATGAAGGAAGGAACTCTAGAAGACACCTAACATTGGAAAGCCAC ATTATGAGGGAAGGTATCAGCAGCTAGCTGTAAGACAGAGTGTGAGTGAGTGAGATGCTAACTTCCAAGTGGGTTTCCCC CCAATAAATCAACATAAACCATTCCTCCCAATCCACAATATGCTCA
CDS sequence (LotjaGi1g1v0396000.1) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGGAGCTGAAAAAAGAGAAGCTAGTCAGGTTCTCCAATAATGAAAAACAGAATCTTGAGTCTTCTTGGGAAAAGCCATT CCAAGTCTACATGAATCCGGAATGCAAAATTGGTAGTGGTGATAAGAGCAAAATGAATGTTAGAAACCTCACATTTGGAA AATTTAAGGTTTTCCCAGAAAATCTTGAGCCATGGAAGAAGAGGATTCTTGATCCTGGTAGTGATGTCTATTTGGAGTGG AACAGAGCTTTCCTATGTTCTTGCATGCTAGCTTTGTTTGTTGATCCCCTGTTTTTCTACCTCCCCTCAGTAGCAAATAA TGGGAATTCTACATGTATGGCTACTGATTTGAACATAGGAATTGTTGTGACATGTTTCAGAACATTTGCTGATGTTTTCT ACCTGCTGAACATGGTGATCAAGTTCAGGACTGCCTATGTGGCACCAAGTTCAAGGGTTTTTGGGAGGGGAGAGCTTGTT ATGGATCCAAAGTTGATTGCTACAAGGTATTTGAGATCAGAGTTCTTCTTAGATCTTGTAGCTACACTGCCTCTTCCTCA GATGGTGATTTGGTTTATCATGCCAGCAATTAGAAGAAGCTCCCATGCTGATCATACCAACAATGCTCTTGTACTCATTG TTCTGCTTCAATATGTCCCCAGATTATATTTGACTTTCCCATTAAGTTCTCAGATTATTAAAGCAACTGGTGTAGTTACA AAGACAGCTTGGGCTGGAGCTGCTTACAATCTCTTACTTTACATGTTGGCTAGTCATGTCTTGGGGGCATCATGGTACTT GTTGTCAATTGAAAGGCATGCTAGTTGCTGGAAATCTGAATGCAGAAATGAAAGGCTACCAGTAAAATGTGTCCTTCAGT ACTTGGATTGCAGTACTTTAGATCATGGTGATCGCATGAAGTGGGCAAATACCACTTCTGTGTTTGGTAACTGCAATCCA GAAAATAGCACAAATTTCAACTATGGAGTCTTTGCCAATGCAATACAAAATAATGTTATCTCCTCCACATTTACTGAGAA GTACCTCTATTGTCTGTGGTGGGGCTTGCAGAATTTGAGTTCTTATGGCCAGGGTTTGACTCCAAGCACATTCGTTTGGG AAACTGCATTTGCAATACTCATAGCTATTCTGGGCCTGGTATTGTTTGCCCACTTAATTGGCAACATGCAGACATATTTG CAATCTATTACTGTGAGGCTTGAAGAGTGGAGACTGAAGCGACGTGACACTGAAGAGTGGATGAGCCATCGGCAGCTCCC ACCACATCTCAGAGAGCGTGTGAGGAGATTTGTTCAGTACAAGTGGCTTGCAACTCGTGGGGTTGATGAAGAAACCATCG TAAGAGGCCTTCCTCTAGATCTCAGAAGAGACATCCAACGTCACCTTTGCTTAGACCTTGTGAGACGTGTTCCCTTCTTT TCCCAAATGGATGCTCAGCTACTTGATGCAATATGTGAGAGATTGGTATCATCCTTGAGTACTCAAGGCACATACATAGT CAGAGAAGGAGATCCAGCTACAGAGATGCTTTTTATCATTAGAGGGAAACTTGAAAGCTCAACTACAAATGGAGGTAGAA CTGGTTTCTTCAACTCAATTACCTTAAGACCTGGTGATTTCTGTGGAGAAGAGCTACTAGCTTGGGCATTGCTTCCAAAA TCCACTCTCAACTTGCCTTCTTCTACAAGAACAGTTAAAGCCCTTGTAGAAGTGGAAGCCTTTGCATTAAGAGCAGAAGA TCTTAAATTTGTGGCCAACCAGTTTCGACGTCTCCACAGCAAGAAATTGCAGCATACCTTCCGTTTCTACTCTCATCATT GGAGGACATGGGCTTCTTGCTTCATTCAAGCTGCATGGCGCCGGTACAAGAAGAGAGTGTTGGCGAAAACTCTTAGCCGG AGGGAATCCCAGTATTTCATTGATGGTGAACAAGTAAGGGAAGAAGAGCATAGTGTTGTGAGTTCAAACACTGCGCAAGT AAAACAGAACCTTGGTGTTACTATACTGGCTTCAAGATTTGCTGCTAACACAAGAAAAGGGGTTCAGAAGATCAAGGATG TGGGGATGCCTAAGTTGCAAAAGCCTGAAGAGCCAGACTTCTCAGTAGAGCATGATGATGACTGA
Protein sequence (LotjaGi1g1v0396000.1) extracted from Lotus japonicus Gifu v1.2 Proteins.
MELKKEKLVRFSNNEKQNLESSWEKPFQVYMNPECKIGSGDKSKMNVRNLTFGKFKVFPENLEPWKKRILDPGSDVYLEW NRAFLCSCMLALFVDPLFFYLPSVANNGNSTCMATDLNIGIVVTCFRTFADVFYLLNMVIKFRTAYVAPSSRVFGRGELV MDPKLIATRYLRSEFFLDLVATLPLPQMVIWFIMPAIRRSSHADHTNNALVLIVLLQYVPRLYLTFPLSSQIIKATGVVT KTAWAGAAYNLLLYMLASHVLGASWYLLSIERHASCWKSECRNERLPVKCVLQYLDCSTLDHGDRMKWANTTSVFGNCNP ENSTNFNYGVFANAIQNNVISSTFTEKYLYCLWWGLQNLSSYGQGLTPSTFVWETAFAILIAILGLVLFAHLIGNMQTYL QSITVRLEEWRLKRRDTEEWMSHRQLPPHLRERVRRFVQYKWLATRGVDEETIVRGLPLDLRRDIQRHLCLDLVRRVPFF SQMDAQLLDAICERLVSSLSTQGTYIVREGDPATEMLFIIRGKLESSTTNGGRTGFFNSITLRPGDFCGEELLAWALLPK STLNLPSSTRTVKALVEVEAFALRAEDLKFVANQFRRLHSKKLQHTFRFYSHHWRTWASCFIQAAWRRYKKRVLAKTLSR RESQYFIDGEQVREEEHSVVSSNTAQVKQNLGVTILASRFAANTRKGVQKIKDVGMPKLQKPEEPDFSVEHDDD
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 | 82 | 82 | - | – | |
PANTHER | 3 | 711 | 709 | 0.0 | – | |
PANTHER | 3 | 711 | 709 | 0.0 | – | |
SUPERFAMILY | 72 | 401 | 330 | 3.83E-30 | – | |
Pfam | 80 | 406 | 327 | 1.3E-29 | ||
Phobius | 83 | 105 | 23 | - | – | |
TMHMM | 83 | 102 | 20 | - | – | |
Phobius | 106 | 116 | 11 | - | – | |
Phobius | 117 | 136 | 20 | - | – | |
TMHMM | 117 | 136 | 20 | - | – | |
Phobius | 137 | 174 | 38 | - | – | |
PRINTS | 138 | 147 | 10 | 1.3E-6 | ||
Phobius | 175 | 197 | 23 | - | – | |
TMHMM | 175 | 197 | 23 | - | – | |
Phobius | 198 | 208 | 11 | - | – | |
Phobius | 209 | 226 | 18 | - | – | |
Phobius | 227 | 246 | 20 | - | – | |
TMHMM | 246 | 268 | 23 | - | – | |
Phobius | 247 | 268 | 22 | - | – | |
Phobius | 269 | 370 | 102 | - | – | |
PRINTS | 348 | 365 | 18 | 1.3E-6 | ||
TMHMM | 371 | 393 | 23 | - | – | |
Phobius | 371 | 393 | 23 | - | – | |
PRINTS | 374 | 385 | 12 | 1.3E-6 | ||
PRINTS | 392 | 401 | 10 | 1.3E-6 | ||
Phobius | 394 | 714 | 321 | - | – | |
Gene3D | 402 | 470 | 69 | 6.5E-15 | – | |
SUPERFAMILY | 409 | 601 | 193 | 2.49E-35 | ||
PRINTS | 442 | 449 | 8 | 1.3E-6 | ||
Gene3D | 477 | 597 | 121 | 1.4E-37 | ||
CDD | 479 | 610 | 132 | 1.70535E-18 | ||
ProSiteProfiles | 479 | 562 | 84 | 11.864 | ||
SMART | 479 | 610 | 132 | 1.2E-13 | ||
Pfam | 502 | 590 | 89 | 7.7E-9 | ||
ProSitePatterns | 506 | 522 | 17 | - | ||
MobiDBLite | 692 | 714 | 23 | - | – |
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 | Ion channel activity | Enables the facilitated diffusion of an ion (by an energy-independent process) by passage through a transmembrane aqueous pore or channel without evidence for a carrier-mediated mechanism. May be either selective (it enables passage of a specific ion only) or non-selective (it enables passage of two or more ions of same charge but different size). | ||
Molecular function | Voltage-gated potassium channel activity | Enables the transmembrane transfer of a potassium ion by a voltage-gated channel. A voltage-gated channel is a channel whose open state is dependent on the voltage across the membrane in which it is embedded. | ||
Biological process | Ion transport | The directed movement of charged atoms or small charged molecules into, out of or within a cell, or between cells, by means of some agent such as a transporter or pore. | ||
Biological process | Potassium ion transport | The directed movement of potassium ions (K+) into, out of or within a cell, or between cells, by means of some agent such as a transporter or pore. | ||
Cellular component | Membrane | A lipid bilayer along with all the proteins and protein complexes embedded in it an attached to it. | ||
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 LotjaGi1g1v0396000.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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