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Field | Value |
---|---|
Gene ID | LotjaGi1g1v0214400 |
Transcript ID | LotjaGi1g1v0214400.3 |
Related isoforms 6 | |
Lotus japonicus genome version | Gifu v1.2 |
Description | Plasma membrane ATPase; TAIR: AT5G62670.1 H -ATPase 11; Swiss-Prot: sp|Q9LV11|PMA11_ARATH ATPase 11, plasma membrane-type; TrEMBL-Plants: tr|A0A151S7C9|A0A151S7C9_CAJCA Plasma membrane ATPase; Found in the gene: LotjaGi1g1v0214400 |
Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr1:47281544..47288146) extracted from Lotus japonicus Gifu genome v1.2.
GGAGGAGGAACCATGGCGGAGAAGCCTGAAGTGTTGGAGGCTGTGTTGAAGGAAGCTGTGGATTTGGTAACTAACCAGAT CTGAATGTTTGTTTCTTTGTTTTGTTCTTCTTTGCTGTGGTTTCTTTGTTTCATTGTGTGTGTTTGTGTTTGTGTGTTTG CAGGAGAATATACCTATTGAGGAGGTTTTTGAGAATCTGAGATGTAGCAAAGAAGGTCTCACCAATGCGGCTGCTGAAGA GAGGTTGCTCATTTTCGGCCACAACAAGCTCGAGGAGAAGAGGGTTAATTAATTCACACTTAATTCACTCTTGTTTCGGC CGCGTGGATTTCGCGGTGAATTATAATATCTTTTTGGTGTTTTTTTTTCAGGAGAGCAAGTTTTTAAAGTTCTTAGGGTT TATGTGGAATCCTTTGTCTTGGGTCATGGAGGCTGCTGCTATAATGGCAATTGCTCTTGCCAATGGAGGAGTAAGTGGAG TGGACTACACTCAGCTTATTTGGGAGTGTTCTTAATTAATGACTGTAATTTTTACTGATGAGATGATTTTTATGCAGGGC AAGCCGCCGGATTGGCAGGATTTTGTGGGGATCATCACCTTGCTTGTCATCAATTCAACTATTAGTTTCATTGAGGAGAA CAATGCGGGTAATGCTGCAGCAGCTCTCATGGCTCGTCTTGCTCCGCAAGCAAAGGTGTCAAATTTTGATTCTTTCAGTT TGATAAAGTGTGCATTTTTTTTATATTGGTGCTTTAAAATCTTTGCTCTGGAAAGGATTCAACTTTTATTTTTGTTTTCG TCTCATATTTTCATTTGTAATTTCTGTGTTGTGAAGGTTCTTCGAGATGGTAGGTGGAGTGAGCTAGATGCGGCGGTCCT AGTACCTGGTGATATAATCAGCATTAAGCTTGGTGATATTGTACCAGCTGATGCTCGACTTCTTGAAGGGGATCCTTTGA AAATTGATCAGGTGTCTATTGTTTTATCCCTTACGTGCTAAATGGTTCAATTACACCCTGTTTTAACCTATGCCATGTAC CTTTCAGTCTGCACTTACAGGTGAGTCTTTGCCAGTGACAAAGGGCCCTGGAGATGGTGTGTATTCTGGTTCTACCTGCA AACAAGGAGAGATTGAAGCTGTGGTCATTGCAACCGGTGTTCATACCTTTTTTGGGAAAGCCGCTCACCTTGTAGATACC ACTAATCAAGTTGGTCACTTTCAAAAGGTATCACGAAGGCAGACACAATTTTTCTGGCATTATAAAATTTTGTTCAGGTG TTATATTTTCTGCTGTTGTTTAGGTCTTGACTGCAATTGGGAATTTCTGCATATGTTCAATTGCTGTGGGGATGATTATT GAGATTATTGTTATGTACCCCATCCAAGATCGAGAGTACCGTCCTGGAATTGATAACCTTCTTGTACTTCTTATTGGGGG GATTCCAATTGCCATGCCCACTGTTCTCTCGGTGACCATGGCCATTGGTTCTCACAGGCTATCTCAGCAGGTTGGTTAGG TCCCTTCAATCGAGTATGTTTGGTAAAAATGGTTAAGAATTAATGGTTAATTGGATATACTGTTTGCAGGGAGCTATCAC AAAGAGGATGACAGCTATTGAAGAGATGGCAGGAATGGATGTGCTTTGCAGTGATAAGACTGGGACTCTAACATTAAATA AGCTAACTGTTGACAAAAATCTTATTGAGGTCAGGCGATGAATGGTTTTACTAGTTGTTATAAGATCGAGCCTTTTGTAA AATATAATAGTTTTCTGATTATTCTTTTTGACAAATAAGGTCTTCGCAAAAGGAGTGGATCCAGATACTGTTGTTTTGAT GGCAGCTCAAGCTTCGAGACTTGAGAATCAAGATGCAATAGATACTGCCATAGTATCGATGCTGGCGGATCCAAAGGAGG TTAGTCAATTATATATCATTCACTGTGATTCTTCCAAAAACTTATATTTCATAGCTGCATGCCTGCAACTCTAATCCTCA CATGCTTACAATATTTGATGTATTTGTATAATAATTTTCTTTCCTGACCAACTGCTATAAAGGCGCGTGTTGGTATCCAA GAAGTACATTTTCTTCCTTTCAATCCTACTGATAAGCGGACAGCATTGACTTATATTGATCGTGATGGTAAGATGCATAG AGTTAGCAAAGGTGCTCCAGAACAGGTAATTTAGTAACGATTTCCTCTGAAGTTTCTGTTAAAGGTTGGTTTATTCTCAT TCTTTTTTGTACCATTGTTGCTAGATCCTTAATCTTGCACACAATAAGTCAGACATTGAACGTAGAGTTCATGCAGTGAT AGACAAATTCGCAGAGCGTGGTTTACGATCCCTTGCAGTGGCATACCAGGTAATTGATTCATTGCACGCTCTCCGGCTTG ATCATTTGGCGAATTTGTATACCTACATTTTATGCTAGAAATATTTTTTCTAAGGTTTCTCCAATTTACACAGGAAGTTC CAGAGGGACGAAAAGTGAGCCCCGGAGGTCCATGGCAGTTTATTGGCCTTATGCCTCTGTTTGACCCACCTCGGCATGAC AGTGCAGAAACGATACGGAGGGCACTGAACCTTGGAGTGAATGTCAAAATGATTACAGGTCTATTACAATTACACATAAC AGTGAAAACCCTTGAGTTGCTTTTAGTTTGGCACTAAAATAACTTTACTTATCGGCTTAAATACTCTTTTGGTCCTTAAA ATTGTAAAGGGAATCAAATCTGATCCCTGTAAAATTTTCACATCAAATTGGGTCCCTAAAATTGTTTTTTTAATCTAATT AAATCCTTTTGCTCAATTTTGACTAGTCAACGGTCCAGTGGAAAGCCTAGTCAGCTAAGGATGGCCACATGTATTTTTTT TCACATCAATTTTAGTCCTTTAAAAAATATTTTAATCAATTTTAGTCCTTGTTCTTCCACCTTCCTCTTCCACCTTCTTC CTCTTCCTCCATAACTCAAATCCTTAAATCTAGAAATTCAAAACCCTAAAAAAACTATATGTTCATCACATTCACCTTGT TCTTCCTTTTGAATTTATGGGATTTGAGTTATAGAGGAAGAGGAAGAAGGTGGAAGAGGAAGAAGATGAAGGTGGAAGAG GAAGAAGATGAATGTGGAAGAACAGGGACTAAAATTGATTAAAATACTTTTCAAGGGACTAAAATTGATGTGAAAAAGTC AACGTGGTCGTCTTTAGCTGACTAAGCTTGCCACTGGACCGTTGACCGGTCAAAATTGAGCAAAAGGAGTTAATTAGATT AAAAAAAATAATTTTTGGGACCCAATTTGATGCGAAAATTTTACAAGGATCAGATTTGATTCCCTTTACAATTTCAAGGA CTAAAGTGTTATTTAAGCCTTACTTATCTACCAAAAAAAATAACTTTACTTAAAATCTAGTTAATTTCTAAGCTCAGGAA CAAGCAGTTGCATTCAACTGATGCAAGTTTAGTCTTGTCAAATTTGGTAGTCCAGTACTGTTGCTCGTTATTCTGTGATT AAGCAAATATTATTGGCCACATAAACTTCTTGTGCATATTGCTTAAGAGTCATGATTGAAGTTGATTTGATCTGAGTTAA AAGTTAAAAACAAACATTCACTAGTAAATGAAGGGAGACATCTACACAACCAGGTCATCATGAACATCCTGTAGTGAAAG AATTTTTGTGAGGCATGGTATCCACCTGAAACTGGCTTTTCATTTGGATTCAAAGTAATGGATTATTTTCCCACATTACC TTGAAACTTCTGTTTTACCTCATTAACCCCATATCCTCCCTCTAATTTTTATTTATACATTCTCCTTCAGTCCTTCTTAA CTTTCTATTGACTTCTTTTATGCATGTAGAGTAATCAATATGATTTCCAACTTTGCTACATTATGATTTATTTTTCTGAC CTTATTGTCTCATATCCTCCTCCTAATTTCATTTACATATCCTCCTTCACCTTATCAGGGGATCAGCTAGCTATAGGAAA GGAAACAGGCCGTCGTTTGGGAATGGGTACCAATATGTATCCGTCATCTGCATTGCTTGGGCATGATAAGAATGAATCCA TTTCAGCCTTACCGATTGACGAACTCATAGAAAAAGCCGATGGATTTGCTGGTGTCTTTCCTGGTATGTTTTTTATGTTG ATCAATTCAATTGATTGTTTTTATTGTTTGACATAACTGGATGAAATATTAGATATCAGTTGGGACTCGGGATAATTAAG CAGCATATTGTTATTTTTCTCATATTAATTGGTTTATATATTTTGCCAGAGCACAAGTATGAGATTGTCAAGCGTTTACA AGCAAGGAAACATATCTGTGGAATGACTGGTGATGGGGTGAATGATGCGCCTGCACTCAAAAAGGCAGACATTGGGATTG CTGTTGCTGATGCAACTGATGCAGCTAGAAGTGCTTCTGATATTGTTTTAACAGAACCAGGCCTTAGTGTTATTATTAGT GCTGTGTTGACCAGCCGAGCTATATTCCAGAGAATGAAAAATTATACTGTAAGCGATATCTTCTTAATAGTTTTGTACTT TTTTTTAATGATCCCCCAAATATACGTATCCTGTTATAGTAATCCATCACTATTAATTTTTAGGATTTTTTTTGTTCAGG CCATATGCACTTGAGCTAATACGAGTGCGTATAATGCCATTGTTTGACCCATTTGTTTCGTCTTTCATGCAGATTTATGC TGTCTCAATTACAATTCGTATTGTTGTAAGTGAATTATATTCCAGCTCTGAAATATACTTTCTACTTTAGGTGTCACCAT TCCTTTGATCAGTCTCTTATTCTGTATTTTACATCTTTGACATGCTTGCAGCTTGGTTTCATGTTGCTGGCTCTTATATG GAAGTTTGACTTTCCACCTTTTATGGTGCTTATTATCGCCATTCTAAATGATGGTTTGTTGTTTCTTTTCTCCTACTATA GCATGCCCCTTTCTAGTCCTGAGCTATATTGGGAGCTAATATTGTGATATATATCCATAAATATATATATATATATATAT ATATATATATATATAATTGCAGGTACTATTATGACAATTTCTAAGGATCGTGTAAAACCATCACCTCTGCCAGATAGCTG GAAGCTAGCTGAAATATTTACTACTGGCGTTGTGCTTGGATCTTACTTGGCAGTGATGACTGTCATATTCTTTTGGGCAG CATACAAAACAAATTTCTTCCCGGTATATCTATTGATATTGTTGGTTTCAAAATATTTTCTAGTTTAATTAAATTTGGTT ATACTTATATCAGAGTGTATTGTGTGAATTCTTGTATGCAACTTTATCGCATGTGGTATGTATTCTAGTGTATGACTGTT ATAATTTAAAGTTTCCTAATTATGTGCGTCAATGTCAATTTCTGCCTTACATGGATTCTGTTTGTTGTTTCTATCTAGTT AAAATGTCTCATTCATTTTTCATGCCTGCTATTTGTGCAGCGGGTATTTGGAGTCTCTAGTCTTGAAAAAACTGCTCATG ATGATTTCCGAAAACTAGCCTCTGCAATCTATCTTCAAGTGAGTACTATTAGTCAGGCCCTAATATTCGTGACTCGGTCT CGAGGTTGGTCATATGTTGAACGTCCTGGTATCTTGCTGATGACAGCTTTTGTGATTGCACAACTGGTAAGCCAAATAAC CCTTACTCTGCTGCAACGTTTTTCAGCCATATCAAGGATGACTTTGGTGATTGATATGCTGTTTGCAGATTGCCACTTTG ATTGCGGTGTATGCAAGCTGGAGCTTTGCTGCCATTGAAGGCATAGGTTGGGGTTGGGCTGGTGTAATATGGTTATATAA CATAATATTCTACATCCCTCTTGACATCATCAAGTTTCTCATTCGATATGCTTTAAGTGGAAGGGCATGGGAGCTTGTCA TTGAGCAAAGGGTAAGTAAAGTTTTTTCATTGAGTTTGTTTGGAGGCCAACCAAAGAGCAGTTATTGGAGCTTATCTAGT GCCTTTTTTTAAGTAAAGATACTCCAAGAAGTGCTCTTTGGTTGGTATCCAAACCTGCTATACAAGGAACACATTAGATT GCATTCGTGCGCTCATGGATTTCATTGGCTTTGTGCGCTCATGGCTTTTATTGTCATGTAGATTGCATTCACAAGGCAAA AGGACTTTGGAAAGGAACAAAGGGAACTTCAATGGGCGCATGCACAGAGGACATTGCATGGATTACAACCACCTGACACC AAGATGTTCCCTGAGCGCACACATTTCAATGAACTCAATCAAATGGCCGAAGAAGCTAAGCGGAGAGCCGAAATTGCAAG GTATGGACAGCTATAATTTTAAGCAATTGCATTTTTTGTTTAATAAGGAATTTAATTGGGGAAATAACATCATAACATTG CCTGCATGTGGCATACGAGGAAGTTGTGAGTTTGAATCTATTCCATTCAAGTAGGATATAAGTTGCAAATAACTGTGATT ATTTGTTTCCTAATACTTGTTTGCAGGTTGAGAGAACTGCATACACTAAAAGGTCATGTAGAATCAGTTTTGAAATTGAA GGGGATTGATGTAGATACAATTCAGCAAGCATACACAGTGTGA
CDS sequence (LotjaGi1g1v0214400.3) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGGCGGAGAAGCCTGAAGTGTTGGAGGCTGTGTTGAAGGAAGCTGTGGATTTGGAGAATATACCTATTGAGGAGGTTTT TGAGAATCTGAGATGTAGCAAAGAAGGTCTCACCAATGCGGCTGCTGAAGAGAGGTTGCTCATTTTCGGCCACAACAAGC TCGAGGAGAAGAGGGAGAGCAAGTTTTTAAAGTTCTTAGGGTTTATGTGGAATCCTTTGTCTTGGGTCATGGAGGCTGCT GCTATAATGGCAATTGCTCTTGCCAATGGAGGAGGCAAGCCGCCGGATTGGCAGGATTTTGTGGGGATCATCACCTTGCT TGTCATCAATTCAACTATTAGTTTCATTGAGGAGAACAATGCGGGTAATGCTGCAGCAGCTCTCATGGCTCGTCTTGCTC CGCAAGCAAAGGTTCTTCGAGATGGTAGGTGGAGTGAGCTAGATGCGGCGGTCCTAGTACCTGGTGATATAATCAGCATT AAGCTTGGTGATATTGTACCAGCTGATGCTCGACTTCTTGAAGGGGATCCTTTGAAAATTGATCAGTCTGCACTTACAGG TGAGTCTTTGCCAGTGACAAAGGGCCCTGGAGATGGTGTGTATTCTGGTTCTACCTGCAAACAAGGAGAGATTGAAGCTG TGGTCATTGCAACCGGTGTTCATACCTTTTTTGGGAAAGCCGCTCACCTTGTAGATACCACTAATCAAGTTGGTCACTTT CAAAAGGTCTTGACTGCAATTGGGAATTTCTGCATATGTTCAATTGCTGTGGGGATGATTATTGAGATTATTGTTATGTA CCCCATCCAAGATCGAGAGTACCGTCCTGGAATTGATAACCTTCTTGTACTTCTTATTGGGGGGATTCCAATTGCCATGC CCACTGTTCTCTCGGTGACCATGGCCATTGGTTCTCACAGGCTATCTCAGCAGGGAGCTATCACAAAGAGGATGACAGCT ATTGAAGAGATGGCAGGAATGGATGTGCTTTGCAGTGATAAGACTGGGACTCTAACATTAAATAAGCTAACTGTTGACAA AAATCTTATTGAGGTCTTCGCAAAAGGAGTGGATCCAGATACTGTTGTTTTGATGGCAGCTCAAGCTTCGAGACTTGAGA ATCAAGATGCAATAGATACTGCCATAGTATCGATGCTGGCGGATCCAAAGGAGGCGCGTGTTGGTATCCAAGAAGTACAT TTTCTTCCTTTCAATCCTACTGATAAGCGGACAGCATTGACTTATATTGATCGTGATGGTAAGATGCATAGAGTTAGCAA AGGTGCTCCAGAACAGATCCTTAATCTTGCACACAATAAGTCAGACATTGAACGTAGAGTTCATGCAGTGATAGACAAAT TCGCAGAGCGTGGTTTACGATCCCTTGCAGTGGCATACCAGGAAGTTCCAGAGGGACGAAAAGTGAGCCCCGGAGGTCCA TGGCAGTTTATTGGCCTTATGCCTCTGTTTGACCCACCTCGGCATGACAGTGCAGAAACGATACGGAGGGCACTGAACCT TGGAGTGAATGTCAAAATGATTACAGGGGATCAGCTAGCTATAGGAAAGGAAACAGGCCGTCGTTTGGGAATGGGTACCA ATATGTATCCGTCATCTGCATTGCTTGGGCATGATAAGAATGAATCCATTTCAGCCTTACCGATTGACGAACTCATAGAA AAAGCCGATGGATTTGCTGGTGTCTTTCCTGAGCACAAGTATGAGATTGTCAAGCGTTTACAAGCAAGGAAACATATCTG TGGAATGACTGGTGATGGGGTGAATGATGCGCCTGCACTCAAAAAGGCAGACATTGGGATTGCTGTTGCTGATGCAACTG ATGCAGCTAGAAGTGCTTCTGATATTGTTTTAACAGAACCAGGCCTTAGTGTTATTATTAGTGCTGTGTTGACCAGCCGA GCTATATTCCAGAGAATGAAAAATTATACTATTTATGCTGTCTCAATTACAATTCGTATTGTTCTTGGTTTCATGTTGCT GGCTCTTATATGGAAGTTTGACTTTCCACCTTTTATGGTGCTTATTATCGCCATTCTAAATGATGGTACTATTATGACAA TTTCTAAGGATCGTGTAAAACCATCACCTCTGCCAGATAGCTGGAAGCTAGCTGAAATATTTACTACTGGCGTTGTGCTT GGATCTTACTTGGCAGTGATGACTGTCATATTCTTTTGGGCAGCATACAAAACAAATTTCTTCCCGCGGGTATTTGGAGT CTCTAGTCTTGAAAAAACTGCTCATGATGATTTCCGAAAACTAGCCTCTGCAATCTATCTTCAAGTGAGTACTATTAGTC AGGCCCTAATATTCGTGACTCGGTCTCGAGGTTGGTCATATGTTGAACGTCCTGGTATCTTGCTGATGACAGCTTTTGTG ATTGCACAACTGATTGCCACTTTGATTGCGGTGTATGCAAGCTGGAGCTTTGCTGCCATTGAAGGCATAGGTTGGGGTTG GGCTGGTGTAATATGGTTATATAACATAATATTCTACATCCCTCTTGACATCATCAAGTTTCTCATTCGATATGCTTTAA GTGGAAGGGCATGGGAGCTTGTCATTGAGCAAAGGATTGCATTCACAAGGCAAAAGGACTTTGGAAAGGAACAAAGGGAA CTTCAATGGGCGCATGCACAGAGGACATTGCATGGATTACAACCACCTGACACCAAGATGTTCCCTGAGCGCACACATTT CAATGAACTCAATCAAATGGCCGAAGAAGCTAAGCGGAGAGCCGAAATTGCAAGGTTGAGAGAACTGCATACACTAAAAG GTCATGTAGAATCAGTTTTGAAATTGAAGGGGATTGATGTAGATACAATTCAGCAAGCATACACAGTGTGA
Protein sequence (LotjaGi1g1v0214400.3) extracted from Lotus japonicus Gifu v1.2 Proteins.
MAEKPEVLEAVLKEAVDLENIPIEEVFENLRCSKEGLTNAAAEERLLIFGHNKLEEKRESKFLKFLGFMWNPLSWVMEAA AIMAIALANGGGKPPDWQDFVGIITLLVINSTISFIEENNAGNAAAALMARLAPQAKVLRDGRWSELDAAVLVPGDIISI KLGDIVPADARLLEGDPLKIDQSALTGESLPVTKGPGDGVYSGSTCKQGEIEAVVIATGVHTFFGKAAHLVDTTNQVGHF QKVLTAIGNFCICSIAVGMIIEIIVMYPIQDREYRPGIDNLLVLLIGGIPIAMPTVLSVTMAIGSHRLSQQGAITKRMTA IEEMAGMDVLCSDKTGTLTLNKLTVDKNLIEVFAKGVDPDTVVLMAAQASRLENQDAIDTAIVSMLADPKEARVGIQEVH FLPFNPTDKRTALTYIDRDGKMHRVSKGAPEQILNLAHNKSDIERRVHAVIDKFAERGLRSLAVAYQEVPEGRKVSPGGP WQFIGLMPLFDPPRHDSAETIRRALNLGVNVKMITGDQLAIGKETGRRLGMGTNMYPSSALLGHDKNESISALPIDELIE KADGFAGVFPEHKYEIVKRLQARKHICGMTGDGVNDAPALKKADIGIAVADATDAARSASDIVLTEPGLSVIISAVLTSR AIFQRMKNYTIYAVSITIRIVLGFMLLALIWKFDFPPFMVLIIAILNDGTIMTISKDRVKPSPLPDSWKLAEIFTTGVVL GSYLAVMTVIFFWAAYKTNFFPRVFGVSSLEKTAHDDFRKLASAIYLQVSTISQALIFVTRSRGWSYVERPGILLMTAFV IAQLIATLIAVYASWSFAAIEGIGWGWAGVIWLYNIIFYIPLDIIKFLIRYALSGRAWELVIEQRIAFTRQKDFGKEQRE LQWAHAQRTLHGLQPPDTKMFPERTHFNELNQMAEEAKRRAEIARLRELHTLKGHVESVLKLKGIDVDTIQQAYTV
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 | 64 | 64 | - | – | |
PANTHER | 4 | 936 | 933 | 0.0 | – | |
PANTHER | 4 | 936 | 933 | 0.0 | – | |
SMART | 17 | 89 | 73 | 4.3E-21 | ||
SUPERFAMILY | 17 | 853 | 837 | 1.57E-87 | ||
Pfam | 20 | 83 | 64 | 2.5E-13 | ||
CDD | 36 | 847 | 812 | 0.0 | ||
TIGRFAM | 36 | 812 | 777 | 0.0 | ||
TMHMM | 65 | 87 | 23 | - | – | |
Phobius | 65 | 88 | 24 | - | – | |
Gene3D | 66 | 161 | 96 | 1.3E-32 | – | |
Phobius | 89 | 99 | 11 | - | – | |
TMHMM | 97 | 116 | 20 | - | – | |
Phobius | 100 | 116 | 17 | - | – | |
TIGRFAM | 103 | 367 | 265 | 2.9E-38 | ||
Phobius | 117 | 245 | 129 | - | – | |
Pfam | 132 | 310 | 179 | 6.9E-48 | – | |
SUPERFAMILY | 134 | 231 | 98 | 4.18E-29 | ||
PRINTS | 181 | 195 | 15 | 2.2E-42 | – | |
Gene3D | 195 | 346 | 152 | 2.3E-15 | – | |
TMHMM | 244 | 266 | 23 | - | – | |
Phobius | 246 | 269 | 24 | - | – | |
Phobius | 270 | 280 | 11 | - | – | |
TMHMM | 281 | 303 | 23 | - | – | |
Phobius | 281 | 303 | 23 | - | – | |
Phobius | 304 | 648 | 345 | - | – | |
SFLD | 313 | 641 | 329 | 0.0 | – | |
SFLD | 313 | 641 | 329 | 0.0 | – | |
SUPERFAMILY | 327 | 637 | 311 | 2.61E-38 | ||
Pfam | 327 | 604 | 278 | 1.9E-17 | – | |
PRINTS | 331 | 345 | 15 | 2.2E-42 | – | |
ProSitePatterns | 333 | 339 | 7 | - | ||
Gene3D | 347 | 490 | 144 | 2.6E-45 | ||
PRINTS | 447 | 465 | 19 | 1.7E-59 | ||
PRINTS | 485 | 496 | 12 | 2.2E-42 | – | |
PRINTS | 507 | 517 | 11 | 2.2E-42 | – | |
PRINTS | 562 | 578 | 17 | 1.7E-59 | ||
TIGRFAM | 565 | 678 | 114 | 6.8E-28 | ||
Gene3D | 572 | 852 | 281 | 3.3E-110 | – | |
PRINTS | 590 | 606 | 17 | 1.7E-59 | ||
PRINTS | 590 | 609 | 20 | 2.2E-42 | – | |
PRINTS | 613 | 625 | 13 | 2.2E-42 | – | |
PRINTS | 621 | 646 | 26 | 1.7E-59 | ||
Phobius | 649 | 671 | 23 | - | – | |
TMHMM | 649 | 671 | 23 | - | – | |
Phobius | 672 | 676 | 5 | - | – | |
Phobius | 677 | 694 | 18 | - | – | |
Phobius | 695 | 713 | 19 | - | – | |
TMHMM | 713 | 735 | 23 | - | – | |
Phobius | 714 | 736 | 23 | - | – | |
Phobius | 737 | 760 | 24 | - | – | |
Phobius | 761 | 780 | 20 | - | – | |
PRINTS | 766 | 787 | 22 | 1.7E-59 | ||
Phobius | 781 | 791 | 11 | - | – | |
TMHMM | 791 | 813 | 23 | - | – | |
Phobius | 792 | 813 | 22 | - | – | |
Phobius | 814 | 824 | 11 | - | – | |
TMHMM | 823 | 842 | 20 | - | – | |
Phobius | 825 | 849 | 25 | - | – | |
Phobius | 850 | 956 | 107 | - | – | |
Coils | 907 | 927 | 21 | - | – |
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 | Nucleotide binding | Interacting selectively and non-covalently with a nucleotide, any compound consisting of a nucleoside that is esterified with (ortho)phosphate or an oligophosphate at any hydroxyl group on the ribose or deoxyribose. | ||
Molecular function | Proton-exporting ATPase activity, phosphorylative mechanism | Enables the transfer of protons from one side of a membrane to the other according to the reaction: ATP + H2O + H+(in) -> ADP + phosphate + H+(out). These transporters use a phosphorylative mechanism, which have a phosphorylated intermediate state during the ion transport cycle. | ||
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. | ||
Biological process | Proton export across plasma membrane | The directed movement of hydrogen ions (protons) from inside a cell, across the plasma membrane and into the extracellular region. |
Expression pattern of LotjaGi1g1v0214400.3, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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