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Field | Value |
---|---|
Gene ID | LotjaGi5g1v0170400 |
Transcript ID | LotjaGi5g1v0170400.1 |
Related isoforms 1 | |
Lotus japonicus genome version | Gifu v1.2 |
Description | Sulfate transporter 1; TAIR: AT3G51895.1 sulfate transporter 3;1; Swiss-Prot: sp|Q9SV13|SUT31_ARATH Sulfate transporter 3.1; TrEMBL-Plants: tr|A0A0B2P882|A0A0B2P882_GLYSO Sulfate transporter 3.1; Found in the gene: LotjaGi5g1v0170400 |
Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr5:43825685..43833930) extracted from Lotus japonicus Gifu genome v1.2.
CCTAATGCCATTATATAAAGCCACATGTATTACACCTACAGTATCTCACCACCATCCTCACATATATATGTGTCCTCTCC AGTCTCCATTCTCTCCTCAATAATCATATTACTCCTCTTCTTCCTCTATCTTATCCCCTTCTTCTCAATTCTCAATCATC ACCATCCTCTTCATTATTATCAACTATCCTTAGTGACGGATCCAGAAACTATTAGCCGGTCGCTAAAACATTTTCATTAA CCACTATATTAATTATCGTGTGCTTATATATATATAGTTGTGTGTTAGTAAGCTTGCTGAGGAGTGAAGATCATGGGTAA CGTAGACTATGCGTACCCTTCCGCTGAGGAACGCGTGCACCACCGCGTGGAGGTTCCTCCTCCTCAGCCATTCTTCAAGT CTCTGAAGTACTCTCTGAAGGAGACATTCTTCCCTGATGACCCTCTAAGGAAGTTCAAGAACCAACCAACGTCAAAGAGA TTATTGCTAGGAATTCAGTACTTCTTCCCCATCTTCGAATGGGGACCTCACTACACTTTTCAGTTCTTGAAATCTGACCT CATTGCAGGCATCACCATCGCTAGCTTGGCCATTCCACAAGGCATCAGTTATGCCAAGCTCGCCAACCTCCCTCCAATTC TTGGACTATGTGGGTACTTTAATTATATATAGATCATCAACCAAACACAAAATATTCTCGTATCACATGCTATATATTGT CACATAGAGTTTAGGAAATTGATTTCATGTTTTCTTTGTAAAGAGACTAACTTATATTAACTTTGAGAATGTCAATATAT CTATATATCTACACACACATAGCACGCACGCAGCACACACATATTTATGTATATAAGCAGTGTCTCAATGTCCTACTTTT TGAAGATTAGCCGTATTAGGTGTCGTGTCGTATCGCAGTTTCGTGTCGGAGTCAGTGCTTCATAGCTAATTTCTAATAGG TTTTTTTTGTTTTTTTCAGATTCGAGTTTTATACCACCGTTGATTTATGCGATGATGGGTAGTTCAAGGGACTTGGCAGT GGGGACTGTGGCCGTTGGATCTCTTCTGTTGGGTTCCATGTTGGCGAATGTGGTGAATCCAAATGAGAAACCAAAGCTTT TCCTCCACCTAGCTTTCACAGCTACGTTCTTTGCTGGAGTCTTTCAGGCTGCATTGGGTCTATTTAGGTAACATCTCACT ATCAATGTATCATATCCACCATGTTATATAATAAAATAGAGACCTCATTCTGATAAGAGAAGAATTCTAGCTAAAAACTC ACTCTCAGAATCAGCAACGTCATCACTTTTTAATTATCTCAATTTTACAATTTTTTATTTCCACATTCTCTCTAGCAAAA TGTTAAAGAAAATCTCTCAAATTCAAACAACATGATATTTTTTAAATTCAAGTTTCCTTGATTTTCTCCATCATAAACTC AGTTTTTTTATAGCAATTTTTTTAAACTAGAAATTTTTAATATTAGCCACATGATCTGAAATTACAAGTAGAACAATATT TTTATTTTAAAATATATAAATATTTTTATATTGTACTACCTCCGGTCCTATTTATAAGCATGAAAGAGAAGAAAAATCTT GGTCTTTTTTATAAGAACCAAATGAAAGTTTGAGCTATACTAATTATTTTTTTCCAATATGATGCCCTTATTAATTCTAA CTTGTAAATATGTCTCATTAATTATTCTCTCTCTTTCCCACTTTCCAACACTAATAATAAAGGAAAATTTTGGAAGTTTA TTTTAATTTAAGACAAATTTAATGCATTTTATCTAGTTTAACTACATTTCTTAAACTATGTGATTTTTTTTATTTATTAT AAATAGGACCGGAGGTAGTATATAATGTATCTACAATTTGTTAAACTCTTTACTATTGTTTTCAAAAGACTTCTTAATAT ATGTAATTCTAAGAAATAATTTCATACTTTAAATATTTTTTAAGAAACCCGTGCATTGCACGTGCAACTTCCAGTATATA TACTCTAAAGTCACTTTCTAATCTAGAAACTTTTCTTTACACTTTTGAAACTGAATATTTTATAGTGATCATAACTTTTT GAAGAAGTATATAAATTTTCTTGTGCATTTTTTCTCAATTTTATAAAATAATTAAAACACTAACATGTTAACAAAAAGAA TAAATATTCACAAGTAAGAGATAAAAAGAAAAAAAAAAGAGAAATAAAAAATGTGATAGATGAAATATGAGAAAAATGAG TAAAGATGATATTAAAAAGAATATGAATACAAATTAGTCAAGACCCAAACAAAGAAGTGTACTCATTAATTAATAATACT ATCTTTGTTCCTTATTACTCCATTTATATTTATACATAAGTATTTTTTTTGAAAGAATATTTATACAGAAGTCATTTTTA ATTAATTCTCTAAAATAAAAATAAAAAGTAGCGTATTAATAAGTTTGTGAAAAAATTTTAGTATCAATAAAAAAATATTA TCAATTTTCCTTAATTACCCTAATTTAAAAACTTACAAATTAATTAAACTCCTCTCTACTTTAGTTATCTGTTTATTTTC TCATGAAGTTATTTCTCGAAGTTTAGAACTTTTCAAAATTTCACTGTCTCTTCCATATTAAATATGAGGGTAAATTTGAA AAAAAGGTATTTAATACTTCATAGATATTAGAAAGTGACTTATATTTAAGAACAATATTTTTTTCACAAAAAGTGATTTA TAATAAGGAATGAAGAGATAAACTATCTAGAAAAATAAGAAACATAGTACATATTAAGATATGAAATTAGTTTTGGTAAC TTTCAAAAAAAAATATTCCTTAAAAAAACTTTCAGAAAAAATATTATTTGTTTTCCATTTTTATTATTTAAAATCTGTTT TATCTCTCTTCATTTATTATTCTCATAATGACATTATTTGGAAAAGCATTTATTAATATTATTTTATAACTCTCCGTGGA TAGATAAATTGAATTTTCCCTTTAAATTAAAAGTTAATAAAAAAACGGAGATAGTAGTGTTTAACATAAAGAAAGAAAAA AATCCGGAGCAAGACAAAATCTACTGCAGTTCACTGTATTGGCTGAAGTTTTCTCTTCCGTTGGAGTTTTGTCTTGAAAT GTTAAATCAAATATATTCTGGAATCTGCTTAAAGACGGATTGGTCTATCCATTGCTTTCGTGTATCACGGCTCAAGAATA TAATATGACCTTGATAGCTGATATAAACAATTATTTAGACAACCCCTAATAGTTATCAACATATCAAATAAATACAGTTT CCTCAAATATTAATGTTATATTAGAACTATTAATTAATCATGGCCAACACATGATGAGTGCAGGTTAGGATTTATTGTGG ATTTTCTGTCACATTCAACCATAGTTGGATTCATGGGAGGAGCAGCCACAGTGGTTTGTCTGCAGCAGCTAAAATCGATT CTAGGCCTTGAGCATTTCACTCACGGGGCTGATATAGTATCAGTGATGCGTTCTGTTTTTACCCAAACTCATGAGGTACA AGTTGAAATATTTTTATGTAATGAAATACAATCTATTTAAATAGAGCTAGCCTTGTCATCTTCACCTTCTAGCTAGCTAG CTCCAAAATTATAGCTTTAACTAATTATTTGATTCATGTGTAATGTTTTCATACTTACTTTTTGACTCAGCATAACTTAG TTTTCTTATTTAATTTACTTATTGCAGTGGAGGTGGGAAAGTGCTGTGTTGGGCTTTTGCTTCATTTTCTTCCTCCTTGT CACAAGATACTTTGTAAGTAATACCTAATCCATATTTATGTGCATAAAATATGACATTAATTTTAAAATCTAATATAACC ATTTACATTCTATATTTCTTATAGTGTATGCTTTACTCTATTTTCCAAGCAACAATGTTAATTAGGCAAAGAAAAATAAG CCAAATGATAATTCAAACCAAAATCATTTACATTCTACATATGTACACACCTGATATTCATTACTCACTAGGTTTGGTTA AGTTTCCTTAGTCAGCTAAAAATTGACTGTAATTGTGGTTTGTGACATTAACATGCAGAGCAAAAAACAACCAAAGTTCT TTTGGGTGTCAGCAATGGCGCCATTGACGTCTGTTATCTTAGGAAGTGTGCTTGTGTATTTCACTCACGCTGAGAACCAT GGCGTTCAAGTGGTGAGTATTTCAAGTGATAAGTTTAACAATAAAGTTTAATTTGAGGTGAAACACATTTCAAAGCACAA TAATTCCATGAGATACACTACTTTCAAAAATGATTATGAAGTTTTACACTATGGAACCAAATACGCTATAACTGTTATGG GTTAATCTATTTACCGGATTTTGTAGTTGAAAACAAGTTTTACACTAGTGATTTGTTTATTTTTAAGATCTTGTTTTCTA TAATTAAAAGGATAATGATCCTGTCATGACTCTTTATTGATGTGTGTTAATTTGTGAATACATTCAGATAGGAAATTTGA AGAAGGGGCTAAATCCACCATCTCTCACAGATTTGGTATTTGTGTCTCCTTATCTGAGCACTACTATCAAAACTGGCATT GTAGTTGGCATTATAGCACTTGCGGTAAGTGGCTTTTTTAGTTTTTAGTCTAATGATACGGTTATGTTTTTCTTCCTTTG ACAATGATTTAGACAATGTAGCTTTGAATAACATCAATAGTGTTAACTAAAAATTGATGGTAAATTTCAGGAAGGGATAG CAGTGGGAAAAAGCTTTGCGATGTTTAAAAATTATCAAGTTGATGGCAATAAAGAAATGATAGCTATTGGGACCATGAAC ATAGTTGGTTCATTCACCTCTTGCTATCTCACAACAGGTAAATGTTTCATTAACTATTAGTAGAAATATCTAAATTCTAT AGAGCCCTTTTCTTGTTTTCCCCTGATTCAATACAATATATATAACTTACTATTTTACAATAACTACTGTCACATGTGGC ATAACAATTTTCATTGTTTCAGGGCCATTTTCACGTTCAGCAGTGAACTATAATGCTGGATGCAAAACTGCTACATCCAA CATTGTAATGTCAATTGCAGTCATGTTGACATTGTTATTCCTGACACCCTTGTTCTATTACACTCCTCTGGTGGTGCTAT CAGCTATAATCGTGTCTGCAATGCTTGGCCTCATTGATTATCAAGCTGCAATCCATCTATGGAAGATTGACAAATTTGAT TTTGTTGTTTGTATGAGTGCATATATTGCTGTGGTCTTTGCTAGTGTTGAGATTGGCTTAGTTATAGCTGTATGTATCAG TATAACCTCCGTGAACTTCCACTTTTTATGTCACTCACTTTTGAGTCTATTAGAAAGGTTTCTGAAACTAATATGTGCTT TCATGTGTATATTCAGGTTGCACTATCTGTAATTCGGCTACTTTTGTTTGTTGCAAGGCCAAAGACATTTGTTTTGGGCA ACATTCCAAATTCTATGATATACAGAAATGTCGAGCAATATCCAAATGCAAAACATGTACCTGGAATCCTAATTTTAGAG ATTGATGCACCAATTTACTTTGCCAATGCAAGCTACTTAAGAGAAAGGTAAGCTACTTGAAAATTTAGAGCTTTTGATCT CTTGCATGGAAAATCTCTGGTTTGCAAAAGAAATGGACACTTGATAGAAACCTTTTTTTACTACTCATAGGATCACAAGG TGGATTGATGAAGAGGAAGATAAAATTAAAGCTACAGGGGAGACAAGTTTGCAGTATGTTATAATGGATATGAGTGGTAA GTAATTAATTAGCCTATGAAATATGGTTATTAATAGGCTTAATTCCATTTTGGGCCCCTGATCTTTTAAAAATGAGCGAT CGGGGCCCCCGTGTTTAAACGTAGCGGTCAGGCTCCCTGATGTCTCTAAAACGTGCGATCCAAGCCCTTCCGTCTGTTTC CGTTAGTTGACTAAACAGAGCTTCATTTCTCATTCTTCTACTCAATAACAACAATTAAACACAAATCTAATTACTCTTCT TCTTTTTTTTCATTATCTCATCTTCTCCCACCATACAAAATCAACAAAACCCATGGAAGAAGATGCATGATTGTCTCTAT TCCAAAAAATTACCCAAATCCAGAAATTATCGAAATGCTTAAACTTCAAATCAAAATCAATTTTCCTACAAAATCAATTT CTGGGCTTCCTACAAATTACCCACCACCTGCTTTTCGTTCTTCTTCTCCCTCTCTCATCCGCACCTTCCATCAAAATCAA TTTCTGGGCTTCCTACAAAATCTTCTTCTTTTTCTTCAGATCCGCACCACCACACCACACCTTTTCCACCATACCATCAC TTTTCCTTTCACCTCCCACAACCTGAGCTCGTTGCTGCCACCGCGCCATCTCCACCGCTTTCCTTCCCTTCGTTCTATGT TGAACCCCTCTCTTCAGCTTCCTTTAGCTTCTCCTCAACAAACCCACCCCCACCCACCTGCAACCGCCACCCAACCAACC AGAGGAGAGAGCGAGATCGAGAGAGAGAGAGAGGGCGAGATCCAGAGGAGAGCTCGAGATCCAGAGCGAGATCGAGAGAG AGAGAGAGAGAGAGAACGAGTCTGAGAGATTTGGGGTTGTGGGGTGAGGTGAGGTTGAGGGAGCCATGGAAGCCATGGAA GGAGGAAGGAGGAAGATGAAAGAAGAAGAAGCGTGAAAGAGGGAGAGAGAGGGTCGAGTATGAGAGAGAGGACTGAGTCT TTTTCATTTTTATTATTATTAACTTTCAATATTTTATTTTTTTTATTAGAAATTAAATAAATGTCACGTCAGCATTCCGT TTGGTCAACAGACGGAACCTAACGGAAGGACGTTAATCGCACGTTTTAGAAACGTCAGGGACCTTGACCACACGTTTTAT ACACGGGGGGTGCAGATTGCACATTTATGAAACATCAGGGGCCCAAAGTGGAATTAAGCCTTATTAATAAATTATGGTTA GTAGAATTTCTAGTACATAACTTGCAATGTAATTTTATTGGCAGCTGTCGGGAACATCGATACAAGTGGAATTAGCATGC TTGAAGAGGTCAAGAAGATGGTAGACAGAAGAGGGCTACAAGTAATTGTTTCTCTATTTCTATCTGCTAAATCATGAACT ATGATTTTCATTAATCATGTTAAATTTTAAGTAGCATGCTTCTTTTCTTTTTTTAAACCATTCATTCTTGTGCGTGCAGC TTGTTTTGGTCAATCCTGGATGTGAGGTGATGAAGAAACTAAGCAAGTCCAACTTCCAAAAGGATATGGGGAAATGGATC TATTTGACAGTTGAAGAAGCTGTTGCAGCATGCAACTTTATTCTCCATGAGAGCAAGATGAATCCTAAGAAAAATGAATC TGAGAGTTGGGACAATGTGTGAGCCATATATCAAAGCATATTTTAGAGAAAGCTTAATTGTTTTCATTTTTTCTCAGCTA TATCACCATTAGAATATGTGGCATGAGAGTTTGTGAATCATGCCAATGAATCATCACCAACATGGGGTTCTTCTAATTTC TCCACTTTGTATCCTAAGTTGGAAGAAATCTCCTGCAAAGGTTGTTGAACCATTATGTATCATGCTTGATAATCTATTCA AATGTAAAGTTTTCTATGATAATTGAAATAGTCCATAGGATACGTCCTAGAAAACCTTAAAGTGGACCAAGTCTAAATCA TTATTGGAGATAAGGAAACAGCTGAATGCTATTTGATTAAAAACAGGTTGCATGAACAATAAAAATCCGTTGAAAATACG ACTACAAAGATAAAATATGAATGTATCATCTCATTCATGTTGATTAAAATTAAAAGTAAACTCATTATCTATCCATAAGT TTGCATCCTCAACTAATGTTTTGATCCTTTTCTGTTTTTTTTTCCTCAGGACCCAAGCTCAATAGGGTAAGTGGCCCTTG ATTTCGCTCAATTCTGACTTAAAACTCGTAACCACCCTGAACAGACCTTCAAATTTGGTTATTGGAATTTTTCGGTACAT AACTTGCAATGTAGTTTTATTGGTAGCTGTTGAGACCATCGCTACAAGTGGAATAACCTTGCTAAAAAAGGTCAAGAAGA TAGAAATTCTTGTTCTCTTCATGAAAAATGATTTTCAGAGTGCCCATTGTATAAAGTTTATGGTGGATAGATGCCTTTTT CCAGGAGGAAAAAATATCCACAATGGTAAATAACTAGCCCTATTCGGGGTGGTTTTTGGTTTTATGTTTTGAAAAATTTA AAAACC
CDS sequence (LotjaGi5g1v0170400.1) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGGGTAACGTAGACTATGCGTACCCTTCCGCTGAGGAACGCGTGCACCACCGCGTGGAGGTTCCTCCTCCTCAGCCATT CTTCAAGTCTCTGAAGTACTCTCTGAAGGAGACATTCTTCCCTGATGACCCTCTAAGGAAGTTCAAGAACCAACCAACGT CAAAGAGATTATTGCTAGGAATTCAGTACTTCTTCCCCATCTTCGAATGGGGACCTCACTACACTTTTCAGTTCTTGAAA TCTGACCTCATTGCAGGCATCACCATCGCTAGCTTGGCCATTCCACAAGGCATCAGTTATGCCAAGCTCGCCAACCTCCC TCCAATTCTTGGACTATATTCGAGTTTTATACCACCGTTGATTTATGCGATGATGGGTAGTTCAAGGGACTTGGCAGTGG GGACTGTGGCCGTTGGATCTCTTCTGTTGGGTTCCATGTTGGCGAATGTGGTGAATCCAAATGAGAAACCAAAGCTTTTC CTCCACCTAGCTTTCACAGCTACGTTCTTTGCTGGAGTCTTTCAGGCTGCATTGGGTCTATTTAGGTTAGGATTTATTGT GGATTTTCTGTCACATTCAACCATAGTTGGATTCATGGGAGGAGCAGCCACAGTGGTTTGTCTGCAGCAGCTAAAATCGA TTCTAGGCCTTGAGCATTTCACTCACGGGGCTGATATAGTATCAGTGATGCGTTCTGTTTTTACCCAAACTCATGAGTGG AGGTGGGAAAGTGCTGTGTTGGGCTTTTGCTTCATTTTCTTCCTCCTTGTCACAAGATACTTTAGCAAAAAACAACCAAA GTTCTTTTGGGTGTCAGCAATGGCGCCATTGACGTCTGTTATCTTAGGAAGTGTGCTTGTGTATTTCACTCACGCTGAGA ACCATGGCGTTCAAGTGATAGGAAATTTGAAGAAGGGGCTAAATCCACCATCTCTCACAGATTTGGTATTTGTGTCTCCT TATCTGAGCACTACTATCAAAACTGGCATTGTAGTTGGCATTATAGCACTTGCGGAAGGGATAGCAGTGGGAAAAAGCTT TGCGATGTTTAAAAATTATCAAGTTGATGGCAATAAAGAAATGATAGCTATTGGGACCATGAACATAGTTGGTTCATTCA CCTCTTGCTATCTCACAACAGGGCCATTTTCACGTTCAGCAGTGAACTATAATGCTGGATGCAAAACTGCTACATCCAAC ATTGTAATGTCAATTGCAGTCATGTTGACATTGTTATTCCTGACACCCTTGTTCTATTACACTCCTCTGGTGGTGCTATC AGCTATAATCGTGTCTGCAATGCTTGGCCTCATTGATTATCAAGCTGCAATCCATCTATGGAAGATTGACAAATTTGATT TTGTTGTTTGTATGAGTGCATATATTGCTGTGGTCTTTGCTAGTGTTGAGATTGGCTTAGTTATAGCTGTTGCACTATCT GTAATTCGGCTACTTTTGTTTGTTGCAAGGCCAAAGACATTTGTTTTGGGCAACATTCCAAATTCTATGATATACAGAAA TGTCGAGCAATATCCAAATGCAAAACATGTACCTGGAATCCTAATTTTAGAGATTGATGCACCAATTTACTTTGCCAATG CAAGCTACTTAAGAGAAAGGATCACAAGGTGGATTGATGAAGAGGAAGATAAAATTAAAGCTACAGGGGAGACAAGTTTG CAGTATGTTATAATGGATATGAGTGCTGTCGGGAACATCGATACAAGTGGAATTAGCATGCTTGAAGAGGTCAAGAAGAT GGTAGACAGAAGAGGGCTACAACTTGTTTTGGTCAATCCTGGATGTGAGGTGATGAAGAAACTAAGCAAGTCCAACTTCC AAAAGGATATGGGGAAATGGATCTATTTGACAGTTGAAGAAGCTGTTGCAGCATGCAACTTTATTCTCCATGAGAGCAAG ATGAATCCTAAGAAAAATGAATCTGAGAGTTGGGACAATGTGTGA
Protein sequence (LotjaGi5g1v0170400.1) extracted from Lotus japonicus Gifu v1.2 Proteins.
MGNVDYAYPSAEERVHHRVEVPPPQPFFKSLKYSLKETFFPDDPLRKFKNQPTSKRLLLGIQYFFPIFEWGPHYTFQFLK SDLIAGITIASLAIPQGISYAKLANLPPILGLYSSFIPPLIYAMMGSSRDLAVGTVAVGSLLLGSMLANVVNPNEKPKLF LHLAFTATFFAGVFQAALGLFRLGFIVDFLSHSTIVGFMGGAATVVCLQQLKSILGLEHFTHGADIVSVMRSVFTQTHEW RWESAVLGFCFIFFLLVTRYFSKKQPKFFWVSAMAPLTSVILGSVLVYFTHAENHGVQVIGNLKKGLNPPSLTDLVFVSP YLSTTIKTGIVVGIIALAEGIAVGKSFAMFKNYQVDGNKEMIAIGTMNIVGSFTSCYLTTGPFSRSAVNYNAGCKTATSN IVMSIAVMLTLLFLTPLFYYTPLVVLSAIIVSAMLGLIDYQAAIHLWKIDKFDFVVCMSAYIAVVFASVEIGLVIAVALS VIRLLLFVARPKTFVLGNIPNSMIYRNVEQYPNAKHVPGILILEIDAPIYFANASYLRERITRWIDEEEDKIKATGETSL QYVIMDMSAVGNIDTSGISMLEEVKKMVDRRGLQLVLVNPGCEVMKKLSKSNFQKDMGKWIYLTVEEAVAACNFILHESK MNPKKNESESWDNV
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 | 73 | 73 | - | – | |
PANTHER | 10 | 654 | 645 | 0.0 | – | |
PANTHER | 10 | 654 | 645 | 0.0 | ||
TIGRFAM | 66 | 627 | 562 | 1.7E-188 | ||
Phobius | 74 | 94 | 21 | - | – | |
Pfam | 79 | 459 | 381 | 1.1E-132 | ||
Phobius | 95 | 105 | 11 | - | – | |
TMHMM | 103 | 125 | 23 | - | – | |
Phobius | 106 | 125 | 20 | - | – | |
ProSitePatterns | 108 | 129 | 22 | - | ||
Phobius | 126 | 130 | 5 | - | – | |
TMHMM | 130 | 152 | 23 | - | – | |
Phobius | 131 | 152 | 22 | - | – | |
Phobius | 153 | 158 | 6 | - | – | |
TMHMM | 159 | 181 | 23 | - | – | |
Phobius | 159 | 181 | 23 | - | – | |
Phobius | 182 | 239 | 58 | - | – | |
Phobius | 240 | 261 | 22 | - | – | |
TMHMM | 244 | 261 | 18 | - | – | |
Phobius | 262 | 267 | 6 | - | – | |
Phobius | 268 | 289 | 22 | - | – | |
TMHMM | 268 | 290 | 23 | - | – | |
Phobius | 290 | 329 | 40 | - | – | |
TMHMM | 328 | 350 | 23 | - | – | |
Phobius | 330 | 350 | 21 | - | – | |
Phobius | 351 | 361 | 11 | - | – | |
TMHMM | 362 | 381 | 20 | - | – | |
Phobius | 362 | 380 | 19 | - | – | |
Phobius | 381 | 399 | 19 | - | – | |
TMHMM | 396 | 418 | 23 | - | – | |
Phobius | 400 | 419 | 20 | - | – | |
Phobius | 420 | 425 | 6 | - | – | |
TMHMM | 423 | 445 | 23 | - | – | |
Phobius | 426 | 447 | 22 | - | – | |
Phobius | 448 | 458 | 11 | - | – | |
Phobius | 459 | 486 | 28 | - | – | |
TMHMM | 460 | 482 | 23 | - | – | |
Phobius | 487 | 654 | 168 | - | – | |
Gene3D | 490 | 634 | 145 | 4.1E-40 | ||
ProSiteProfiles | 510 | 632 | 123 | 28.58 | ||
Pfam | 511 | 628 | 118 | 7.3E-34 | ||
CDD | 511 | 619 | 109 | 1.07117E-25 | – | |
SUPERFAMILY | 512 | 632 | 121 | 6.47E-22 |
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 | Secondary active sulfate transmembrane transporter activity | Enables the secondary active transfer of sulfate from one side of a membrane to the other. Secondary active transport is the transfer of a solute across a membrane, up its concentration gradient. The transporter binds the solute and undergoes a series of conformational changes. Transport works equally well in either direction and is driven by a chemiosmotic source of energy. Secondary active transporters include symporters and antiporters. | ||
Biological process | Sulfate transport | The directed movement of sulfate into, out of or within a cell, or between cells, by means of some agent such as a transporter or pore. | ||
Molecular function | Sulfate transmembrane transporter activity | Enables the transfer of sulfate ions, SO4(2-), from one side of a membrane to the other. | ||
Cellular component | Membrane | A lipid bilayer along with all the proteins and protein complexes embedded in it an attached to it. | ||
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 | 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 LotjaGi5g1v0170400.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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