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| Field | Value |
|---|---|
| Gene ID | LotjaGi6g1v0308700 |
| Transcript ID | LotjaGi6g1v0308700.1 |
| Lotus japonicus genome version | Gifu v1.2 |
| Description | Potassium channel; TAIR: AT5G46240.1 potassium channel protein (KAT1); Swiss-Prot: sp|Q39128|KAT1_ARATH Potassium channel KAT1; TrEMBL-Plants: tr|A0A0K0TQ50|A0A0K0TQ50_9FABA KAT1-type channel; Found in the gene: LotjaGi6g1v0308700 |
| Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr6:62609872..62618789) extracted from Lotus japonicus Gifu genome v1.2.
GACAAGGGTTAGTGTGTTACAAAAGCCTTACTGGTCCACGTATCATACTTACAAAAAATCAGTTCTAATTCTTCTGTTTT ACACTAAACAATGTGTTTCATTCTGAACATGTTGTTTCAAACCAAGGGACTTTATTTCTTATTATATAATTTCCACCTCC ACATGTGTTGGTGGAGCAACCACCACAAGGACCAACCCAAAGGCCACCACCACTAGCACCACCATATAGACAGAGAGTAA CACCTTTTTGCATCTTCTTTGTACCCTCCTCTCTATGACATAAAAATTTGTCTGCAGCTGCATTTAAGAAACTCCCTTGT CTGCCACTTGCCGTACTCTATCATTTCCTCTCGTTTTCTTCCATCTCTTCAAGCTTTATTTGTTGAGACAAGAAGGTGGA TTTTCCCTCCACGTTTTTACACCCTCTTATTTAGCATTAGCTGCATAAGCTTCCTGATTATCCCTTCATCACAGGCTACA TAAGGAAAGAAGTGGTCTAAAACTGACTATAAATATGGCCAACTCCAGAGAGGATTCAAACCCATGAAAACTTCACTATC TCTATTGTACCTGTGAGGATTCAAGCTCATAAAATGTCAATTTTCTGTACAAAAAACTTCTTCCAGAGATTCTGGGTAGA CGAATTCGAAATGGGCAGTCATAGTCTTGCACATAGCAGCTTTTTGTCCAATGATCTCCTACCATCTCTTGGAGCCAGAA TTAACCGGGAAATTGTACTAAGAAAATACATCACCTCCCCTTTCAACCCTCGGTATAGGTGATGATCCTTTACATAGTCA CAATGAGATAACTTTATGAATGTTGTCATTTGTGCCTGCACTTCTTCTCATATTCTCTTTCATCACAGGGCTTGGGAGTT GTTACTGGTTGTTTTGGTCATATACTCTGCTTGGATTTGCCCGTTTGAGTTTGCCTTTCTGCCTTCCAAGCAGGGCACAC TATTCATCATAGACAACATTGTCAATGGCTTCTTTGCCATTGACATTGTGCTGACATTCTTCGTCGCTTACCTTGACAGC CATTCTTATCTTCTGGTTGATGATCCAAAGAGAATTGCAATCAGGTGAGTGCATAAAAAGTTAAAAAGTCATTATTCCTT CAAAGCTGAAAACGAATCTCCAAAAACTCTGCTTGCTTCATATTTCTTCACCAAACTTCCAGGTACATATCTACCTGGTT TGCTTTTGATGTCTGCTCAACAGCACCATTTGAGTCCATTACCCTCCTCTTCACTGATCACAGCAGTGAGCTTGGCTTCA AAGTTCTTAACATGCTTCGATTATGGCGTCTGAGAAGAGTCAGTTCTCTATTTGCAAGGTTTGCCATCATATATCATATT CAACTTCACAGTTCTGGGTTTCATCACCCCTTTTAGTTACAAGAATATGACAATACTTACTAGCCTCTTTGCTTTACTTC AGACTTGAAAAGGACATTCGTTTCAATTATTTCTGGATTAGGTGCACAAAGCTCATTGCTGTAAGCCACTAAATGTCTTG TGTTTGCTTTCTTCCTTTACAATTTCAAGTTACTTCCAGAACTGAATTGCCTCATCTTTCACCAACTTTCAGGTAACATT GTTTGCAGTGCACTGTGCTGGATGCTTTAACTATCTAATTGCAGATAGGTACCCTGATTCTAAAAAAACATGGATTGGTG CTGTGTATCCAAATTTTAAAGAAGAAAGTCTTTGGGACAAATATGTCACTGCAATATACTGGTCCATTGTCACCCTCACT ACCACTGGCTATGGTGATTTACATGCTGAGAACACCAGAGAAATGGTGTTTGATATCGCTTACATGCTGTTCAACTTGGG TTTAGGGGCATACATCATTGGAAACATGACTAACCTTGTAGTCCACTGGACCAGCCGCACCAGAGACTTTGTAAGTACTC TCAAGCTTATGCTTATTCTGGTACTGCTCAATTTGCCAGTGCCAATCACTTACTAATTCCTGTGATAGTTTATACTGTGG ATGTGTTGGACTGAGCTCTTATTCTAAATTTTTCATTCAACAAATACCCTTCAGCTTCATTGTTAGTGGTAGCTAATTAT TGCCTTTCTGAAAAATAACTCATTCAGATATGAGGAACTTTATTTCTTTCCTCTAAATAAGAGGATTGGTTTTGGTTCCA CAGAGAGAAACAGTCAAGGCTGCTTCTGAATTTGCTTCAAGGAATCATTTGCCAAGTCGCATACAGGATCAAATGTTGGC ACACATTTGCTTGAGGTTTAAAACAGAAGGATTGAAGCAGCAAGAAACAATGAATGATCTGCCAAAAGCAATTCGTTCAA GCATTGCACACCATCTCTTTTTTCCTGTTGTTCAGAAGGTCTACCTCTTCCAAGGAGTCTCCCATGACTTCCTTTTCCAA CTGGTATAATCCTCCACATGTGTTGTTTAACCCTTTGTCTCTTTTATTGTCCACTTCCTTTTCTTTGGCTAATACAAGAG TAAGAAGATGAAGAACTAATGCTACAATATACTAAATTGACCAAATGACCTTGTTATAAAAGGTTTCAGAAATGGAGGCA GAGTATTTCCCACCCAAGGAAGTTGTGATACTGCAAAACGAGTCTCCTACCGACCTTTACGTGCTGGTTTCAGGGGCAGT GGTAAGTTAGCTAAGACATCAATGGTCTAGTAAGTAGTAACCAAAAATTAATCTTAAAGAATGTCGACTAATTTATATTT TTCTTTCCAAATGATTACTTGTTGCAGAATCTGGTTCGCCACATTGATGGGCATGATCAGGTATGTTATAGATTCATACA TGACATGTTTTGTACTTCAAATCACCCAATGAAACGAGTGAATATATCTTCCTAACTCTACATTAACAAAACAGGTCCTT GGGAAGGCAATTGCAGTAGATGCATTTGGAGAGATTGGAGTCTTGCATTGTATATCACAGCCTTTCACAGTCCAGACCAC AGAGCTTTCTCAGATTTTAAGGCTCAACAAAAAATCCTTGAAGAATGTTTTACAAGCAAATCCAGGAGATGCACAAATTA TAATGGATAACCTTTTAATGGTAATTAGGACATTGAAGGGCTCTAAACTCTAAATGTAAAATATGTTGTATAAATTTCTT TCATCCCATATGCTCTTCAATAACAACAGGCTCCTAATGAGATGTTATCTACATTGACAGAGATTGAAGGGGCATGAAGA GCTTGGCTTTGAATATACACGTTCAAATCCTATTCTCCATGAACTGCTTCATGGAGGTAACATGCGAGCAAGCTCTTCAC ATGACTGTGCAAATAATTCAAATGGGCATGAAGGAGAGTGCATAAATGTCAGAGACTCAGACAACAGTCTGCATAAGGTG ACTAATGATGCTCATTTAGTCAACAAGTGTAACATGATCCCTGAGAATGGCAAAAGAGATCCTCATGCTGCTGCGCACAA AGGGAATCTAGACGTTGTTGAAATTCTGCTTGAAAGAGATGCAAGTGCAAAGAACCCAGACCCCATAGGGTGGACACAAA AAGCAGTAGTCAAACAGCTAAAAAATAAAATCATTCCTCACCAAATACTGAGCTGTGAAAATGAGAATAAATCAGATGAA TATAGAGTAGAGATTGTAGAGCCAGAAATCCTTAACCTTGGGGGGAATGACTCAGCCAGAAACTGTAGAAAAGATGGTAT TAGACCTGTCAACTTCCCATTAAAGAAACTATGCACAAACTCCAGTTCAATAAATTCTAACAGTCTTAGTGATAGAGAAG CAGCAAGGTTCATCAAGAAGAGAGTAACAATCCATTTGCCTGGCAGATGCAGAAGTACCTCCCAGGGACAGCATGGGAAA CTGATAATCCTACCTGATTCATTAGAAGAGTTGCTCAAAATTTCTGGTATGCTTTGAACTCAGAAAGAATAATTGAATAT GATTTATGAACCTATAACTGTTAGCAATTTGATACATACAAGGCACACACAGAGAGAAAGAGAATGATCGCTTTTTCTCC CCCTTCTTTTTTTATATTTTTTGCTGAGGGAAGGGAAGGGAAGGGAAGGGAAGGGAAGGAAAGGGAAGGGGGTGCCTACC AAAATCAAATGCAATCATCTGAACACAATAGTAGAACTTTGTAGTGCTCTTACTTGCTCCATCTAACTATTAACTTGTAA AACTGCAGGTGAAAAAATTGGTGGCTTCAGCCCTACGAAAATAGTTAATGCAGAGAATGCAGAGATAGATGACATTAATG TGATTAGAGATGGTGATCATCTCTTTCTTCTTTGCAGCGACAGTGAAAATTTGAGTTGACGATATTACCAATGTAGATAG ATTGTACCTTTAGGAATGTAATGAAAAAAAAAGGGCGGTCTGGTGCACAATGCTTCTGCATGCAAAGGGTCTAGGAAGGG GTATGACCATTTGGTCTATTGTATAGGAATGTAATGACAATGTTTTAATAAAATATTAAAAATGCTAAGCATTCAACAAC ATATTGGAAGAAAATCATACAATTCAATTACAAAAACTGCTCTTCGTATATGATTGTTGTAACAAAATTTTACAATCTCA TTGAGAAATGCTGTCTATAAATCCAAGAAAATAAGTCATGTAATCAAGTGATGGTCTTTGAAATGTGTTGCTGATGTATT GCACAGTTTACATTTTCCCTGAGAATCCAACTAATCAATTCCTTTACAACCAGAAGTGCTCTTGCTCAAGAGATGCCTGA GTAACTTGAAAGAAGCATCCCAAGTTGTGCCAACACAGTCTGGATTTCTACAAGCTGTCTATTGAATGCCTTTGATGAAT AAAACTCATTTCTTCAAATTGATTGGTATAGGATGGGCTTCCGTGTTAAAAACAAATTTATCCAAAGGAATAACAGAGCT GTCCCCAAAAAGCAAGTATAAGTATTTAAGGGTTTCACCCAGAAAGAAAGTCTCCATTTTGTCTCTTTTATGAGGAGGAA CACTAGTTACATCGTCCAGAGAACAATATCCACCAGTATCAACCTTTGTGTGCTTTTCAAAAGCTTCAAAGATTTGCCAA CCCCATTCACGATATCTGTAAGACAATATATATATGGTTATTTCAAAAAAATCACGGAAAGAAAAATGAAGCCTATCTTC ATTTCTTGTATATGGCCACAAGATATGAAAATGTAAACTAATCTTATCTTTAAGAGGGGAAAATACATACTTTGGATCTT CTGTGATACGGTACAAAACAAACAACGACTCCACTGTCTCAGGTCTCAAAAGATTATGACGGTCAGCAGGTTTTATTATG ATGTCATTGATATACTCTGAGTTCTTATTTCCACCATCATGACCTTCTTCAGAAAATTCCTGGGTATTAAAAGCATACAC CAAAAGCTAGTCGTTATATCTCTATTCTCCCTGTATATAGATGCACTTTAAGAATACTTTTCAAATGCAGCACCATAGAG TGAAAGACATAAATAATGAGATTCATTGCTGTTTTTACATGAGATCTTTAATCATTTAATAAATTCAAAATGCGATAAAG ATCCTACTAACCTCAGTATGAAAGTAAGCAATTTCAGGAGCCAAACCAGTTGAAGTTACTGAGTACATTTCGAAGCATGT TTTAGCCAGATCTTCTGCAAGCTTCATATTTTCTAGGTCTTCAAAGTTGAGCATATTGTCTTTCATTGCCTGATCCTTTG TAAGGCCTTTAGTGGCACCAAGTGCAAGAGTGCCAGGTAAGAAACACACCTGAATAGGCAGTACCAAATTTTACATCAGT GTTAGTAGGTACCTCTTAATTACGATCAAAGTGCACAATAGAGTTTTTGCAAGATAAAATTCTGGAGGATGTCCTTTTCT CCTAAACTGAACTACTATTTGATGATTTGTAATCTTAGTTTGGGATAAAGACCACTTTAACACAACTAAGGGAATCTGTA AACCTAGAAACGTTATCACAAGTTTGGGATAAAAACAACTTTTAAGAGAAGTTGAGCCATCCTAGAAACCTGTCTTATTT TTTTATCGATGAATTAAAGTTTGGGTGGCTTCGACTCCAGTCACCATCACGGGTCAGTTCTGGGACCATAGGTTACTTAC AGAGGTACTAACAAATTGTCCACCAACACAGCCCTCACATCGGAAATGGGATATGAGGGGAAGTGGTGGTCCGTCCTTAC CAACTGAGCCAACATGTATTGATTAGAAACCCGTCTTATGACTCAAAAGGAAGTAATTCTGCTAATGTAAATGTAAATTA GAAAATATCTCAAACCAATAACAGTTCACATAGTTCATCCCATGATGTTATTGACTATTTATTTTCCCCCCATTCTTTTG TAACACCAGCCACATAACTTTCACCTAATTTTTTAGTCAAATTCCATAGTAGAATGTAGAGTACAATTGTGACATCCTCA TAATTGTAATATTATGATTATATACTCAAGTTGCAAAATAACAAAAATTCTTTCTCATAACTATTATAAGGAAAATCTAG TTCCTGATATATAAAACAAATAATATCGATATTTTAGTTGTTTATGGAATGAATTTTAAACCATGGACAGAGAAGAGCAT GACTTAATATTAGCAGCCATATAAAGATAATATACTACAGTACAGTAGACAGAGGTAACAGTGCAGGCCTGCAGGGACAG ATGCTGTTTAATTTCATATAGTCTGTATATTACCATAGGGTGGGGATATCATAATTCCAGATTCAGAGTCTACAAATTTT CAATTTTATACGTCAGTACCTACGCCAAACGCAAATCAATAGTATCTAATAACACACTGATCCACAGTTCAAGATTCTCA GACAAATGCATTATGCATACAAAAAGAGTATATTCCATACAGCACACTAACTGGATCAATCCTTTTGCAGTTTTTCTACT GAAAGATGTTTTGAAGCAACATACATACTAGATAAATTTCATGCATTGCCGAACTTAAAAATTAGGAAGTACTGCTTACC AGGTGATCCATTTTCGGACTGAAACCCCCATTTGATCCGCCAGGCAACTCTCCAACAAAAACTAGTCCATTTGGAATCGA TTTCCGAACAAGAAGATGCCTCACACCATTCATTGCTTCCTTATACATATCATACAGATAAGATGTATTACTATCTCTAC TAGCTCTATTCTGAAGCCATACTTTAATTAAGTACTCGTAGTAGCTGTCACCACGAGATCCCAGTCTTATATTTTCTCCA CTAAATTGACCAGAATCAGGGCTGCATTTAGTTTACAGAAATATCTAAATGTTAGTAGAAATATAATGAGAAAAGAAAAG AAAGCACAGGCCCAAAAGGGACTAAAACAATTGACACAAATGAATTGGAAGGTTGTCACTAATTATTACAAGTAAAAAGT AATGTCCAAATACACTAATTAAATTATATGCAATTGAATACCTAATATAGATAGGAACTAGTCCTTCAAGCTTGGGAAGA GTATTCATGTGATCCATGACCTTCATTGCCTCCAAACTATATTTCAGATCACCTGATACAGAACTGAGATAATTGAACTC AAGCTGCAAAGTGGAAACTTCTGATGTGCTACTCAATCCACCAGGAGCTGGATGTGCTGTTGACTCATGCAGAATGACAT CACTAAATGGAATAGCAGTTGGACTAGCTGTGAAAGCCGACATCAGACGGTCAGCCAAATTCTTAGCAGTTTCTAAATAA ACGGCCGGTTTCGGTCCTGCATGAGTTAAGTTCATTCCTTTTTCCCCACCACTTAGATGGTAAGCACTTAAAAGCCCACC CAAAACCCGAATTGTGGTTTCAAATAAATTTACTTGACCCTTTTTACTGATCCTCTCAGAAAGATGTTCTTCAACCCAGG ATCCTGCTTCAGTAACAACCTCATCAAGACCCATTATCATCGCCGTATCAAGAGCATCCACCACCGTAGCACCTAACCCT CCTAATCCATCAACCCCATGTTGGCTGAGTGGCATAAGTTCATCATAACCCATGGCATATTTCTTGTAGCCAGACCACGC ATGAACAAAAGCCTCCTTAACTTTCTGCTGCCTACTAATCCACAACGATCCGTCATCCAACGTTCCAGACACACCATTAT CAGCCACTTTAGTATCCGGGGGTAATCGAGGAGGAAGCCTCGGAGCCCGTCTCCATAACTTCTTCAACCTCCCAGAACCA TCAGCAATACCACTATCTTCTCCACTCTTTCCATTTCCAATTACTTCACCATGATCATTAGAAACTACACGACCGGGACT CGTATGTGTCAGCATAAGATATCCTACCCCACAAATCATTAACAATGCTAGAAACTTTCCAGTACTACAGCTAATACAAT CACGCTTCCGGTTACTAGTGAGGAAGGTCTGAGTAATAACCTGGAAAATCAAGACATAGTAAACAAACATTCCATACATG AAAATTGTGCATTCATTCATTCACCTATGCAACCAAGGTTTAACAAGTTCTTATGAATATTGCAGGATATAGTAACACTT ATTGATTGAAATTGAATAGTGGGTATGTTGAGTTGAAGCAAATCGGAGAAGCTAACTACAGAGTTGAAAGGAATCGAACC TTGGAGAAAGAACGGTGGCGAAACTTGGCGTTATCGTAGTCAACATCTTTTCTGGAGTAAGGGAGAGACTTGGACATGCT GTGAGGATCCGAATTCCGATCCGATCCGAATTCCAACGAAGACAGACACAGACACAAACTTAGGTTGGAATTCGATTGCG TAGGAACAGGATGATGATGATGATGCTGTGCCTCATTCGACGCGACAATCAGAGAAAGAGAGAGATCACCATTCACCACC ACCGTGTTAGATGAACTTTCAGATTGACCATTGATCAATGGGTGCAAATGCAATCCAACACCATTGATATCATTGACTAT GCTCTAATTTGTATGTCTAGATTTAATTACAATTATTT
CDS sequence (LotjaGi6g1v0308700.1) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGTCAATTTTCTGTACAAAAAACTTCTTCCAGAGATTCTGGGTAGACGAATTCGAAATGGGCAGTCATAGTCTTGCACA TAGCAGCTTTTTGTCCAATGATCTCCTACCATCTCTTGGAGCCAGAATTAACCGGGAAATTGTACTAAGAAAATACATCA CCTCCCCTTTCAACCCTCGGTATAGGGCTTGGGAGTTGTTACTGGTTGTTTTGGTCATATACTCTGCTTGGATTTGCCCG TTTGAGTTTGCCTTTCTGCCTTCCAAGCAGGGCACACTATTCATCATAGACAACATTGTCAATGGCTTCTTTGCCATTGA CATTGTGCTGACATTCTTCGTCGCTTACCTTGACAGCCATTCTTATCTTCTGGTTGATGATCCAAAGAGAATTGCAATCA GGTACATATCTACCTGGTTTGCTTTTGATGTCTGCTCAACAGCACCATTTGAGTCCATTACCCTCCTCTTCACTGATCAC AGCAGTGAGCTTGGCTTCAAAGTTCTTAACATGCTTCGATTATGGCGTCTGAGAAGAGTCAGTTCTCTATTTGCAAGACT TGAAAAGGACATTCGTTTCAATTATTTCTGGATTAGGTGCACAAAGCTCATTGCTGTAACATTGTTTGCAGTGCACTGTG CTGGATGCTTTAACTATCTAATTGCAGATAGGTACCCTGATTCTAAAAAAACATGGATTGGTGCTGTGTATCCAAATTTT AAAGAAGAAAGTCTTTGGGACAAATATGTCACTGCAATATACTGGTCCATTGTCACCCTCACTACCACTGGCTATGGTGA TTTACATGCTGAGAACACCAGAGAAATGGTGTTTGATATCGCTTACATGCTGTTCAACTTGGGTTTAGGGGCATACATCA TTGGAAACATGACTAACCTTGTAGTCCACTGGACCAGCCGCACCAGAGACTTTAGAGAAACAGTCAAGGCTGCTTCTGAA TTTGCTTCAAGGAATCATTTGCCAAGTCGCATACAGGATCAAATGTTGGCACACATTTGCTTGAGGTTTAAAACAGAAGG ATTGAAGCAGCAAGAAACAATGAATGATCTGCCAAAAGCAATTCGTTCAAGCATTGCACACCATCTCTTTTTTCCTGTTG TTCAGAAGGTCTACCTCTTCCAAGGAGTCTCCCATGACTTCCTTTTCCAACTGGTTTCAGAAATGGAGGCAGAGTATTTC CCACCCAAGGAAGTTGTGATACTGCAAAACGAGTCTCCTACCGACCTTTACGTGCTGGTTTCAGGGGCAGTGAATCTGGT TCGCCACATTGATGGGCATGATCAGGTCCTTGGGAAGGCAATTGCAGTAGATGCATTTGGAGAGATTGGAGTCTTGCATT GTATATCACAGCCTTTCACAGTCCAGACCACAGAGCTTTCTCAGATTTTAAGGCTCAACAAAAAATCCTTGAAGAATGTT TTACAAGCAAATCCAGGAGATGCACAAATTATAATGGATAACCTTTTAATGAGATTGAAGGGGCATGAAGAGCTTGGCTT TGAATATACACGTTCAAATCCTATTCTCCATGAACTGCTTCATGGAGGTAACATGCGAGCAAGCTCTTCACATGACTGTG CAAATAATTCAAATGGGCATGAAGGAGAGTGCATAAATGTCAGAGACTCAGACAACAGTCTGCATAAGGTGACTAATGAT GCTCATTTAGTCAACAAGTGTAACATGATCCCTGAGAATGGCAAAAGAGATCCTCATGCTGCTGCGCACAAAGGGAATCT AGACGTTGTTGAAATTCTGCTTGAAAGAGATGCAAGTGCAAAGAACCCAGACCCCATAGGGTGGACACAAAAAGCAGTAG TCAAACAGCTAAAAAATAAAATCATTCCTCACCAAATACTGAGCTGTGAAAATGAGAATAAATCAGATGAATATAGAGTA GAGATTGTAGAGCCAGAAATCCTTAACCTTGGGGGGAATGACTCAGCCAGAAACTGTAGAAAAGATGGTATTAGACCTGT CAACTTCCCATTAAAGAAACTATGCACAAACTCCAGTTCAATAAATTCTAACAGTCTTAGTGATAGAGAAGCAGCAAGGT TCATCAAGAAGAGAGTAACAATCCATTTGCCTGGCAGATGCAGAAGTACCTCCCAGGGACAGCATGGGAAACTGATAATC CTACCTGATTCATTAGAAGAGTTGCTCAAAATTTCTGGTGAAAAAATTGGTGGCTTCAGCCCTACGAAAATAGTTAATGC AGAGAATGCAGAGATAGATGACATTAATGTGATTAGAGATGGTGATCATCTCTTTCTTCTTTGCAGCGACAGTGAAAATT TGAGTTGA
Protein sequence (LotjaGi6g1v0308700.1) extracted from Lotus japonicus Gifu v1.2 Proteins.
MSIFCTKNFFQRFWVDEFEMGSHSLAHSSFLSNDLLPSLGARINREIVLRKYITSPFNPRYRAWELLLVVLVIYSAWICP FEFAFLPSKQGTLFIIDNIVNGFFAIDIVLTFFVAYLDSHSYLLVDDPKRIAIRYISTWFAFDVCSTAPFESITLLFTDH SSELGFKVLNMLRLWRLRRVSSLFARLEKDIRFNYFWIRCTKLIAVTLFAVHCAGCFNYLIADRYPDSKKTWIGAVYPNF KEESLWDKYVTAIYWSIVTLTTTGYGDLHAENTREMVFDIAYMLFNLGLGAYIIGNMTNLVVHWTSRTRDFRETVKAASE FASRNHLPSRIQDQMLAHICLRFKTEGLKQQETMNDLPKAIRSSIAHHLFFPVVQKVYLFQGVSHDFLFQLVSEMEAEYF PPKEVVILQNESPTDLYVLVSGAVNLVRHIDGHDQVLGKAIAVDAFGEIGVLHCISQPFTVQTTELSQILRLNKKSLKNV LQANPGDAQIIMDNLLMRLKGHEELGFEYTRSNPILHELLHGGNMRASSSHDCANNSNGHEGECINVRDSDNSLHKVTND AHLVNKCNMIPENGKRDPHAAAHKGNLDVVEILLERDASAKNPDPIGWTQKAVVKQLKNKIIPHQILSCENENKSDEYRV EIVEPEILNLGGNDSARNCRKDGIRPVNFPLKKLCTNSSSINSNSLSDREAARFIKKRVTIHLPGRCRSTSQGQHGKLII LPDSLEELLKISGEKIGGFSPTKIVNAENAEIDDINVIRDGDHLFLLCSDSENLS
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 | 767 | 767 | 0.0 | – | |
| Phobius | 1 | 65 | 65 | - | – | |
| PANTHER | 1 | 767 | 767 | 0.0 | – | |
| SUPERFAMILY | 56 | 302 | 247 | 2.01E-44 | – | |
| Gene3D | 62 | 303 | 242 | 1.8E-19 | – | |
| Pfam | 62 | 308 | 247 | 1.4E-34 | ||
| TMHMM | 66 | 88 | 23 | - | – | |
| Phobius | 66 | 86 | 21 | - | – | |
| PRINTS | 74 | 81 | 8 | 3.9E-10 | ||
| Phobius | 87 | 97 | 11 | - | – | |
| PRINTS | 97 | 107 | 11 | 3.9E-10 | ||
| Phobius | 98 | 117 | 20 | - | – | |
| TMHMM | 103 | 125 | 23 | - | – | |
| PRINTS | 108 | 117 | 10 | 3.9E-10 | ||
| Phobius | 118 | 195 | 78 | - | – | |
| Phobius | 196 | 221 | 26 | - | – | |
| TMHMM | 203 | 222 | 20 | - | – | |
| Phobius | 222 | 248 | 27 | - | – | |
| Phobius | 249 | 268 | 20 | - | – | |
| TMHMM | 249 | 268 | 20 | - | – | |
| PRINTS | 249 | 266 | 18 | 3.9E-10 | ||
| Phobius | 269 | 279 | 11 | - | – | |
| PRINTS | 275 | 286 | 12 | 3.9E-10 | ||
| TMHMM | 280 | 302 | 23 | - | – | |
| Phobius | 280 | 302 | 23 | - | – | |
| PRINTS | 293 | 302 | 10 | 3.9E-10 | ||
| Phobius | 303 | 775 | 473 | - | – | |
| Gene3D | 304 | 369 | 66 | 2.0E-5 | – | |
| SUPERFAMILY | 306 | 499 | 194 | 3.86E-40 | ||
| Gene3D | 372 | 505 | 134 | 2.0E-23 | ||
| ProSiteProfiles | 379 | 498 | 120 | 21.292 | ||
| SMART | 379 | 496 | 118 | 5.0E-20 | ||
| CDD | 379 | 492 | 114 | 8.70576E-24 | ||
| Pfam | 398 | 483 | 86 | 1.0E-11 | ||
| ProSiteProfiles | 573 | 605 | 33 | 9.484 | ||
| ProSiteProfiles | 573 | 605 | 33 | 9.463 | ||
| Pfam | 697 | 766 | 70 | 5.5E-25 | ||
| CDD | 697 | 768 | 72 | 4.9201E-12 | – | |
| ProSiteProfiles | 698 | 775 | 78 | 30.414 |
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. | ||
| 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 | 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 LotjaGi6g1v0308700.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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