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| Field | Value |
|---|---|
| Gene ID | LotjaGi4g1v0020900 |
| Transcript ID | LotjaGi4g1v0020900.1 |
| Related isoforms 1 | |
| Lotus japonicus genome version | Gifu v1.2 |
| Description | Copper-transporting ATPase; TAIR: AT5G44790.1 copper-exporting ATPase / responsive-to-antagonist 1 / copper-transporting ATPase (RAN1); Swiss-Prot: sp|Q9S7J8|HMA7_ARATH Copper-transporting ATPase RAN1; TrEMBL-Plants: tr|A0A072V003|A0A072V003_MEDTR Heavy metal P-type ATPase; Found in the gene: LotjaGi4g1v0020900 |
| Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr4:2583281..2589758) extracted from Lotus japonicus Gifu genome v1.2.
GCCTTTTATATATGAGTTATACTAGATGTTGTTGGTAACTCACTAACCATAACCTCTACTTTAGTTAAGAAATTGCTGTC TACACCAAAACCAAATAATTATAAAATTTCTGTTTCGCCATCTCCCTCGGAAAAAAAAAGTTTTCTCTCCATCTTCTTCC TCTTCTTCAACCTTTTTATTTCTTTTCTTTTCTTTTTCTCTCCACGTTTCCTTTCATTCACCTTTTTAATTATTTTCCCT CCTTTATATATATTTCCTTTCCTTCGTATTTACCTCGCAACATTCTTCAATAATTCTAATGGCGCCGGGAATTCAACTAA CCTCCGCCGGCGCCGTCGCCGGCGATGACTCCGTTGACCTCGAGGACGTTCGCCTGCTCGATTCCTACGAGAAATACGAC GACGGCAACACCACGAACACGAAGCGTATTCAGGTCAGCATCTCCGGCATGACTTGCGCCGCCTGCTCCAACTCCGTCGA AGCCGCTCTCAACTCCGTCGCCGGCGTCTCACACGCCTCCGTCGCGCTTCTCCAGAACAGAGCCGACGTTGTCTTCAACC CAACCCTCGTCAAGGTTGGTCACTCTCTCTTCTCCCTCTCTTAACTTTGATGGATTTGTTCAAAGTGTTAGCTGCTGATT TTAGAAACTGCTATGTGATTGTGAACCCTAGGAAGAAGACATTAAGAATGCGATTGAAGATGCAGGTTTCGATGCTGAGA TCTTACCGGAACCGGCTTCGGTTGGATCGGACAAACGCGGTGGCGCCGCCGTGGTGGTGGGACAGTTCACGATTGGTGGG ATGACTTGTGCGGCGTGTGTGAACTCTGTTGAAGGCATCCTGAATGGCCTCACCGGAGTGAACAAAGCAGTGGTGGCTTT AGCCACTTCCTTAGGCGAAGTTGAGTATGATCCCAACGTGATTAGCAAGGAAGAGATTGTTGGTGCTATTGAAGATGCTG GTTTTGAGGGTTCGTTTGTTCAGAGCAGTGGTCAGGACCAGGTGGTTTTAGGGGTTGTTGGTTTGAGCTCTTTGGTTGAT GCTCGGATTTTGGAAGGTGTGTTGGGTGGGATGAAAGGGGTGAGGCAGTTTCGGTTTGATCCTTTGTTGAATGAATTGGA TGTGGTGTTTGATCCTGAAGTTACTAGTTCTAGAGCATTGGTTGATGAGATCCACGCCGGGAGTAACGGCATGTTCATGT TGCATGTTAGGAATCCTTATGCTAGAATGGCTTCTAAAGATGTTTCAGAGACCTCAAATATGTTCAGACTTTTTCTTTCC AGCTTGTCTCTTAGTGTGAGTATCTCTTTTGCACTTTACTTTTTTTCCTTGTTTGGCTTCCTTTTCATCTAATCACAATC TTTCATGAATGGTATGTTGAAATCCTTATGAAATGATTGAACAGATACTTACTATGTGAAAATACTGAGATTGTTTTCCA AAACTAATGCACACTGAAATAAATGGGGTTAAATTTGTGAGTTAAGTGATGTGTTTCAGAAAGAAAGGGTATCTGTAGAG AGATAGGGAGCAGGGGTAAGAAATCATGTAGTTACTAGTTACTGCTGTATGCTCAGACTTTCAGGTTCTGCAGTTGTCAA ATCCCATAAATTTATAGGGGTTGTATTAGTCCATGGAGAAATTTTCTTCTAGAGGAATTGGTATTCTGCCATCATGTCAT TTTTGTTTTTCCAAATATAAATATATAACTGAAACAGAATTAAACTTGATATTGTGAGCTTAAAATTGAGAGCCTATGTT AACATCCCTTATTTTGTTTAGTTTTTGCTTAATGTTTCAATTCCTTTGCATTGATTTTTGCTTGATCCATTTCTCTCAGA TTCCTCTCTTCTTCATGGGGGTAGTTTGTCCCCATATACCATTGTTTTACTCCTTATTACTTTGGAGATGTGGGCCTTTC CTCATGGATGATTGGCTGAAGTGGGCATTGGTGAGTCTCATCCAATTTGTGATTGGAAAGCGATTCTACATAGCAGCTTT CAGAGCTCTTAGAAATGGTTCAACTAACATGGATGTCCTGGTTGCTCTGGGAACTACAGCCTCTTATGTTTATTCGGTTT GTGCTCTTCTGTATGGTGCTGCTACTGGATTCTGGTCTCCAACGTACTTTGAAACCAGTGCTATGCTGATAACATTTGTA TTGCTGGGCAAATATTTGGAATGTCTTGCCAAAGGAAAGACATCTGATGCCATTAAGAAATTAGTAGAACTTACTCCTGC AACAGCTTTATTGGTTGTCAAAGATAAAGGTGCGTGTCAATTTAATTTGATGCGTGTTGATTTTTTACTAAAAGGGAGGT GAATCAGTTTTTGTGATGATTATCTTACATTTAGGAAGAAAGCTCATTACTGAAGGTTTTTTCATTTATAGGTTTCATTG CAACATCAAGTTTGAACTTGGCAATAACTCTTTTGTTTTCTAGGTGGTAAACCTGTTGAAGAAAGGGAAATAGATTCTTT GCTCATTCAGCCCGGGGACACATTAAAAGTTCTTCCTGGGACAAAGGTTCCTGCTGACGGTACGGTTACTTGGGGCTCAA GTTATGTAAATGAGAGTATGGTGACTGGTGAATCTATACCTGTTTTGAAGGAGGTCGATGCATCTGTTATTGGAGGTACA ATCAATTTGCATGGTGTCCTTCACATTCAAGCTACCAAAGTAGGATCTGATACAGTTTTGAATCAGATAATTAGTTTGGT GGAGACCGCCCAGATGTCTAAAGCTCCCATACAAAAGTTTGCTGATTATGTAAGTATTGCGGTTGTGCTCTTGGATGACT TTTATGTTCTGCAGGTGTTTACTTGATATTCTTTGCATTTTTTGATAGAATGAAACGGCAATACATTCTTTTTGGTAAAG AAAGTATTAACTCATGAATCAGTTCTAAAGTTAGGTGACATGTTTCTAGACGCCCTGGTAAATGGCAACTGCATAATTTC ATGTCTTTTAAATGATAGCTGGGCTCTTGTAAATTGTAATTGTAGAAGATACATTGAGTAGAAAGCAAGGAGTCAGCATT TAGTTTTCCTGGGCTGTTATTCTTGCAATTCTGATTGAGCTTGGAGAGTTAGGACAATATTTTGAATTTTTGATGCCTCA GATCTGCCCTATGAAATTATTCATAAAATTGGATTGTTGTTTGTTATTGAATCCAGTAATTTCAGGTGTAAGGCTTTGAT CATAAATAATACAAGTATCTATTTATGTGCTTGCTCCTAGTTATCTATTAGTTGTCATTTTCTTCTTGAGTTTAACCTTG CTACTTGCTAGTTGATTGATCCACATATTACTGAAATATTAAATATGAACTGAGGTGCATTTTATTTGGCTTGCAGGTTG CAAGTATATTTGTTCCCACAGTTGTGTCTTTGTCAGTGTTGACATTTTTGTGTTGGTAAGATTATCTTGACTTGTTTTGG CATATTGATAAAAGTTGATTTCTTCTGTGTAATTGAAATGCTTTCCCCTACTTTGTCTAAACATTTTGTCTGATTGTGTA GGTACCTTGCCGGGGTTCTTGGAGGTTACCCAGAAGACTGGCTTCCAGAAAATGGAAATCACTTTGTTTTTGCCCTTATG TTTTCAATATCTGTTGTGGTGATTGCATGTCCCTGTGCACTTGGTTTGGCAACACCAACTGCTGTCATGGTGGCAACAGG AGTTGGAGCCAACAATGGTGTATTAATCAAAGGAGGAGATTCCTTGGAAAGGGCTCAGATGGTGAAGTATGTCGTATTTG ATAAAACAGGCACTTTAACCCAGGGGAAAGCCACTGTTACTGTTGCCAAGGTGTTCTCAGGAATGGACCGTGGAGAATTT CTTACATTGGTGGCTTCTGCTGAGGTGAGTTCTCTTTATTTTATTTTTTTAATTATATTTATTTCTTTTATTCTTATTGT CTGTATATGGTATTGTCACATATACACAGTTCTAACTTAGATCCAGGTATGTAGAGGACCTACAGGTGAAATATTGTTCT ACATTTCCTTTCCCCCTCCTTGAAGGAATTAACAGTATTCGATTCTTTTTTGTTAATTCAGGCTAGCAGTGAACACCCAC TGGGAAAAGCAATATTGCAATATGCACGCCATTTTCATTTCTTTGATGGGTCCGCACCAACCAATGGTACCCAGAATGAT GCCAAGGAGTTGAAGTCAGGGTGGCTTTATGATGCCTCAGATTTCTCTGCTATTCCAGGAAGGGGTGTGCAGTGCTTTAT AGGCGGGAAGCGTATTTTGGTAATGTCCTTTGGCTATTGTAATATGACGTCATTATCTGAAATGTGTTTCATACTTTCCA AAATGGTTGCTTATTTGAGGCAGTATGTCCTGAACAGGTTGGTAATAGGAAGCTGCTGGAGGAAAATGGCATCAATATTT CTACTGAAGTGGAGAACTTCATCGTAGAGCTTGAAGAAGGTGCAAAGACAGGGATACTAGTAGCATACGATGATGTATTT ACTGGAGTCCTAGGGGTTGCAGACCCACTAAAGCGAGAAGCTTCTGTCGTCATAGAGGGCCTCCAGAAAATGGGAGTCAT ACCTGTTATGGTTACAGGAGATAACTGGAGAACAGCTCGAGCCGTTGCCAAGGAGGTTTGTATCTATTTCTTTAGTATTT TCTTTTGGTTGGAAAGCTTGGTATTGTGATAACTTCGAATGTGGTTTCAAGGCTATGCTTCTTAGTCTATAAATTCAACA TATGAAACTTTAAGTGTGTGGAGAAAACCAGTATCCGTTGCTTCTTATGATTATGACAGGTTTATAACATAAAATTTGGG TAGAAACTAAAATTAAAATACCTTCTGTATGACAGGTTGGTATTCAAGATGTTAGGGCAGAGGTTATGCCTGCAGGAAAA GCTGATGTTATTCGTTCATTCCAAAAAGATGGAAGTATTGTTGCAATGGTGGGTGATGGCATCAATGATTCTCCTGCATT AGCTGCTGCAGATGTTGGTATGGCAATTGGGGCTGGGACAGATATTGCAATAGAAGCTGCTAACTATGTGTTGATGAGAG ATAATTTGGAAGATGTCATCACAGCCATTGATCTTTCAAGGAAGACCTTTTCTCGTATTCGGTTGAATTATGTATTCGCG ATGGCTTACAATGTTATTGCCTTACCAGTTGCTGCTGGGGCTTTATTTCCTTTACTGGGGATCAAGCTGCCACCATGGGT AGCCGGTGCATGCATGGCGCTTTCGTCGGTGAGTGTTGTATGCTCTTCTTTGCTTCTCAGAAGATATAGAAAACCCAGAC TAACTACAATACTTGAAATTATTGTAAATTAACGAGAAATGAAACTTATGAGGGTATCAATGAGTTTGATCCCAGTAATT CCAATTCCATTTTTTTTTTTTTTTATGTTTTTTACTTGCGCATTGTGTTGTAATTGTAATTGTAGGCTGTAGCTGCCAAT TCGTTGTAAATGCTTGTAATTTGCATAGCTCTCTCACCCTGTCACTCCCCTTCTCTTTTTCTTTTTCAATTGAGATTAGA CTAAAGGGTAAGCCCAAACCAAACGACACTTACAAACAAGGGTATTCAAACATTATGATAAATTTAATTGAAGGCTTAAA AAAGCACATTTGGTCCCCCACGAATGAGATTTGTGCAAAATGAGTCCCTAAACTATTTTTTTAGCATTCTCGGTCCTCCA CGTTATCTTCTGTTACCAGTTTTGATCCTTATCGTTTTTTTGTTAAAAATCTAACGATTTCTGGAAAATCCAGAAATATT CATGCACTACTTTATCTCCTTCATACATCATTCTATGCTCTTCATATGTTCTTCAACATTTTTCCAGAAAGAAAGGAAAA CAAAATCCATAAAGCTATAACACACCCAAAATCTCCAACAACATCAAAACCCAAAATCTCTTTCTCAAGAGCCACCACCT CATCTCCAGATCCAAAATATGACCCGCCAACCTCAACCACCACACCACGTCCTCTTCTCCTTCCTCCCATAGCAGCCTTC TACATCCAACCTTCAAAGCACCTGCTCCTCTTCTCATAGGAACCACGATCACTTCTCTCTCCCCCGAATCACCACCACAG CCGCCTCCTCTGTCCAAATCGCATCGCCGCTGCTCTGTATTCCCCTTTCCAGCGCTGTCAAGACCTCACTCAGTCACCTC CGACCCAAATCGTGATCTTCTCTCTCGTTAATGGTGTTTATTTCGAGTTTTAATTTCTTTTCAGATCTGGATGGTGGGTT TGGTGTAGGTTGAGGGAGGGTCTCCAAATCTGCTTTGCTGGTTCGTTTTGGGCTCCATTACGAGGACTTGTTGTTATGAC TTTTGGTGACAATCTCACTTGGCATCATCTTTTGGGATTTGGATGCTTGCCGATTTGTTTTCTGGTTGGGTTATGATTTT TTTGCTGCTGTTTGTGTTCCACAAATTGGGATGTTTTGCTGCTGTGTGTGTCCATGAATTGGGGGTTGTGATTTGGGA
CDS sequence (LotjaGi4g1v0020900.1) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGGCGCCGGGAATTCAACTAACCTCCGCCGGCGCCGTCGCCGGCGATGACTCCGTTGACCTCGAGGACGTTCGCCTGCT CGATTCCTACGAGAAATACGACGACGGCAACACCACGAACACGAAGCGTATTCAGGTCAGCATCTCCGGCATGACTTGCG CCGCCTGCTCCAACTCCGTCGAAGCCGCTCTCAACTCCGTCGCCGGCGTCTCACACGCCTCCGTCGCGCTTCTCCAGAAC AGAGCCGACGTTGTCTTCAACCCAACCCTCGTCAAGGAAGAAGACATTAAGAATGCGATTGAAGATGCAGGTTTCGATGC TGAGATCTTACCGGAACCGGCTTCGGTTGGATCGGACAAACGCGGTGGCGCCGCCGTGGTGGTGGGACAGTTCACGATTG GTGGGATGACTTGTGCGGCGTGTGTGAACTCTGTTGAAGGCATCCTGAATGGCCTCACCGGAGTGAACAAAGCAGTGGTG GCTTTAGCCACTTCCTTAGGCGAAGTTGAGTATGATCCCAACGTGATTAGCAAGGAAGAGATTGTTGGTGCTATTGAAGA TGCTGGTTTTGAGGGTTCGTTTGTTCAGAGCAGTGGTCAGGACCAGGTGGTTTTAGGGGTTGTTGGTTTGAGCTCTTTGG TTGATGCTCGGATTTTGGAAGGTGTGTTGGGTGGGATGAAAGGGGTGAGGCAGTTTCGGTTTGATCCTTTGTTGAATGAA TTGGATGTGGTGTTTGATCCTGAAGTTACTAGTTCTAGAGCATTGGTTGATGAGATCCACGCCGGGAGTAACGGCATGTT CATGTTGCATGTTAGGAATCCTTATGCTAGAATGGCTTCTAAAGATGTTTCAGAGACCTCAAATATGTTCAGACTTTTTC TTTCCAGCTTGTCTCTTAGTATTCCTCTCTTCTTCATGGGGGTAGTTTGTCCCCATATACCATTGTTTTACTCCTTATTA CTTTGGAGATGTGGGCCTTTCCTCATGGATGATTGGCTGAAGTGGGCATTGGTGAGTCTCATCCAATTTGTGATTGGAAA GCGATTCTACATAGCAGCTTTCAGAGCTCTTAGAAATGGTTCAACTAACATGGATGTCCTGGTTGCTCTGGGAACTACAG CCTCTTATGTTTATTCGGTTTGTGCTCTTCTGTATGGTGCTGCTACTGGATTCTGGTCTCCAACGTACTTTGAAACCAGT GCTATGCTGATAACATTTGTATTGCTGGGCAAATATTTGGAATGTCTTGCCAAAGGAAAGACATCTGATGCCATTAAGAA ATTAGTAGAACTTACTCCTGCAACAGCTTTATTGGTTGTCAAAGATAAAGGTGGTAAACCTGTTGAAGAAAGGGAAATAG ATTCTTTGCTCATTCAGCCCGGGGACACATTAAAAGTTCTTCCTGGGACAAAGGTTCCTGCTGACGGTACGGTTACTTGG GGCTCAAGTTATGTAAATGAGAGTATGGTGACTGGTGAATCTATACCTGTTTTGAAGGAGGTCGATGCATCTGTTATTGG AGGTACAATCAATTTGCATGGTGTCCTTCACATTCAAGCTACCAAAGTAGGATCTGATACAGTTTTGAATCAGATAATTA GTTTGGTGGAGACCGCCCAGATGTCTAAAGCTCCCATACAAAAGTTTGCTGATTATGTTGCAAGTATATTTGTTCCCACA GTTGTGTCTTTGTCAGTGTTGACATTTTTGTGTTGGTACCTTGCCGGGGTTCTTGGAGGTTACCCAGAAGACTGGCTTCC AGAAAATGGAAATCACTTTGTTTTTGCCCTTATGTTTTCAATATCTGTTGTGGTGATTGCATGTCCCTGTGCACTTGGTT TGGCAACACCAACTGCTGTCATGGTGGCAACAGGAGTTGGAGCCAACAATGGTGTATTAATCAAAGGAGGAGATTCCTTG GAAAGGGCTCAGATGGTGAAGTATGTCGTATTTGATAAAACAGGCACTTTAACCCAGGGGAAAGCCACTGTTACTGTTGC CAAGGTGTTCTCAGGAATGGACCGTGGAGAATTTCTTACATTGGTGGCTTCTGCTGAGGCTAGCAGTGAACACCCACTGG GAAAAGCAATATTGCAATATGCACGCCATTTTCATTTCTTTGATGGGTCCGCACCAACCAATGGTACCCAGAATGATGCC AAGGAGTTGAAGTCAGGGTGGCTTTATGATGCCTCAGATTTCTCTGCTATTCCAGGAAGGGGTGTGCAGTGCTTTATAGG CGGGAAGCGTATTTTGGTTGGTAATAGGAAGCTGCTGGAGGAAAATGGCATCAATATTTCTACTGAAGTGGAGAACTTCA TCGTAGAGCTTGAAGAAGGTGCAAAGACAGGGATACTAGTAGCATACGATGATGTATTTACTGGAGTCCTAGGGGTTGCA GACCCACTAAAGCGAGAAGCTTCTGTCGTCATAGAGGGCCTCCAGAAAATGGGAGTCATACCTGTTATGGTTACAGGAGA TAACTGGAGAACAGCTCGAGCCGTTGCCAAGGAGGTTGGTATTCAAGATGTTAGGGCAGAGGTTATGCCTGCAGGAAAAG CTGATGTTATTCGTTCATTCCAAAAAGATGGAAGTATTGTTGCAATGGTGGGTGATGGCATCAATGATTCTCCTGCATTA GCTGCTGCAGATGTTGGTATGGCAATTGGGGCTGGGACAGATATTGCAATAGAAGCTGCTAACTATGTGTTGATGAGAGA TAATTTGGAAGATGTCATCACAGCCATTGATCTTTCAAGGAAGACCTTTTCTCGTATTCGGTTGAATTATGTATTCGCGA TGGCTTACAATGTTATTGCCTTACCAGTTGCTGCTGGGGCTTTATTTCCTTTACTGGGGATCAAGCTGCCACCATGGGTA GCCGGTGCATGCATGGCGCTTTCGTCGGTGAGTGTTGTATGCTCTTCTTTGCTTCTCAGAAGATATAGAAAACCCAGACT AACTACAATACTTGAAATTATTGTAAATTAA
Protein sequence (LotjaGi4g1v0020900.1) extracted from Lotus japonicus Gifu v1.2 Proteins.
MAPGIQLTSAGAVAGDDSVDLEDVRLLDSYEKYDDGNTTNTKRIQVSISGMTCAACSNSVEAALNSVAGVSHASVALLQN RADVVFNPTLVKEEDIKNAIEDAGFDAEILPEPASVGSDKRGGAAVVVGQFTIGGMTCAACVNSVEGILNGLTGVNKAVV ALATSLGEVEYDPNVISKEEIVGAIEDAGFEGSFVQSSGQDQVVLGVVGLSSLVDARILEGVLGGMKGVRQFRFDPLLNE LDVVFDPEVTSSRALVDEIHAGSNGMFMLHVRNPYARMASKDVSETSNMFRLFLSSLSLSIPLFFMGVVCPHIPLFYSLL LWRCGPFLMDDWLKWALVSLIQFVIGKRFYIAAFRALRNGSTNMDVLVALGTTASYVYSVCALLYGAATGFWSPTYFETS AMLITFVLLGKYLECLAKGKTSDAIKKLVELTPATALLVVKDKGGKPVEEREIDSLLIQPGDTLKVLPGTKVPADGTVTW GSSYVNESMVTGESIPVLKEVDASVIGGTINLHGVLHIQATKVGSDTVLNQIISLVETAQMSKAPIQKFADYVASIFVPT VVSLSVLTFLCWYLAGVLGGYPEDWLPENGNHFVFALMFSISVVVIACPCALGLATPTAVMVATGVGANNGVLIKGGDSL ERAQMVKYVVFDKTGTLTQGKATVTVAKVFSGMDRGEFLTLVASAEASSEHPLGKAILQYARHFHFFDGSAPTNGTQNDA KELKSGWLYDASDFSAIPGRGVQCFIGGKRILVGNRKLLEENGINISTEVENFIVELEEGAKTGILVAYDDVFTGVLGVA DPLKREASVVIEGLQKMGVIPVMVTGDNWRTARAVAKEVGIQDVRAEVMPAGKADVIRSFQKDGSIVAMVGDGINDSPAL AAADVGMAIGAGTDIAIEAANYVLMRDNLEDVITAIDLSRKTFSRIRLNYVFAMAYNVIALPVAAGALFPLLGIKLPPWV AGACMALSSVSVVCSSLLLRRYRKPRLTTILEIIVN
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 | 296 | 296 | - | – | |
| PANTHER | 4 | 995 | 992 | 0.0 | – | |
| PANTHER | 4 | 995 | 992 | 0.0 | – | |
| Gene3D | 38 | 109 | 72 | 2.8E-23 | – | |
| SUPERFAMILY | 39 | 111 | 73 | 1.7E-19 | ||
| ProSiteProfiles | 43 | 109 | 67 | 22.811 | ||
| TIGRFAM | 44 | 107 | 64 | 5.3E-12 | ||
| CDD | 45 | 108 | 64 | 1.22823E-15 | ||
| Pfam | 46 | 106 | 61 | 2.3E-13 | ||
| ProSitePatterns | 48 | 78 | 31 | - | ||
| ProSiteProfiles | 128 | 194 | 67 | 21.175 | ||
| Gene3D | 129 | 194 | 66 | 3.6E-20 | – | |
| CDD | 130 | 191 | 62 | 1.906E-16 | ||
| TIGRFAM | 130 | 191 | 62 | 9.0E-10 | ||
| SUPERFAMILY | 130 | 197 | 68 | 4.45E-18 | ||
| Pfam | 131 | 191 | 61 | 1.9E-13 | ||
| ProSitePatterns | 133 | 162 | 30 | - | ||
| Phobius | 297 | 320 | 24 | - | – | |
| TMHMM | 300 | 322 | 23 | - | – | |
| CDD | 301 | 966 | 666 | 0.0 | – | |
| Phobius | 321 | 331 | 11 | - | – | |
| Phobius | 332 | 354 | 23 | - | – | |
| TMHMM | 335 | 357 | 23 | - | – | |
| Phobius | 355 | 365 | 11 | - | – | |
| TIGRFAM | 364 | 979 | 616 | 6.0E-191 | ||
| Phobius | 366 | 388 | 23 | - | – | |
| TMHMM | 372 | 394 | 23 | - | – | |
| SUPERFAMILY | 383 | 959 | 577 | 5.89E-13 | ||
| Phobius | 389 | 399 | 11 | - | – | |
| Phobius | 400 | 417 | 18 | - | – | |
| TIGRFAM | 403 | 671 | 269 | 2.1E-38 | ||
| Gene3D | 418 | 540 | 123 | 2.5E-41 | – | |
| Phobius | 418 | 548 | 131 | - | – | |
| Pfam | 431 | 629 | 199 | 1.6E-46 | – | |
| SUPERFAMILY | 450 | 536 | 87 | 2.62E-23 | ||
| PRINTS | 486 | 500 | 15 | 1.2E-27 | – | |
| Phobius | 549 | 575 | 27 | - | – | |
| TMHMM | 556 | 578 | 23 | - | – | |
| Phobius | 576 | 594 | 19 | - | – | |
| TMHMM | 593 | 615 | 23 | - | – | |
| Phobius | 595 | 615 | 21 | - | – | |
| Phobius | 616 | 929 | 314 | - | – | |
| Gene3D | 631 | 922 | 292 | 6.9E-91 | ||
| SFLD | 632 | 922 | 291 | 0.0 | – | |
| SFLD | 632 | 922 | 291 | 0.0 | – | |
| Pfam | 646 | 884 | 239 | 5.8E-42 | – | |
| SUPERFAMILY | 649 | 976 | 328 | 2.38E-60 | ||
| PRINTS | 650 | 664 | 15 | 1.2E-27 | – | |
| ProSitePatterns | 652 | 658 | 7 | - | ||
| Gene3D | 661 | 802 | 142 | 6.9E-91 | ||
| TIGRFAM | 749 | 949 | 201 | 1.1E-47 | ||
| PRINTS | 795 | 806 | 12 | 1.2E-27 | – | |
| PRINTS | 817 | 827 | 11 | 1.2E-27 | – | |
| PRINTS | 842 | 858 | 17 | 2.1E-9 | ||
| PRINTS | 870 | 889 | 20 | 1.2E-27 | – | |
| PRINTS | 870 | 886 | 17 | 2.1E-9 | ||
| PRINTS | 893 | 905 | 13 | 1.2E-27 | – | |
| PRINTS | 901 | 926 | 26 | 2.1E-9 | ||
| TMHMM | 930 | 952 | 23 | - | – | |
| Phobius | 930 | 953 | 24 | - | – | |
| Phobius | 954 | 958 | 5 | - | – | |
| TMHMM | 957 | 979 | 23 | - | – | |
| Phobius | 959 | 979 | 21 | - | – | |
| Phobius | 980 | 996 | 17 | - | – |
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 | Copper ion binding | Interacting selectively and non-covalently with copper (Cu) ions. | ||
| Biological process | Cation transport | The directed movement of cations, atoms or small molecules with a net positive charge, into, out of or within a cell, or between cells, by means of some agent such as a transporter or pore. | ||
| 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. | ||
| Molecular function | Cation-transporting ATPase activity | Enables the transfer of a solute or solutes from one side of a membrane to the other according to the reaction: ATP + H2O + cation(out) = ADP + phosphate + cation(in). | ||
| Biological process | Metal ion transport | The directed movement of metal ions, any metal ion with an electric charge, into, out of or within a cell, or between cells, by means of some agent such as a transporter or pore. | ||
| Molecular function | Metal ion binding | Interacting selectively and non-covalently with any metal ion. |
Expression pattern of LotjaGi4g1v0020900.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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