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| Field | Value |
|---|---|
| Gene ID | LotjaGi5g1v0295200 |
| Transcript ID | LotjaGi5g1v0295200.1 |
| Related isoforms 2 | |
| Lotus japonicus genome version | Gifu v1.2 |
| Description | Disease resistance protein (TIR-NBS-LRR class), putative; TAIR: AT5G36930.1 Disease resistance protein (TIR-NBS-LRR class) family; Swiss-Prot: sp|Q40392|TMVRN_NICGU TMV resistance protein N; TrEMBL-Plants: tr|A0A072UMY5|A0A072UMY5_MEDTR Disease resistance protein (TIR-NBS-LRR class), putative; Found in the gene: LotjaGi5g1v0295200 |
| Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr5:61251241..61261363) extracted from Lotus japonicus Gifu genome v1.2.
GGATATTATTGTAATCTTGTTTTTTTATTTTTTTAATCAACAGGTCACCATAGGCATAAAGTCCTACCCTTCTATCTTCT TTAGAAAAAGCAGCTTTCTTTTTCGAAACAATGTTTCATGTCTTCCACTGAATCGTCAATTATTATTCTAAAAGCATCAT TGTGTATGCATTTCCTTTTCAACTTTACTTCCTTCTGTTGTTCTATTTCTCACATACCCACCATTATATTTCTTCACTTC TCAACACTGTCATTGCAGCATCTTCAACAAGCTTCGATTTCGCCATGGATAACCACCACAAGGGAACTCAAACCAGCTCT TCTTCTTCTCCCATGAACTGGAAATATGACGTGTTTGTGAGCTTTCGTGGTGTGGATACACGAAACAACTTCACCGATCA TCTTTTTGGTGCTCTCGAACGAAGAAGCTTTGTTACATTCAGGGATGACATCAAACTCAGAAAAGGAGAAAATATATCCA CTGAGCTTCTACAAGCAATTGAAGGATCCAATATTCTCATTGTGGTCTTCTCAAAAAACTATGCTTCCTCCACTTGGTGT TTGCAAGAACTGGCAAAGATTGCGGATTGCATTGATGTGCCTGGCCAAACTGTCTTGCCTGTTTTCTATGATGTGACTCC ATCTGAGGTGCGAAAACAAACTGGGAATTACAGAAAAGCCTTTCTGAAGCATGAACAAAGATTCAAACAACATTTGCAGA TGGTTCAATCATGGAGGGAAGATCTTGCACGTGTAGCAAATCTCTCTGGCTGGGATATCAGCAATAGGTAAGTATTCACT GAGATTTATATATCCTATATATATATATATGTGTTTACAGAAGCATTCTGCTTTATGTGTAATTATATATATATATATAT ATATACACGTATAACTTACTCCAACTTGATTTTGTGAAGGAGTAAGTTAGCACTTAACACCTTTTCATTTGGACTAAAAA TTCCAATTTTCTTTCTTCTTCAAGACAATAAAGTGGGGCTACCAATGTAATTTTGCTTACCAAACTTATTTAATTTTAAA TCTCAAATTTTCTCTCTCCTCATTTATCACTTTCTTCAATCTTTCTTTGTCTTCAATCGGTGCCCATTTCTTTGCAACTG CAACTGATTGCCCCTTCTCAAATTTCTACCTCCAAAAACCAAACCCATTTTTATTTATTGGCAAAAGAAAAAGGCTCCTT CCTCTGCTGATTATTGTTTCTACAATTCGTTGATTTTGGAACTTGACATCGTTGGTTCCATGAGGAAAATTTAATCGAAG GCCAGGGGGGATTTCATCTGCCATTGCCCTCTGATTTGAAAATTTTGGGTTTTAGGAGCCCCTTTGTTTCTCAATCTAAG AAAACCACAGTAACAGATCTTGGCAAGGAAGGAAATAGAAAGATTGAATCTTTGGTAAATTTAAGTGATGGAGGTTAAAA TCTTAAAATTGTGAAGGAAAGGAAGTGGCTGAACGTGAAAAGAAACAGAAAATTTAAGAAGAGAGATGGGTAGCTGGAGA GAGAAAATGGGTGGGAAGACAAAATTACCAAAACACCTAAATTTTGAATGTTTTTGAAGATTAAAAATGGGGATATTTTT GTCTAAAAGAAAAGGTGTTGGTTGCTAACTTACTCCTTCACAAAATCAAGTGGGAGTAAGTTAGCATTTCCCTATATATA TATATATATAATATATATATATATATATGTATATATGTGTGTGTGTGTGTTTCCCATGTTTTCTTAATGATGCTTTCTAA TTGGAAAAAACTGTTTGCTAAGAGTGGCTTTCAAGTTTTGAGTTGGTGTTTTTGTCCTTAATCTTTTAGGCCACAGTATG GAGAGATTGGAAAAATTGTTAATGAGGTAACACGACTATTGGAACACAAACTTTCAACTCCACCAAGTGATATAGTTGGG ATGCAGTCACGGGTGGAAGAGTTAGAAAAGCTTCTCCTTTTAGACTCACAGGATGATGTTCGAGTTGTAGGGATTTGTGG CATGGGAGGAATAGGGAAGTCAACACTTGCTACTAGTTTATATTGCAAAATCTCTGACAAATTTGATGCATCATGTTTCA TTGATGACATTAGTAAGCTTTTTGGAGACTTTGGTCCAATTGAGGCGCAAAAGCAAATTCTTAGTCAAACTTTAAACGAG GGAACTCTTCAGTTGTACAATCCTGTCATGACGACTAATTTGATGCGAACTAGGTTGCGCCACAAAAATGTCCTCATAGT ACTTGATAATGTTGATGATGTGAAGCAGCTGGACAAATTGGCTATAAAACGTGAATGGCTAGGTGCAGGAAGTAGGATCA TCATAATTTCTAGGGATGAGCATATCTTGATAGAGTATGATGTGGATAAAGTTTACAAAGTTGAACTATTGGATTCTGAA GATGCTCATCAATTGTTCTGTAGAAAGGCTTTTAAATGTAACTATATAATGAGAGACTACATGGAATTGATAGGTGAAGT ACTAACAATGCTAACGGCTTCCCATTAGCAATTAAAGTATTAGGCTCATTTTTGTTCGGGCGAGATGTTTCTGAATGGAG AAGTGCATTGGTTAGACTGAGAGAAAATCCAGAAAAAGATATTATGGATGTGCTTCGAATTAGTTATGATGCATTAAGGG ATACAGAAAAGGAAATATTTTTAGATATTTCTTGTTTCTATCATGGAAAACCAAGTTTTAAGATGGAGCATCTTCTAGAT ATTCGTGGATTTTATCCAAAAATTGGTTTAAAAGTTCTGGTTGAAAAATCACTAATCATAATAGACAAATATAAGGTTAT TAAAATGCATGACTTGTTGCAAGAGCTGGGAAGAAGTATTGTTCGAGAAGTATCACCAAAAGAACCAAGAAAGTGGAGCC GGCTATGGGACTATGATGATCTACACAATGTCACCTTACAAAATATGGTAGAATGGATTTTCAACGAAATCATAGATAGA TATTTTTCTAAAATCTATAACTTACAATGTTAAAAAATTTGTTCTTCTTCGCAATGTTTTAGGCAGCCGAAAATCTTGAA GCCATAATTATAAGAAGACGAAAACCAGAGTTTCCAGAAACCACGATGAAGGCTGATGCTTTGTCAAAAATGAATCACCT TAAGTTGCTCATTCTTAAAGGTGTGAACTTTTCAGGAAGTCTCAATCATCTTTCCAGCGAATTGCAATATCTTTCTTGGA AAAAGTATCCTTTCCAATGTTTGCCACCAAGTTTTCGACCAGATAAACTTGTTGAATTGATCCTGCATAGTAGCATCCAA CAACTATGGGAAGGCTCAAAGGTACTGTTAATTATTGCTTGTTTCTCTTCTTTCCTTTAATGATTAAATAAATAGAAAAA GAAGCTATGTTATTTTTCCTTCTCTTTAAGTTGTTAAGAAACAAAAATGTCATTTTAATTTTGTTTCATCCTGTTGCCAT TCTCTGCAGCCTCTACACAATTTGAGAGGAATGGATCTTTCTAACTCGAAGAATCTTATTAAGATGCCAGAACTTAGGGA TGCCCCAAATCTTGAGCGGCTAGATCTTGGAGGATGTATAAACCTCTTTCAGACCAATCAGATGTTAGAGAAACCAAAGG ATGCAGAACACTTAGAGAGATTTGAAATGAATGAAAGTACCATCCAACAGCAGGCAACATCATCTCTCTACAAAGTTCTG ACATTGCCTTTTGAATTTATGTATTCTCGAAGACGTGAAGATTCGATTGGTTTATTGTTGCCTGATTTGCCTCATTTCTC ATGTTTGCAACATCTTGACCTCAGCTTTTGTAATCTACGTCAGGTCCCTGATGCTATTGGGTGGTTACATTCTTTAGAAG ACTTAGATTTGGGGGGAAACAATTTTATTTCACTGCCTCCTAGCATCAAAGAACTTTCCAAACTTAGAGTTTTGAACTTA GAGCACTGTAAGCAGTTGAGATATTTTCCTGAGCTCCCATCAAGAACCCAAGGATGGGTTGTTCGTAGACCTCACGCAGG ATTGTATATTTTCAATTGTCCAAAATTGCGTGTGATAGAGCACTGTTATAACGTGGTTTTTTCTTGGATGATCCAAATCC TTAAGGTTCCTACTCTCTATTTCTCTCTTACTTTCACGTGCAAGTAATTAAATGACAGTCTAATACAACTTATTTTTCTG GTACCAGGTGCACATGCGATCCCCTTTCTGCAAGGGTCGTATTCAAGTTGTTATTCCTGGAGCTCAAATTCCAAGGTGGT TCAACAAACAAAATGTGGGCTATTCAATAAGCTTGGATCCATCTCCCTCTATTTGTAACCAAAATTGGATAGGTGTTGCT TGCTGTATAGAATTTGTGACGGGTGGCCCAATGAAATTCAATGATGAAAGGCTATTATATTTTAATGGAACAAATGATTT TGATGGTGTGGAATTAAGCACCCACATTCATTGTTCCCAAGGTGAGGTGAGAAAATGCGGGTATCGCTGGGTATTTAAGG AAGATCTGGAACAGTTAAACCTACAAATGATGTATAGTGGAAATACATCAACTCGAAGGCACAAGTTCATAACTGATGAT TAGTTGTGCTATGTCATTAAGATGATTAACGAAAAGTGCAACTATTTCATTCGGTCACACTTCTTCAGAGAAATTAAAAT CCATTTGGGGTAAGAGCTCAGTACTATATATTCATGTTATACATTTAGAATCATTTCTAGGCACTCTAAATTGTATGTGA AAGGCTGATGATACAGTGATTTCTTTTCTCTTTTCTCTTTCCAGGCTAGAGTCAATTTCAACCGGGATTATTGTGCAAGT TATGATTAGCATGTGGGGATGGCATGTCTTGAATGACTGTAACTAATTGTCAAATTTCAAAGGGGTAAAGGTACAAAATC AACTTGGATATAACTATCTTAGAGTAGATATTGCTATTAATATATCCATTGTAAATGGAGCTTTCACTTTGAGGTGGGAA GTCTTTGTAACATATTACTTCCCAATTCCCACCACCACTAATTTCAATGTATTACCATTTTGAATTTTGTTTCCTTTAAT AAATATTTATGAAATTGATATTTGATAGAAAATGTGTCCAGTACTCCAGTTGTATTCAAGAATGGTTAAACACTGCAGAA TTACAACATAATCTGTTGCTCAGTATCATTGTTATCTTAGACATGGACCACTATGGGCTGCTATAGTTTCATTCTCACAA ACATTATTGACAATTGGATAAGAATAAGGTGCCTTCCTATTTTGATATTGTCATTGGACTTGGTCATGCTCCCAAATCTA TTGCTCAGTAAACTGTAAAAGTGGTTCAGATCAGAATGCAAGAGAGCCTTTCAATGGTGCTGTAATTCAAACCAAACACC AGGTGGATGGATATCCAAGGTTCTGGGAGAAAAGAATAACTACATACACAAGAATCGCCATTACCCGTGTTAGCTTTCAG CAATCCTTTGTTGCAATTTCGATTGAATACAGGCACAATTGTAGCAAGTAACTATGGGACGTGCTTGTAGTGTCTTTCAT TCCAGAAACTGTGGGCAATTAACGCCTGTAGTTGCTTTCCTCTGCACCAACTCAAACATCACAATTCAAGAATCAACAGA TTAACAGAACAATGTAGTTTCACTTCTTGAACATTGCTCACAAACTTATATATTGCAGATGATGAGATGAAAAATTTATG TCTCGTTGAAATTGAAAAGTTACTATAAACAAATGGAGGCCTTTAAAGGATTATCCATAATTGCCATGTCCAGCATATTC TGAAGTATTGCAATTTGAAAATAGATTTATTGTTAATTGGCTAAAACATGATTAAGGAGCCATGAAAAAAAAAAATAGTG TTGCTTAAATTGCGTAACCAACCCTGAATAGAATTGTGTGTATGAAAGGTTCATGAATTATGTCTTATCAGATTTATGAG GCTTTTACTTCCTATATGGTGGAATGTGTAAGACTTTTGTTTGAAACACTCTACCCGTAGCACTTAAATCAAGTGGACTA ATTGTTCCTAATGTTGAGTCAAGAGAGATAACGTCATTCCTCTTACTTGAAGACCAAATAGATTCATGCAAAAAAACCTT ATCATATGAGATGATGCACCGGTGTTTAAAACCCAGTCACATTGATTCAATAAAGTCTTAAGGATGATTCAAACTTATTT AATACCATGTCAAATGGTTATATATTAGAGTCTCATCACAGACATTTCATGGATTTGTAAATCGAAAGGCTTTTATAGCC AACTTAAAAAGAATGATCAAAGGTAAACATAAAATTAATATACAGGGCCCAAAAACGTCTTCTGTATCATACAAGAACAG AATCATCATAGATTTGATTCAATACAAAAGGTGTCCCCTAGGTTTATCCTATAGACCTATATGCTTAGGGTATGCCCATA ACCTAGAAACTGGCCCTTCTTCTTCTGAATCACTGTCACTGTCTGAGGAAGATGTTATGGATAGAGAATCATTTAGAATA TATTCAACAACCTGAAAATAGAATACCCATACAATGATTATCGGCTATTTAGTTCAGATACTGTCAATAAATGATGCCAA GGAGGCATTCAACAATGCAATCTAGTGTGAACAAAAGTAGGCACACATCTTTAAATAACTGGAAATGTACAAATTTGAGG GAGAAGAAAACTAGGTTCCTAAAAAGCTCTAATACTCATCAAAATCATTACTAGGGTATAATTTTTGCAAAACTAGGTTA ATTACTTTGCAATATATCTTGTTCCCGAGCGAATGCAGACATTAATTCATATTGTTTTATCTAAGTAGAATTCAGACTGC AAGCACACATAATTATATAAAAATGACTTGATTTTATTTCAGACTTCTTCCTATGATTAATATACAAGTTTGGTCTCCCA ATAATTTTTTGTGCAGTTTTAATCCTTAACTTTTTTAATTACTACGATTAAATCCCCATGACAGTTTCCCTCTATTTAAA ATCCTCAAATCTCTATATCTATTAATCATATATTATTTCTGAAGCACAAGCTTCTCCATTTGCACCGGCCAAAGGTTCGA TCCTTGGACTAGATGTTTAAGGAGCCCAATTATCTACCAGTTGTTCTCCACTTTGTTGATTTTTCACTATCATAATTGAT AAATGGTCTTTATATAGTCTTTATTATTATTATGTGGTACTTCCCTTCTTCTTTTGAATTATACCCAGTGTAGTCAGAAG CGCGCTTTGAAGCGCTAAAGAGTGCTAAAGCGCGCTTGAGGCGGCTCTGGGCTTCAAAGCGTGACTAAGGCGGAATCGCT GAAGCGTGCAGAAGCGTGATTTTGAAGCTTCTGCCGCTTCAGCAAAGTTCGTCCTTTTCCGGGTTTATTTGGACCCGTTT GATCCGTTTTGCTAAAATTAGGGGTTTTTAACCTAATTTTCAATCAATTCTTCTTCTATCTTGAGCCTCTCTCTCTCTCG CCGGAAGCTTCTGCCTCTCTCTCTCGCGACTTTGCCTCTCTTTCGCCGTCGGCGCAGCCGCCGCTGCCGGCGACTCTGTC TCTCACAATTTGCAGGTTTGTTCGATCTTCTTCTTCTTCTTCTATTTCTTCCTTCCCTCTTCGACTCTGTCTCTCTCTGT TCTGTTGTTCGAGTTATCATCAATGGGTTTTGTTCTTCTTCTATTTCTTCCTCTTCGACTCTGTCTCTCTCTGTTCTGTT GTTCGAATGAGTTACTAAGAGCAATGGGCTTTGTCACTGTTCGAATGGGTTACTAAGAGCACCTCTCTCTGTTCTCTCTT TGTGAAACGGGTTTTGTTAATTTCCTTTCCTCTATTAGTTACTATCACTGTGCTTATTTTATGACTTATGTATGAATTTT CAATTATGAGTTAGGGTACTTTATATTTTATGTATGATATTCTTAAGAGTTTTTGTCAATTATACCATTTATATGCATAT AAATATTAATAAGTGTAAATATATATATGTAACTGGCAAAAGCGGCTAAAGCCTACGCTTTAGCTAGCGCTTTACGCTTT TGGACCCTCCACGCTTTATTGCTAAATCCCGCTTCTGACTACCTTGATTATACCCAATTTCAATTTTTAGTGTCTATTTT TTTTTATAGGCAAATGTTATTTGTTAATAGTTAGTAAACTAGTTCATTCGCCTAGGTTTGAACTCAGGCCTTTCACCCTG CAAATCCCTTCATTTCCCTTAGCTCACCAAATGAGCTACCCTTCACCAAATTAGTAAATTAGCGTCTATTCTTTCACTAT GTTAATGTTTCAAGTGACTTGTCAACCAACCCTCTTCTGATCCTTTCTACATCTTTATTCTTGCTATAACTCCATCATAA CTACAATTTAATTTCGTATACTTTTATCCATAAAAATATTCGTAAGTTTAATACTAAATCGATTAAATTCTTTTAAATTC TCATTTGCTTAAAATTCACCGACTTATTTCACCTGGAAAAAAAATCCAACACTTCTCCCTTTTCAAACTCTAAACTCACT TCCTAATTCTTATATAAAATTTCAAATTTCATCATCAGGTTCTTTTAGCCTTTAAAATTGTTTATATAATATCCCAAATC TATCATAAATTCCCAAATACTTGAGTGGAAAATGAGGATTGGTATACAAAAATTGACAAACACTTAAATGCAGCAATTAA AAAATTTGAAAGATTAAATTCTAGCAGAAAGTTTTACCAAACTAAAATCACACATTATCCATAGTAGAGGATATACCTGT AATGTTGTCAGCTGCTTGACATTTTGATTTCTAGACATCCTCCCGCACCATACATTGGGGCATTTTGAGTTATTTAGCCA AACTACAGTTTCACAGTGTTCACAGTATCCACGGTTGGTTGATAATTTCTTAGATAATGATCCTGTATCAAGTGAAGAGT TTACAAGTCTCATTACAATACTTTTATCCTTTTAATTGAAACCAAGTTAAATACAAATCCTTAATCCTTAGGTGTAAGAA ATAACATTTAGCTTACCATTATAAGCTTTTTTAACAGCTTCTTTCCAGTCAGTAATGGTTGTACTATCTATGGGCTCCGA GAAAAGCCTACTATTCCTGTTTTCAACCAGTCTAGTAGCCCGTTGTTTAGCAGCACCAAACAATACACCATATTGCAACT CCCACAAATGATTATCATTTGCTGCTACGCTCCACGACCTAGAAATGCAGTATTCACGAGTCGCAACTGAAGCAATATTG ATAATGATACTGAACAAGGGATAAAATGAACAGACGGTACAATATATATAGACAATGATTATATAAAAGAAGTACAGTAT TACCGGCAAACTAGCCCTGCTGACACCAAAGACTGCATATCCAGCGAACTGAAAATGTTTTCAAGAATATCTCGTGGCAG TTCGAATGACCCTGAAATATATGAAAAAGAAACTTCTTAAACATGACTCATTTGCATCCTTTCATAAAACAGTATAATGT CATTTCTTAAATATAGTCTGAGTGTCTGACCTTCTTCTACATGACCGTCTTCAATGTGATGATGAGCCTGAGAGCGCCTT TTATAGGAAACTATAGCATTTTTATACTCACTGATCGCCATATTCCTTTTCTGCTTGGGTAACGTTGCTTGTGCACTTTG AAGCAGTAAATGGACAGCTGATACAGCATTCTGAGTCTGTATTCTAGAATTTAACAACATTGAAAAAATGTTAAGATAAA GTGTTCATGATCTGTACACTTCATAAGTTTGATTGAAACCATTGATCACAAGTCTCCAAGTTGTAACATGTCTACATGTC ACACCAAATATAAAATGGATAACAAAAACAGAGAGAATTATCAACTAAACTTGAAATTTTCCTATCATGATACTAAAATC ATCTAACACGTACTCAGGGAGGAGACGGAAGGCGGTGAGGGTATCTTGGAAGATTAGGGATTGCAAATTCTTGGGGGAAT GAGGATAAGCCTCCTTCAAAATACAGGTGAGTTCTTTGCAGACGATTATGTATCTGTAAGGTTGTCGTAGAGATTCTTCG ATGCGAAGTTTGTAGTACCTCTGTAATGGCGACAATGAATTCAACACTCGCAGCATGCTGCACAAGACAAGATGATCGGA ACGGAACCGACAAAGATTTAGGGATTTCAACAACGCATTCAGG
CDS sequence (LotjaGi5g1v0295200.1) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGGATAACCACCACAAGGGAACTCAAACCAGCTCTTCTTCTTCTCCCATGAACTGGAAATATGACGTGTTTGTGAGCTT TCGTGGTGTGGATACACGAAACAACTTCACCGATCATCTTTTTGGTGCTCTCGAACGAAGAAGCTTTGTTACATTCAGGG ATGACATCAAACTCAGAAAAGGAGAAAATATATCCACTGAGCTTCTACAAGCAATTGAAGGATCCAATATTCTCATTGTG GTCTTCTCAAAAAACTATGCTTCCTCCACTTGGTGTTTGCAAGAACTGGCAAAGATTGCGGATTGCATTGATGTGCCTGG CCAAACTGTCTTGCCTGTTTTCTATGATGTGACTCCATCTGAGGTGCGAAAACAAACTGGGAATTACAGAAAAGCCTTTC TGAAGCATGAACAAAGATTCAAACAACATTTGCAGATGGTTCAATCATGGAGGGAAGATCTTGCACGTGTAGCAAATCTC TCTGGCTGGGATATCAGCAATAGGTAA
Protein sequence (LotjaGi5g1v0295200.1) extracted from Lotus japonicus Gifu v1.2 Proteins.
MDNHHKGTQTSSSSSPMNWKYDVFVSFRGVDTRNNFTDHLFGALERRSFVTFRDDIKLRKGENISTELLQAIEGSNILIV VFSKNYASSTWCLQELAKIADCIDVPGQTVLPVFYDVTPSEVRKQTGNYRKAFLKHEQRFKQHLQMVQSWREDLARVANL SGWDISNR
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 | 10 | 168 | 159 | 3.2E-77 | – | |
| PANTHER | 10 | 168 | 159 | 3.2E-77 | – | |
| SUPERFAMILY | 11 | 163 | 153 | 3.53E-44 | ||
| Gene3D | 15 | 168 | 154 | 4.6E-63 | ||
| ProSiteProfiles | 19 | 160 | 142 | 29.935 | ||
| Pfam | 20 | 156 | 137 | 2.8E-42 | ||
| SMART | 20 | 160 | 141 | 3.0E-38 |
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. |
Expression pattern of LotjaGi5g1v0295200.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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