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Field | Value |
---|---|
Gene ID | LotjaGi1g1v0324100 |
Transcript ID | LotjaGi1g1v0324100.4 |
Related isoforms 3 | |
Lotus japonicus genome version | Gifu v1.2 |
Description | Disease resistance protein (TIR-NBS-LRR class); TAIR: AT5G17680.2 disease resistance protein (TIR-NBS-LRR class); Swiss-Prot: sp|Q9FI14|TAO1_ARATH Disease resistance protein TAO1; TrEMBL-Plants: tr|A0A151T389|A0A151T389_CAJCA TMV resistance protein N; Found in the gene: LotjaGi1g1v0324100 |
Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr1:77596016..77602341) extracted from Lotus japonicus Gifu genome v1.2.
GGGAATCTTGTGTAATGTGAAAAGTTTATAGTTGACTGGTCAGTATTAGATGGCACATGGAAGTTTTCAAATTATATAAT ACTATATGATCTATCAGAGTTTTATGGCATGATACAATTATATAATATATATACTAAAGCCAAGTGCAACAACTTACAGA TTACCAACCAGCTGAAGGAAAGAAATTTTGATTCCAATGTTGGGGAGTTCTTCATCTTCATCTTCTGCTGCTGCTATTGT TATGACTCCTCCAAAGTATGATGTGTTCTTGAGCTTTAGAGGAGAAGACACACGTGACAACTTCACTAGTCATCTTTATG ATGGTCTTTGTAGGAAAAGGATCCAAACATTTATAGATTACAGGCTAGACAAAGGCGATGCAATCTCACCTGAACTGTGC AAAGCTATGGAAGAATCAATGATTTACATCATCATTTTCTCCCAACACTACGCTTCTTCCTCGTGGTGTTTGGATGAACT CGACAAGATTCTGAAATGCAAGAAGAGATATGGAAGGAATGTGATACCGGTTTTCTACAAGGTGGATCCATCAAATGTTA GGCATCAGGAAGGGTGTTATAAAGATGCATTTGTTAAGCATGAAAAGCGATTTCGGGACGAAGTAATACAGACGTGGAAG GATGCTCTAACCGAAGCAGCTGCAATCTCTGGCTGGGATTCAAACACCACTAGGTAAAACCGCTTTTCATCTATAGTTAA ATCTTTTTGAACTTTAATTAGAATACAAACCCAAACATCAAAAACACCACTTATCAGTGACCATTCTAGATAAATATGGT ATTAACTTATTTCATTAATTATCATCTACAGAGTATGGTAATAATTAAGATGAACTTATATTTTTACAAATCAAAAGCAA CAAATTTATATGCTTTTGGTTCATATAATCAAAGCAAACGTAGAATGGCAGACTAATGCTTTTATTTTGTTCCTTTTATA TGTTCCAGACCAGAATCCATGCTTGTTGATGGTATTGTGGAAGATATTTTAAGAAAATTGGATCGTTCTTTTTCAAGTGA CGATCATAGAATGGTTGGAATTGACAAGCACATTGCACAAATCCAGTCCTTGTTGCAGCTTGAGCCAGAAGCTGTTCGGA TCATAGGAATTTGGGGCATGGGAGGAATAGGTAAAACTACACTGGCTCGGACACTACATCACAAACTGGCGACCCAATTC AGTTCCAGGAGTTGTGTTGTAAATGCTCAGCAAGAAATAGAAAAAGATGGAATTGACTGTCTACATAAAAAATATTTATC AGAACTTCTAGAGGAAGATATCTCGTCAAATGGATTGCATTTTGCTATTGAAAGGGTCAAACGGGCAAAGGTTCTCCTTA TTCTTGATGGGGTGAAAACTTCGAGTCAAATTCAAGAGTTAATTGGAGGGCATGGAAACTTCGGCCAGGGAAGTAGAATC ATTGTGACTAGCAGAGACATGCAGGTGCTTAGGAATGCTGAAGCTGATGATATACATGAAGTCAAGGAGATGAATCCCCA AGATTCTCTGCAGCTCTTCAGTTTATATGCCTTTAAACAAATCTGCCCCATGGAAGGTTATGCTGACTTAGTAGAAAAGG TATTGGAATATGCTAAAGGGGTTCCATTAGCTCTCAAAGTTTTAGGCTCACTGCTTTATGGTAGAACAAGGAAAGCATGG GAAAGTGAGCTGCAAAAGCTGGAAAAGCTTCCTGAGATTGAGATTTTCAATGTGTTGAAATTAAGCTATGATGGGCTGGA TGGTGAACAGAAGGACATATTTCTTGACATAGCTTGCTTATATGTAGGCGATTTTGTGAATGATGTAGTGGATATGCTAA ATGGTTGTGGTTTCTCTGCTGACATTGGAATGCATGTTCTGAAAGATAAGAGCCTTATATCTACTTTAAGAGATCGCATC GTGGTGCATGATCTAATAGTGGAAATGGGAAAACAAATTGTTCGTCAAGAATGTGTCAATCATCCTGGAAAACGCAGTCG TCTATGGGACCATGAAGAAATTTATGATGTTTTAAGAAACAACCAGGTATATTTACTTGATGACTCACAGTCTCATGGAT TAACTTCTCAGACACATCCTTTCATGTTTATTTATCTTTAGTTCCTTGTATTTACCTTCAGGGGACGGATGCAGTCCAAT GTATATTCCTCGCCATGTGGAGGATAAAAAAACTTGAAGTTCATCCAAAAAGTTTCAAAAGCATGCCTAATCTGAGAATG CTTTGTTTCCATAACTATTTTCCGGGAAGACGTCAAACAAATGTGATCCTTCCTGCATGTGTTGAAAGTCTTTCGAATAG TTTAAAACTTCTTGATTGGGATGAATTTCCTCAAAGATCTTTGCCGTTGGACTTTTGTCCAAAAAATCTTGTTGAACTTT TGATGCAATATAGCGATCTTGAACAACTTTGGGAGGATGATCAGGTCCTTCAAGCTTTACGTTGTGCTCCTTTCTATTTT AGTTATCATCAGTCTTTGATTTTCAATCTGATTAGTGTAGAATTGAATGCTATGAGTTAGTTTTTCATGTTTTGTATAAT AATATAGTACTCTTGTTCATTATGTTTACATAATTTTTTTGTCACCTAATCATTTACTTTTTACATCAGGAATTACCGAA TTTGAAAAGGCTCGATCTTCGTGCTTCTTTGAACTTGATTCGAATACCAGACCTTTCTAAGTTCCCAAATATTGAAGAAA TTATTCTTAGTGGTTGTGAAAGTTTGATTCAAGTTTACTCCTCGAGTTTCCTCTGCAAGCTCAAATTATTATATTTAAAT GGTTGTCTTGAGCTTACGAGTTTAGATCTTTCTAGTAATGCTCTATCAAGAACTTCTGGATTAGTGGGGCTCTACAATTG TTGTAAACTGGAAACGTTTTCAATCAATAGAACTGAGGTGGTTCAATCACGTGGTTGTTCCCAAATTTACGATGATGTGA AATTTCGCTGGACTTACCTAGAAGGCACCTCTGGCTATCAAGACATGAATGGAAGAGATCTGGGTGAAAAATCTTGTATA GAGATTGAAGATTTGAGAGAAAATTTGCCTTCACAGCTTTCCCAGGAGCTTTGTTGGTTAGATCTCGGTAAATGTAAGTT ATTTACAAGCCTTCCAATTGACCTTTGTAAGTTGAAATTGCTAAGAAGACTTTATCTAAGTGGCTGCTCTAATTTGAACA AAATCCCTGAAATCGAGGAGACACTAGAAAATTTAGCCGTGCTTGTCTTAGACGAAACAGCAATACAAGAACTACCTTCA TCCTTACACCGTTTGGTGGGGCTTGAAGAGCTGAGCTTGCGTAGTTGCCGAAGGCTTGAAATTATTCCCTCCTCGATTGG AAGACTCACCAAACTCTGTAAGTTAGACCTTGCCTATTGTGAATCACTTGAAACTTTTCCACGCAGCATTTACAAATTGA AGTTGACAAAACTTAATTTGTTTGGTTGCTCAAAGCTAAAGAACTTCCCAGAGATCTTGAATCCTGCAGAAAGTTTTGCT CACATTGACTTATCATGGACAGTAGTTAAAGAACTGCCTTCATCATTGGACTGTTTGGTGGGTCTTCAAACCTTGTGTCT GAACTGGTGCTGTGGTCTGGAGTCACTTCCAAACAGTATTGGTAATCTAAGCCTTCTCTCTGTGCTTGACTGTTCAGCCT GTCGTAAATTAACAGAAATCCCAAATGACATAGGCCGCTTGTCATCATTAAGGGAACTGTCATTGCGAGGTACCGGAATC GTGTACCTTCCAGAGAATTTGGCTCATCTTTTATGCTTGGAATCTCTTGATGTAAGTGACACCAGAATCGTGAGCCTTCC AGAGAGTATTGCTCATCTTACAAGTTTGAAATCACTTAATGTAAGTGAATGCAGACAGCTTGATTGTATCCCACAGCTTC CACCATTTCTGAATCAGTTATTGGCATTAAAGTGCCCATCGATTAGAAGAATGATCGGTGAGGATGCGTATAGGTTTGAG TTCTTTTGCTTTCCAGGGAGTGCAGTTCCTAATTGGTTCCCCTATCGTTGCGAGGGAAATTCAATTACTGTGGGTAAAGA TTCTCTAGATTGGTGCAATGATGATAGGCTCATTGGTTTTTCTATGTGTGTCGTTTTGCGGTTTGAAAAGAAAAACTATA CAAAAGATAGTATTCGTGATTTTAGATGCAGATTAACATTTGAGTCTGATGGCCAAATATACATCATTCCCAACAATAAT AAGTTAAACGACTATTTCAGTTTTTGTTGTTATAGAATGGGACATGTCGAGCACACATTCCTATGGAAACATTACTTAAT GGTCTCTGCAAGCATCGACAGAGGGACCTTTCATGCTGACAACTTCACTTTTGACTTCGAGGGCAAGAATCAGCAGAGTT TTAAATTATATCCTGAGGTGAAAGAGTGCGGTATATGCCCTCTTTATTCCAAAGAAAAAGATGACTTTGAAGAACGTTGT GAGAAGAGGCAGTGTCTAAGGTGAAACATGATGTCATAAGTTTTAGCTGTGAACCACAACCATATGCAGTTAAACCCAGA AATGTTTTTGCTTTGTCAACCTGGAACAACTAATGATAAGATGTTATTTGTTATTGATCTTGGTTTTGGGTATGCTGTAA TTCCAAACCAGGTGACTTTCCTTTTTACTTTGTGTTTTTATTTATGTATTAACTTTAATAGGTGTTTATTTTTATTGCAG GCATTTCAAATTCATTTGGATTTGATGGACACGCCACAACTCTGGTCTGTCCTGATTACCAAGCTTGTCTTGTCTGCATT TCAAGTTGAGCATCAGTCATTACAGAGCCAGCTCATATTTAATTCATTTTGAATTATGAAAGTGGAACGAATTTTAAAGT ATCAGAAGAAATACTCTTAAGCTTTCTTCCTTAAGATGTTTCTTATCAATTGGAGGCACCCACTTGATAAGTGGGAAAAT ATTGCCTCTTGTTATCCACTCACAACTTCTGTTCTTTGTTAGCAGTTTGTGAGGATGTATGCAAGGAAGAAAATCCACAA GGATAAGGATGCTGAGGCTACTGAGTTTGAAGAGTCAGTTGGGCAGGTGTTGTTTTGAATGTTGCTGTGGATGCAGTTGC TGATACAGACATTGTTTCATTTGGAGTATACCTATCAGGAGCTTAAAAGAGATTTCAAGATCTATGCATAAATTCAGCAG TGTAAGGATGAGTATTACATGCTTCTGTGTGCGTAGGAAGGATCATGAGTTTTCTCTCTATTTTGACTTGTGTTTTTTAC TGATCTGCAGATAAATTGACGTTTCCGGGAACTGCAAAGCTGTTGTTATCCATGTTCCTTACAGATTGAGGAAAGCTTTC CGGAAGATCCATGTTAGGCTTGTGAGGATGCTTGAGAAGAAGTTTAGTGGAAAGGTAAGTTCATTCTAATTTATTTCTAT CATGTACATCCGAAGGTAATTTTTCTTTCATTGACATTGTTTTTTCTTAGTTTGAATACATTTGATGATATTTGTGTTCC TGCCCCTTGCATTGGCCATTTTGATGTAGTTATTTCCCGAGAGGATGTATTCTATAATTTAAGCAATCTTTTATCTTGCT TGTGTGGTTGAATTTCTGTTACATTCACTGGAAAGTACTTTTTTCTGCAATCCTTTGTGAGGCATGACTTATGTTATAAC TTTTAAGTGATTTTAACCATTGCTAATGGAAATTAAACACACTATAGACCATGAGGAAGTGTTTTGGTATGACCTCCTGG TAGTAGAGTTATATCCACAAATCACAATAAATGATTGCATGAAATTGAGTTTAGAGTGTAATTTATTTATTGCATTGCAT GTTGGCATGATAATATCTGTTATTCTTCTGTCTTGAGAAATTTCAGTGTGACTTATCCCTATTAGCTTGTACGAAGTATT AAGCCCTCATTAAGAATTCTTGTTGAGTAATCTCATCTTTATTAATCTTTACTTTTGAGTAGCTTCATTTCATTACTGTG CAGTTTAAATCATATTTAACTTCTAGGATGTAATTTTCATTGCCACCGGGAGGATATTGAGGCCACCAAAGAAGGGTTCT ACTGTTCATGAAGCAATGCTGGAGGATGTATTATTGCCTGCGGAGATTGTTGGGAAGCGGAGGAGGTATCGAGTTGATGG ATCCAAGATTGTTCTGTACTAGGGCAAGCTTACGTAGGAGAAAGACAAAAAGTAAACCCTAGCAGAGCACTAAAATAGCA AAACTACCATAAAAGGAATATTCTCATTAATGCTGAAAAATTGGTTTCGTACAAGTGGATGACCTCCCCTTTTATAGAGG GGGTGG
CDS sequence (LotjaGi1g1v0324100.4) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGTTGGGGAGTTCTTCATCTTCATCTTCTGCTGCTGCTATTGTTATGACTCCTCCAAAGTATGATGTGTTCTTGAGCTT TAGAGGAGAAGACACACGTGACAACTTCACTAGTCATCTTTATGATGGTCTTTGTAGGAAAAGGATCCAAACATTTATAG ATTACAGGCTAGACAAAGGCGATGCAATCTCACCTGAACTGTGCAAAGCTATGGAAGAATCAATGATTTACATCATCATT TTCTCCCAACACTACGCTTCTTCCTCGTGGTGTTTGGATGAACTCGACAAGATTCTGAAATGCAAGAAGAGATATGGAAG GAATGTGATACCGGTTTTCTACAAGGTGGATCCATCAAATGTTAGGCATCAGGAAGGGTGTTATAAAGATGCATTTGTTA AGCATGAAAAGCGATTTCGGGACGAAGTAATACAGACGTGGAAGGATGCTCTAACCGAAGCAGCTGCAATCTCTGGCTGG GATTCAAACACCACTAGACCAGAATCCATGCTTGTTGATGGTATTGTGGAAGATATTTTAAGAAAATTGGATCGTTCTTT TTCAAGTGACGATCATAGAATGGTTGGAATTGACAAGCACATTGCACAAATCCAGTCCTTGTTGCAGCTTGAGCCAGAAG CTGTTCGGATCATAGGAATTTGGGGCATGGGAGGAATAGGTAAAACTACACTGGCTCGGACACTACATCACAAACTGGCG ACCCAATTCAGTTCCAGGAGTTGTGTTGTAAATGCTCAGCAAGAAATAGAAAAAGATGGAATTGACTGTCTACATAAAAA ATATTTATCAGAACTTCTAGAGGAAGATATCTCGTCAAATGGATTGCATTTTGCTATTGAAAGGGTCAAACGGGCAAAGG TTCTCCTTATTCTTGATGGGGTGAAAACTTCGAGTCAAATTCAAGAGTTAATTGGAGGGCATGGAAACTTCGGCCAGGGA AGTAGAATCATTGTGACTAGCAGAGACATGCAGGTGCTTAGGAATGCTGAAGCTGATGATATACATGAAGTCAAGGAGAT GAATCCCCAAGATTCTCTGCAGCTCTTCAGTTTATATGCCTTTAAACAAATCTGCCCCATGGAAGGTTATGCTGACTTAG TAGAAAAGGTATTGGAATATGCTAAAGGGGTTCCATTAGCTCTCAAAGTTTTAGGCTCACTGCTTTATGGTAGAACAAGG AAAGCATGGGAAAGTGAGCTGCAAAAGCTGGAAAAGCTTCCTGAGATTGAGATTTTCAATGTGTTGAAATTAAGCTATGA TGGGCTGGATGGTGAACAGAAGGACATATTTCTTGACATAGCTTGCTTATATGTAGGCGATTTTGTGAATGATGTAGTGG ATATGCTAAATGGTTGTGGTTTCTCTGCTGACATTGGAATGCATGTTCTGAAAGATAAGAGCCTTATATCTACTTTAAGA GATCGCATCGTGGTGCATGATCTAATAGTGGAAATGGGAAAACAAATTGTTCGTCAAGAATGTGTCAATCATCCTGGAAA ACGCAGTCGTCTATGGGACCATGAAGAAATTTATGATGTTTTAAGAAACAACCAGGAATTACCGAATTTGAAAAGGCTCG ATCTTCGTGCTTCTTTGAACTTGATTCGAATACCAGACCTTTCTAAGTTCCCAAATATTGAAGAAATTATTCTTAGTGGT TGTGAAAGTTTGATTCAAGTTTACTCCTCGAGTTTCCTCTGCAAGCTCAAATTATTATATTTAAATGGTTGTCTTGAGCT TACGAGTTTAGATCTTTCTAGTAATGCTCTATCAAGAACTTCTGGATTAGTGGGGCTCTACAATTGTTGTAAACTGGAAA CGTTTTCAATCAATAGAACTGAGGTGGTTCAATCACGTGGTTGTTCCCAAATTTACGATGATGTGAAATTTCGCTGGACT TACCTAGAAGGCACCTCTGGCTATCAAGACATGAATGGAAGAGATCTGGGTGAAAAATCTTGTATAGAGATTGAAGATTT GAGAGAAAATTTGCCTTCACAGCTTTCCCAGGAGCTTTGTTGGTTAGATCTCGGTAAATGTAAGTTATTTACAAGCCTTC CAATTGACCTTTGTAAGTTGAAATTGCTAAGAAGACTTTATCTAAGTGGCTGCTCTAATTTGAACAAAATCCCTGAAATC GAGGAGACACTAGAAAATTTAGCCGTGCTTGTCTTAGACGAAACAGCAATACAAGAACTACCTTCATCCTTACACCGTTT GGTGGGGCTTGAAGAGCTGAGCTTGCGTAGTTGCCGAAGGCTTGAAATTATTCCCTCCTCGATTGGAAGACTCACCAAAC TCTGTAAGTTAGACCTTGCCTATTGTGAATCACTTGAAACTTTTCCACGCAGCATTTACAAATTGAAGTTGACAAAACTT AATTTGTTTGGTTGCTCAAAGCTAAAGAACTTCCCAGAGATCTTGAATCCTGCAGAAAGTTTTGCTCACATTGACTTATC ATGGACAGTAGTTAAAGAACTGCCTTCATCATTGGACTGTTTGGTGGGTCTTCAAACCTTGTGTCTGAACTGGTGCTGTG GTCTGGAGTCACTTCCAAACAGTATTGGTAATCTAAGCCTTCTCTCTGTGCTTGACTGTTCAGCCTGTCGTAAATTAACA GAAATCCCAAATGACATAGGCCGCTTGTCATCATTAAGGGAACTGTCATTGCGAGGTACCGGAATCGTGTACCTTCCAGA GAATTTGGCTCATCTTTTATGCTTGGAATCTCTTGATGTAAGTGACACCAGAATCGTGAGCCTTCCAGAGAGTATTGCTC ATCTTACAAGTTTGAAATCACTTAATGTAAGTGAATGCAGACAGCTTGATTGTATCCCACAGCTTCCACCATTTCTGAAT CAGTTATTGGCATTAAAGTGCCCATCGATTAGAAGAATGATCGGTGAGGATGCGTATAGGTTTGAGTTCTTTTGCTTTCC AGGGAGTGCAGTTCCTAATTGGTTCCCCTATCGTTGCGAGGGAAATTCAATTACTGTGGGTAAAGATTCTCTAGATTGGT GCAATGATGATAGGCTCATTGGTTTTTCTATGTGTGTCGTTTTGCGGTTTGAAAAGAAAAACTATACAAAAGATAGTATT CGTGATTTTAGATGCAGATTAACATTTGAGTCTGATGGCCAAATATACATCATTCCCAACAATAATAAGTTAAACGACTA TTTCAGTTTTTGTTGTTATAGAATGGGACATGTCGAGCACACATTCCTATGGAAACATTACTTAATGGTCTCTGCAAGCA TCGACAGAGGGACCTTTCATGCTGACAACTTCACTTTTGACTTCGAGGGCAAGAATCAGCAGAGTTTTAAATTATATCCT GAGGTGAAAGAGTGCGGTATATGCCCTCTTTATTCCAAAGAAAAAGATGACTTTGAAGAACGTTGTGAGAAGAGGCAGTG TCTAAGGTGA
Protein sequence (LotjaGi1g1v0324100.4) extracted from Lotus japonicus Gifu v1.2 Proteins.
MLGSSSSSSSAAAIVMTPPKYDVFLSFRGEDTRDNFTSHLYDGLCRKRIQTFIDYRLDKGDAISPELCKAMEESMIYIII FSQHYASSSWCLDELDKILKCKKRYGRNVIPVFYKVDPSNVRHQEGCYKDAFVKHEKRFRDEVIQTWKDALTEAAAISGW DSNTTRPESMLVDGIVEDILRKLDRSFSSDDHRMVGIDKHIAQIQSLLQLEPEAVRIIGIWGMGGIGKTTLARTLHHKLA TQFSSRSCVVNAQQEIEKDGIDCLHKKYLSELLEEDISSNGLHFAIERVKRAKVLLILDGVKTSSQIQELIGGHGNFGQG SRIIVTSRDMQVLRNAEADDIHEVKEMNPQDSLQLFSLYAFKQICPMEGYADLVEKVLEYAKGVPLALKVLGSLLYGRTR KAWESELQKLEKLPEIEIFNVLKLSYDGLDGEQKDIFLDIACLYVGDFVNDVVDMLNGCGFSADIGMHVLKDKSLISTLR DRIVVHDLIVEMGKQIVRQECVNHPGKRSRLWDHEEIYDVLRNNQELPNLKRLDLRASLNLIRIPDLSKFPNIEEIILSG CESLIQVYSSSFLCKLKLLYLNGCLELTSLDLSSNALSRTSGLVGLYNCCKLETFSINRTEVVQSRGCSQIYDDVKFRWT YLEGTSGYQDMNGRDLGEKSCIEIEDLRENLPSQLSQELCWLDLGKCKLFTSLPIDLCKLKLLRRLYLSGCSNLNKIPEI EETLENLAVLVLDETAIQELPSSLHRLVGLEELSLRSCRRLEIIPSSIGRLTKLCKLDLAYCESLETFPRSIYKLKLTKL NLFGCSKLKNFPEILNPAESFAHIDLSWTVVKELPSSLDCLVGLQTLCLNWCCGLESLPNSIGNLSLLSVLDCSACRKLT EIPNDIGRLSSLRELSLRGTGIVYLPENLAHLLCLESLDVSDTRIVSLPESIAHLTSLKSLNVSECRQLDCIPQLPPFLN QLLALKCPSIRRMIGEDAYRFEFFCFPGSAVPNWFPYRCEGNSITVGKDSLDWCNDDRLIGFSMCVVLRFEKKNYTKDSI RDFRCRLTFESDGQIYIIPNNNKLNDYFSFCCYRMGHVEHTFLWKHYLMVSASIDRGTFHADNFTFDFEGKNQQSFKLYP EVKECGICPLYSKEKDDFEERCEKRQCLR
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 | 12 | 524 | 513 | 5.2E-208 | – | |
PANTHER | 12 | 524 | 513 | 5.2E-208 | – | |
SUPERFAMILY | 17 | 160 | 144 | 4.97E-40 | ||
ProSiteProfiles | 19 | 157 | 139 | 27.382 | ||
Gene3D | 19 | 185 | 167 | 4.1E-70 | ||
Pfam | 20 | 191 | 172 | 2.6E-49 | ||
SMART | 20 | 157 | 138 | 1.5E-47 | ||
Gene3D | 186 | 343 | 158 | 1.7E-28 | – | |
SUPERFAMILY | 187 | 440 | 254 | 3.0E-58 | ||
Pfam | 199 | 412 | 214 | 1.8E-26 | ||
SMART | 214 | 348 | 135 | 0.0024 | ||
PRINTS | 217 | 232 | 16 | 2.4E-22 | – | |
PRINTS | 288 | 302 | 15 | 2.4E-22 | – | |
Gene3D | 347 | 430 | 84 | 4.9E-5 | – | |
PRINTS | 381 | 395 | 15 | 2.4E-22 | – | |
SUPERFAMILY | 417 | 521 | 105 | 2.99E-12 | ||
SUPERFAMILY | 485 | 619 | 135 | 4.08E-11 | – | |
Gene3D | 510 | 637 | 128 | 1.1E-9 | ||
PANTHER | 524 | 753 | 230 | 5.2E-208 | – | |
PANTHER | 524 | 753 | 230 | 5.2E-208 | – | |
ProSiteProfiles | 529 | 551 | 23 | 5.471 | ||
ProSiteProfiles | 586 | 607 | 22 | 7.519 | ||
Gene3D | 652 | 813 | 162 | 2.4E-22 | ||
SUPERFAMILY | 671 | 966 | 296 | 7.14E-43 | – | |
ProSiteProfiles | 678 | 701 | 24 | 4.724 | ||
ProSiteProfiles | 702 | 724 | 23 | 5.255 | ||
ProSiteProfiles | 726 | 747 | 22 | 4.924 | ||
PANTHER | 750 | 1141 | 392 | 5.2E-208 | – | |
PANTHER | 750 | 1141 | 392 | 5.2E-208 | – | |
Gene3D | 814 | 977 | 164 | 6.5E-32 | ||
ProSiteProfiles | 891 | 913 | 23 | 5.386 | ||
ProSiteProfiles | 914 | 935 | 22 | 5.925 | ||
PRINTS | 933 | 949 | 17 | 2.4E-22 | – | |
ProSiteProfiles | 937 | 959 | 23 | 4.901 | ||
Coils | 1148 | 1149 | 2 | - | – |
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 | 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 | Signal transduction | The cellular process in which a signal is conveyed to trigger a change in the activity or state of a cell. Signal transduction begins with reception of a signal (e.g. a ligand binding to a receptor or receptor activation by a stimulus such as light), or for signal transduction in the absence of ligand, signal-withdrawal or the activity of a constitutively active receptor. Signal transduction ends with regulation of a downstream cellular process, e.g. regulation of transcription or regulation of a metabolic process. Signal transduction covers signaling from receptors located on the surface of the cell and signaling via molecules located within the cell. For signaling between cells, signal transduction is restricted to events at and within the receiving cell. | ||
Molecular function | ADP binding | Interacting selectively and non-covalently with ADP, adenosine 5'-diphosphate. |
Expression pattern of LotjaGi1g1v0324100.4, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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