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| Field | Value |
|---|---|
| Gene ID | LotjaGi5g1v0050100 |
| Transcript ID | LotjaGi5g1v0050100.1 |
| Related isoforms 1 | |
| Lotus japonicus genome version | Gifu v1.2 |
| Description | Histidine kinase; TAIR: AT5G10720.1 histidine kinase 5; Swiss-Prot: sp|Q3S4A7|AHK5_ARATH Histidine kinase 5; TrEMBL-Plants: tr|A0A0L9V1D7|A0A0L9V1D7_PHAAN Uncharacterized protein; Found in the gene: LotjaGi5g1v0050100 |
| Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr5:8435089..8444095) extracted from Lotus japonicus Gifu genome v1.2.
AAAAAAGGCCAAGATCACTTTCTCTATCATATTTGACCTCTTAATGCACATGGTTGCTTGGGTTCCTGTTCTATAATTTT TTGATTACTTAAAAGTTTTTGCCTTTACCCTCACAAGCTTACAATCACATGCTGTCCTCTCTCTCTGTGTTGCATTAAGC TGAAGCTCTCATTCTCTCTCCTCTCTTGCATTGTCTACGTGTTTCAGTTGTGCCATTGAATGCTTTTGACTCCAAAGTTG AAGAGATTCCTCAGATCTACAGGGAAACACCTTTGAACATTTTCAGCCCCAATTCATCTCTTTTGGTCTTTTCTGGTCTC TGGCTTCCATTCTGTTAGTGCAGAAAGGTTGGAGCTCTTTAACAATTCACTTTCATGAGTTTGATTGGTTTTTCTTGTGT GTGTGTGTGTTTTAATCTTTAGGGAGCTTGTTGTGGATAATGGATATTGGTTTCATTGTTTGCAATTGGGATCAATCATC TAACTATCTATGTGTTTGTGAAAATGTGTGTTAGTTTTGTGTTTTTGGCTATTTGGTAGTGTTTGTTGCAGTTTGAAACT TATTGCTTTGTGATCAAGCTGGAAAGTGTTGAAGTGTCTTTTTGAAAATGGTTTCATGCATCCAATTCATAAATTTCTTC AGGGCTTGATCCTAGATACAGTTTCTTCAACTTCTAGTCTTCGAATCGCGGTTTCGCGAGATTCCACATTTCCATTCATT AGCTTGAAATGATAACATCTTATATCAGTAACAATTGTGTTTTTTCTCTAATGACTTTTTCATTGTTCTTTGGTTGGTTG GTCGGTTAAAGTTCCTGAATCCTGATCTTGTTGGCTACTTTCACTGTACTACTGTTTGACTTCCTCTGTTCTTTTATTTG AATTCCACCTTTCTTTCATGATATCTTATAGCATGTTTGGATGAGCTTCTCTTTTTCCGGAATCAATTCTGACTCCCAGA AGCTTCTTCCCAGAATTGATTTTGGAATCAATTGAAGGAGGTTTCCAAACATGGACTTAGTTCTAAGTTTGAAATTCAAT GCCAAACTTATGAGTGACTCATGTTGGCCTTACAGATTGCAGCTTGGAGCCACAGCAGTGCTTTGGGTTCCCTCTTAGTG TTTGTTTGCGCCGTGGTGATTCCCCTATATGATGTATAAAGCTGAGATAAAACTGGGGCTAGTATTTCCTTGAGATGCAA GTACTGTGGAATTGAAGAAGAAACTAGTTGAGATCACAGGTTATATATTGTAAAGAAAATTGGATGTGATATCAGTGTGG ATTCAATGGTTTGCGAGATGGAGAGCGATTGTATAGAGGAGATGGACATTGAAGTCCTCTCTTCTATGTGGCCAGAAGAT ATTGGAACTGATGCTGGAAAACAGTTTAACATAGAAAAGCCTGGAAGGGACCAAGATATGTTGGAGGAGGTAACAATCAT AGAGGAGCCAGCTATAGCTGATTTTCAGCGTCTCTTGGAGCTTACTAATTACACAGATAAAGGGTCTTCGCAGTTGGCAT ACCTCATGCAACACTGGGAGTATAAGCAGGCCAATGCCGTGCGCCTTCTCCGAGAAGAACTTGACAACCTTAGCAAGCAG AGGAAGGAAGTTGAGCTGCGAAAGTTGGAGATACTTAAAGACAACAATCGATTTGAGGAAGAAAATTATGGGGGTGACAA ACGTCCGGTTTCTATATTGGATGAAGTTTACTACACATGGCAAGATTTACCGGTACCACTCAGGAAAAGTGTTGTTGCTG TTCAAAACAAGAGGATCGAAATTGATGCTGAGTATGATACTGCTGTGTACTGGAAACAGAAGGCTTTGGATTTCGAAAGA CAGTTGGAGGCAAGTGTCCAGAGAGAGCAGACACTTGTGGAGAAGTTGCAAGAAAGTATAGAGACTATCGAGAGGCAGTC CTCGCCGGTGGAAGAACTTACACAGATTCTGAAGAGGGCAGATAATTTCTTACATTTTATACTTCAAAATGCACCTGTCG TTATTGGCCATCAGGTATATTACTGTGAGTATTGAGTTTTTTTTTCTATATCTAATTAACTTGTACATAAGTCTTTTCAT AGGGTGTTAGAATTTATATGAGATTGGATTAGTTTTTCACTACTCCAATTACTAAAAGAGTTGAGAACTTGCAAGCATTA GTGGAATCTTTTAAACTTATATTCTATTCACCACCACTTCATCATGGGTAGATGGAAGAAAGTGATCACTGATCACGCTT AGGTGTAGAGGACCCAGAACAATGACTCAAATTGTGTTTTTTAGTTGGATAGAATAAGTGAACTGTGTGCAACTAAATTC TTCTGTGAAGTTTTGAGTTGGAGGATCAGATGGTGCAAAAAACATGAAACACAGATATCGGAGTATTGAATTATCTGGTA TATTATGTGCACTACTTGCCTCTTTTGTCTTAGTTTTAATTGGTTCATCACTAGGAATGCTAGATTTGTGTTTGCCATTG TAAGAGATTTTTCACTCTGCAGAGGGCTGACCCTGATATTTCTCTTCCAGGACAAAGAGTTGCGCTATCGCTTTATCTAT AATCATTTTCCAAGTTTACAAGAGGAGGTAATGATTTCTGATGAAGCTCTTGTTGCAAGGTTATGTGATTAAGTTGAATT GTATATTTTTTCTGGAATCAAAATCAGCTGCACAAACCTCAAAATACACTTCTTTATAACAGAAATTTATTTCCTCTTCA CTAGTAATTTTACTTCTTTTGTGAAGGAGTTCAGGTCCGGTGGCGCAATATCTTGACTCTAAAAAGTAACTAACTAATCT TTTTCAGGACATCATAGGGAAAACAGATGTTGAAATTTTCACGGGATCTGGTGTTAAGGAATCTCAAGATTTTAAGAGAG AAGTAATGGAGAAAGGATTACCTGCAAAAAAGGAAATCACTTTTGAGACAGAACTGTTTGGGTCAAAGACATTCTTGATA TATGTAGAACCAGTCTTTAGCAAATCAGGGGAGACAATTGGAGTAAATTATATGGGAATGGAAATAACAGATCAGGTAAT GTTATTTGGTTTTAGAAGCTAGTTTCCGTCTAGTGCTTATAGAGAGAGATTATTTATATTTCTCAAAAACTGCAGGTGAG AAAAAGAGAAAGAATGGCAAAGCTAAGGGAAGAGATTGCAGTTCAGAAAGCCAAGGAAACCGAACTTAATAAAACCATTC ACATTACAGGTTTAATCACTCAGTCAAGTCTTAATTTGTGAATTTCACTTTTAAGTGTTGAAGCAAGAAGCTTATTCTTC TCCCAACCCTTCCCTTCCTTCTAATAGAGGAGACTATGAGAGCAAAACAAATGCTGGCAACAATGTCTCATGAGATAAGA TCTCCACTGTCTGGAGTTGTTAGCATGGCTGAAATTCTTTCTACCACGAAACTTGATCGGGAGCAAAAACAGCTCTTGAA CGTCATGATGTCTTCTGGAGATTTAGTTCTTCAACTTATAAATGACATACTTGATCTTTCCAAGGTTGAGTCAGGTTAGA AATCTCTCTTGTACAATTGCTTGTTATCAATGATATCTGAACTTGGACAATTTGACTAATTTTGATCAATCAGAGAGAAA CTCAGAAGTTGTTTAGGAGAAGACTAACTGCTTTTGAGTTTTTTTAACCATCTATACTGATCATTTATATTTCTTCCCAC CCCACGAAACCGCCTATTCTCTATAGGAGCTATGAAATTGGAAGCTACCAAATTCCGGCCAAGAGAGGTAGTAAAGCATG TACTCCAGACAGCGGCAGCATCATTGCAAAAAATGCTAATCTTAGAAGGAAATGTCGAAGATGATATACCTATAGAGGTG AGAACTTTATGTAACACATTCATGCTTTGCTATCAAGGATTTGTTTTCGTTGTTGTAGTTGAATGCAGGACTACTTCTAT TATACACATCTGCTGATAGCTTTTGGTTTCATAAATCCTAAATGTTATTGAATTAATTAACAGAGAAATGCAAAACATGA CTTCGCATGACAAATTCTAAGTAATATACGACTTTAATTGTTTCATCCATACTTGCAGGTCACTGGAGATGTTTTACGGA TTCGACAGATTCTCACAAATTTAGTAAGGTACTAAAATTTATGTGATTGGTAGTGTCGTAGTTTCCAATCATTTCTGTAG TTAACCACTTCAGATGTTCCCATTTAGCTGGCATGTAACGCCTCCAAATTTTCCTTTCCCTTTATTGTTTCAAGGAATAC TCTTTACTTACACTGATGACTTATTTGTATTCTGAAGTAGAATATAAGCACCCCGTATAGAATTAGCTTAAAATCTCATG CATTATTAGTGCTAGAGCTCAATATCTACTAACGGGGAACTTGGTAGCAATCTGGACTAATGAATTTGTACTTTGATAAT ACTACTTTACTAGCATCATGCATACAAAACGTCATGAGTATCGTTGAAATCACATTTGATAACCAGATTTTATTTCTTTT TCCCTCTCCCCCATTAAAGAATGTGTTTCTGATTATCTTTTTCTCTACATTTATTATTTTGCAGCAACGCCGTCAAGTTT ACACATCAAGGAAAAGTTGGTATAAACCTTTATGTTGTTCCAGAACCACCTTTTGCCAAAGTAGAAGGTCACCAAAAGAT GACCGCAGACCAATCAACTATTTCAGCAAATGGCGTGAAGGAAGAGAAGCATCTATCAACGCCTCGAAGTAGATGCGATC AAAACCTTGATGGTATAAAACAAAATGACCATTACACTCAAGATCATGCCTTCAATGATGAATGTAGATCATCAGTTAAT AGTGAATGTTCAATGAATGGAGATACTGAGGAGCGAACTCATTCAACAGAAACAACAGTGTGGATACGTTGTGATGTATA TGACACAGGAATTGGAATACCAGGTATATAATGACCCTTCTCTAGTTCTCTTATTTTGCATTGATATAAGGTTGATTTTT ATTCAGGAGAAGTACTCAATTTTTTCATGTTATCATATGACAGAGAAGGCTCTGCCTAATTTATTTAGAAGGTACATGCA AGTCAGCGCAGACCATGCTCGAAAATATGGGGGCACAGGGCTAGGACTAGCAATATGCAAACAACTGGTAAAGTTTTTAC TACAAATCTTCTTTGCTTGAAGGAAATGCCTTTTTGTTTTTATTAATAATTATAAAGTGCCTTTGTTTCACTCCATTTCA CATTTTGCTATATAAATAAGTCAAGTTTAAGGTATTTCTTGCATAAGATCTTCCTAGCATAGAAACACATTATTATTAAT TCTTGTTGACTTGGTTTCTTTCATAAAACAATGTATAGGTATCTATCTTACATGCATAACATGATTTTCTTTCTCCAGCT AATTGTATATTATCCTTGGTCAATGATTCCTTGAACTTGGAACAGGTTGAGTTAATGGGTGGTCGTCTAACAGTATCTAG CAAAGAACATTGTGGTTCTACCTTCACCTTTATACTTCCGTACAAGGTTTCAACCGCTTGTGAAAACTCTGATGACCCAG ATGACCTTTCAGATGTGGAAAATAGTGAAGATGATACAACAGAGGGCTTCTTCCAATTTCAACCTCGCACTTTGGGCTCT CTTTTCACTTCTAATGGATCTAGCAGGCCCAAAAATATATTACCAGGCTACAGGAGCTCGAATAAGTTCAATGGGTTTTC AGATAATTCTGACTCACTCCACTCTAGTAACATATCAAAAGGGACTAGTACATTTGAAGATGCATCTTCAGTTGTTGTTG ATGCTCCAGAGATGTCTGACACTACAAGTTCATCAAGTCAAAGCCCAGAAACAAAGCATGAAAGCTTAGTTAATGGAAAC AAACAGAACAATGACACTGCACATGCTCGGTTACAGAATGGTAGTGCAGACTCTTGTCAACTTAAGGAGACAGATAGAGA AATGAGTGTAGCAACATGTCAGAGTCCAGGGAAGGCAGACATAACTTCCCAATATGTTAGTAGCAGAAACAGCATTTCAT CAGAAGTAACGATGTCCGCATTAAAGCCGAAGATTCTTCTCGTGGAAGATAACAAAATCAATATCATGGTGACGCAGTCA ATGGTGAAGCGGTTAGGATATAGCATGGATGTTGTGAATAATGGAGTGGAAGCCATACGGGCAGTTCAGCACCATACGTA TGATATCATTCTAATGGTAATTTCTTGTATCTCAAAATTGTGCCTTGCTACATTTTCTCAATATATATCAGTGCCTATTA TTCGTTGAGTAGATAGGGTCTCGTAGAGCCAGAAAAGGGGGTTGAGTGCTTTTGGTTTTGTTACAGATCATTGTGGATTT TTTCTATTCTTGGTGTTGTTGGTTTTTGGTGTTTCATGCTCGAATTCTGTTGATTGGACTTTGCGGTTTTCTTGGCTTGG GCGGTTGGGGGGCCTTTGTTGAGTTGGCTTTTTCCCTTGGTTGTATGTTTGTGGGTTTGGTTGGCTTTTCTTGGGCTAGC TTGTTTTGAGATTTTTTTCTTTTCCAATCTCTTTATAGATTGTGACTAACCAAACTGTCCTAAATAAATTTCCTTTTGCT TTCAAAAAAAAAAACTCAGTTCCTATTATCTTCCTGAAAACATGCTAGTTCACTTTTACACATCAATCATGATACCATTG TCTCAATTTGTATTATTAGTTAGAAAGACATGTCTTCATTTTCACCAACTTAATAATTTATGCTATTGGATTTTCCTAAA ATTGACATTGCTATATCTTCACGATCATGCTGCATAAAATTCATGCAAGCAAGTTCTTCCGCTCGGTCCATTTCTTAGTG TAGCACTATGACCTGGAACCTCTATTATTATTGCTGTTGCTGTTGTTGTTGATGCTGATGTGATTGTGGATAGGAACTTA GCTTCCCTATGACCATGAACTAGTACCATAAGATATTTGGTCTATAATATTTGTGAATGGTTAACTTAAGAAGTAAGTCA AAATTTGCAAGGCAGGTGTTGTTGCACATTGATGTAAATGTTCCTAATTTTTTGGTCAGGTTCTGAATACAAACTCTAGC TTCTAATTATCATTTGGTACTTTCACTTTGCAGGATGTTTTCATGCCAGTTATGAATGGTCTTCAGACAACAAAACTGAT TCGATCATATGAGGAAACGGGCCATTGGGATGCTGCAAGAAAAGCTGGAATTGAACAAAGTTTATCTGCATCGGATGAAT GTCCTGTCCCACCTAATAAACGGATGCACATTGTTGCGGTGAGTAATTAGTCTTGTTGTTCCTGTCATGTCCATGTGACT GTAATTACACCTTATTCAATTCATAGCAATCTCTAGTAGTATATCCTGAGTAATTGCTTTTCTTGCTTTGGTATTTGTAC TCTTTGAGTTCTGGGGTATTTCTAATTGAGCCATAATTCATAGCTGTTTCTGCTGAAAGCTAATACAAAACAAAATTCAA GCTGATTTGAATTTTTTATCTTCAAAAACCTTAGGAATTGGTTTTAATATTGGAACAAATTACCTCTTCTATAAACACAA TCTTCCAGTCGTAAATTATAATTTTCTTACTATATTATATCAATGCAGATGACAGCAAACACATTGGCTGAGAGTGCTGA AGAATGTTTTGCAAATGGTATGGACTCATTTGTGTCAAAACCTGTGACTTTCCAAAAACTGAAAGATTGTCTGGAAAAGC ACCTAAGGTGATATACATGTAAATTTCAAATTGTGTATAAAGGAATAAGAGCCTAGGAAAGTTTTGCAACGAATGCATCA TGTTCTCTATCAGTGTTGATCTTAAGTTGTATAGATCTACTATATTCTTTTTCATCTTAACAATTTTTTTTAATAGCTCA CATTGGAGTGCAGAAATCTCTGCAAAGTAGTTATTAGCTGATAGGACTAATTGGAGAGTGAATGTAGAGGTACAGGAGAC TTTTTTATTAGGTTGTGTATTAGGAACCTTGGGAATTGGCAACACAAAGGAGCTTTGCAAAAGCAGAATCATACCAGAGA CAAGGTAATCTTTTTCATTAATTAGTTAATGGTATAATTTACTTACTAGTACAAATTATGTAGAGTTTGCTACTATGCTA CTAAAATTAGAGGACTGGACTGATTTTGTGCAAGAATTGATGTGCAACATTAGATGAGACATGGGAATTGTAATCCATGA TTTAACTAGTATAATGACTTCAATATTTATACATGCAGAGGTCATTTTGAGGCTGTTCAAAATCTGCATATTCAAATCCC TTGTCCCAAATCTTAACATCTTTTAAAGAATCTCAATCAGAAATATGGTTGATGTGTGCAAGCTTACCCTGAAGATGGAC TTGGATCCTCTCATAATCATATAACATTGTCAATTAACTGTTTGTGCTTATATATATATTTTTTATGAACTTCAAAGACC CACTTTTTAATACATAAAAATAGAGATAGATGCAAAATTTCAAGACGACAAGGTCAGGTTAACTCTCACTTTCAAAGGAT CTTAATCCCAGCGAAGATATAATTTTTCAAGAATATTTATTGTTTAATCGTAAACATAAGTAATAATAAACTAGGTGAAA ATTAAGTGTTGATGGCTTTACAGTGATTTTCTACGAGTTGATAGAAAATGGTTTGTGCGATCTCGTTCATCGTTATGTTG AGCTGAAATTTTGATATGTTGTTCAAGATTCTTAGATACTCAATCTGATCGGTCCGATTATCAAGAAAATTTATGTGTAA GGAGAACAGGCCCACACAAGAAGCAGCCACGTCACTTAAATGAAACCTGCAATCCAAAAACCACTCAAAACACACAAAAA TACCTAATAAAATCTAGAAAAACTTAAAATGAACGAGAAAATACAAAAATGCATGAACTTAGACTAATGCATCATAAAAT AACTAAAACACCCTAATTAATTAAATAAATTCAATAGAAAATACTAGAAAAAACACCATGAATCCACGAGTCAATTCAAT CACATCAAACCAATCATCACGAGCCAAAGTGACACACTCAAATACCC
CDS sequence (LotjaGi5g1v0050100.1) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGGTTTGCGAGATGGAGAGCGATTGTATAGAGGAGATGGACATTGAAGTCCTCTCTTCTATGTGGCCAGAAGATATTGG AACTGATGCTGGAAAACAGTTTAACATAGAAAAGCCTGGAAGGGACCAAGATATGTTGGAGGAGGTAACAATCATAGAGG AGCCAGCTATAGCTGATTTTCAGCGTCTCTTGGAGCTTACTAATTACACAGATAAAGGGTCTTCGCAGTTGGCATACCTC ATGCAACACTGGGAGTATAAGCAGGCCAATGCCGTGCGCCTTCTCCGAGAAGAACTTGACAACCTTAGCAAGCAGAGGAA GGAAGTTGAGCTGCGAAAGTTGGAGATACTTAAAGACAACAATCGATTTGAGGAAGAAAATTATGGGGGTGACAAACGTC CGGTTTCTATATTGGATGAAGTTTACTACACATGGCAAGATTTACCGGTACCACTCAGGAAAAGTGTTGTTGCTGTTCAA AACAAGAGGATCGAAATTGATGCTGAGTATGATACTGCTGTGTACTGGAAACAGAAGGCTTTGGATTTCGAAAGACAGTT GGAGGCAAGTGTCCAGAGAGAGCAGACACTTGTGGAGAAGTTGCAAGAAAGTATAGAGACTATCGAGAGGCAGTCCTCGC CGGTGGAAGAACTTACACAGATTCTGAAGAGGGCAGATAATTTCTTACATTTTATACTTCAAAATGCACCTGTCGTTATT GGCCATCAGGACAAAGAGTTGCGCTATCGCTTTATCTATAATCATTTTCCAAGTTTACAAGAGGAGGACATCATAGGGAA AACAGATGTTGAAATTTTCACGGGATCTGGTGTTAAGGAATCTCAAGATTTTAAGAGAGAAGTAATGGAGAAAGGATTAC CTGCAAAAAAGGAAATCACTTTTGAGACAGAACTGTTTGGGTCAAAGACATTCTTGATATATGTAGAACCAGTCTTTAGC AAATCAGGGGAGACAATTGGAGTAAATTATATGGGAATGGAAATAACAGATCAGGTGAGAAAAAGAGAAAGAATGGCAAA GCTAAGGGAAGAGATTGCAGTTCAGAAAGCCAAGGAAACCGAACTTAATAAAACCATTCACATTACAGAGGAGACTATGA GAGCAAAACAAATGCTGGCAACAATGTCTCATGAGATAAGATCTCCACTGTCTGGAGTTGTTAGCATGGCTGAAATTCTT TCTACCACGAAACTTGATCGGGAGCAAAAACAGCTCTTGAACGTCATGATGTCTTCTGGAGATTTAGTTCTTCAACTTAT AAATGACATACTTGATCTTTCCAAGGTTGAGTCAGGAGCTATGAAATTGGAAGCTACCAAATTCCGGCCAAGAGAGGTAG TAAAGCATGTACTCCAGACAGCGGCAGCATCATTGCAAAAAATGCTAATCTTAGAAGGAAATGTCGAAGATGATATACCT ATAGAGGTCACTGGAGATGTTTTACGGATTCGACAGATTCTCACAAATTTAGTAAGCAACGCCGTCAAGTTTACACATCA AGGAAAAGTTGGTATAAACCTTTATGTTGTTCCAGAACCACCTTTTGCCAAAGTAGAAGGTCACCAAAAGATGACCGCAG ACCAATCAACTATTTCAGCAAATGGCGTGAAGGAAGAGAAGCATCTATCAACGCCTCGAAGTAGATGCGATCAAAACCTT GATGGTATAAAACAAAATGACCATTACACTCAAGATCATGCCTTCAATGATGAATGTAGATCATCAGTTAATAGTGAATG TTCAATGAATGGAGATACTGAGGAGCGAACTCATTCAACAGAAACAACAGTGTGGATACGTTGTGATGTATATGACACAG GAATTGGAATACCAGAGAAGGCTCTGCCTAATTTATTTAGAAGGTACATGCAAGTCAGCGCAGACCATGCTCGAAAATAT GGGGGCACAGGGCTAGGACTAGCAATATGCAAACAACTGGTTGAGTTAATGGGTGGTCGTCTAACAGTATCTAGCAAAGA ACATTGTGGTTCTACCTTCACCTTTATACTTCCGTACAAGGTTTCAACCGCTTGTGAAAACTCTGATGACCCAGATGACC TTTCAGATGTGGAAAATAGTGAAGATGATACAACAGAGGGCTTCTTCCAATTTCAACCTCGCACTTTGGGCTCTCTTTTC ACTTCTAATGGATCTAGCAGGCCCAAAAATATATTACCAGGCTACAGGAGCTCGAATAAGTTCAATGGGTTTTCAGATAA TTCTGACTCACTCCACTCTAGTAACATATCAAAAGGGACTAGTACATTTGAAGATGCATCTTCAGTTGTTGTTGATGCTC CAGAGATGTCTGACACTACAAGTTCATCAAGTCAAAGCCCAGAAACAAAGCATGAAAGCTTAGTTAATGGAAACAAACAG AACAATGACACTGCACATGCTCGGTTACAGAATGGTAGTGCAGACTCTTGTCAACTTAAGGAGACAGATAGAGAAATGAG TGTAGCAACATGTCAGAGTCCAGGGAAGGCAGACATAACTTCCCAATATGTTAGTAGCAGAAACAGCATTTCATCAGAAG TAACGATGTCCGCATTAAAGCCGAAGATTCTTCTCGTGGAAGATAACAAAATCAATATCATGGTGACGCAGTCAATGGTG AAGCGGTTAGGATATAGCATGGATGTTGTGAATAATGGAGTGGAAGCCATACGGGCAGTTCAGCACCATACGTATGATAT CATTCTAATGGATGTTTTCATGCCAGTTATGAATGGTCTTCAGACAACAAAACTGATTCGATCATATGAGGAAACGGGCC ATTGGGATGCTGCAAGAAAAGCTGGAATTGAACAAAGTTTATCTGCATCGGATGAATGTCCTGTCCCACCTAATAAACGG ATGCACATTGTTGCGATGACAGCAAACACATTGGCTGAGAGTGCTGAAGAATGTTTTGCAAATGGTATGGACTCATTTGT GTCAAAACCTGTGACTTTCCAAAAACTGAAAGATTGTCTGGAAAAGCACCTAAGGTGA
Protein sequence (LotjaGi5g1v0050100.1) extracted from Lotus japonicus Gifu v1.2 Proteins.
MVCEMESDCIEEMDIEVLSSMWPEDIGTDAGKQFNIEKPGRDQDMLEEVTIIEEPAIADFQRLLELTNYTDKGSSQLAYL MQHWEYKQANAVRLLREELDNLSKQRKEVELRKLEILKDNNRFEEENYGGDKRPVSILDEVYYTWQDLPVPLRKSVVAVQ NKRIEIDAEYDTAVYWKQKALDFERQLEASVQREQTLVEKLQESIETIERQSSPVEELTQILKRADNFLHFILQNAPVVI GHQDKELRYRFIYNHFPSLQEEDIIGKTDVEIFTGSGVKESQDFKREVMEKGLPAKKEITFETELFGSKTFLIYVEPVFS KSGETIGVNYMGMEITDQVRKRERMAKLREEIAVQKAKETELNKTIHITEETMRAKQMLATMSHEIRSPLSGVVSMAEIL STTKLDREQKQLLNVMMSSGDLVLQLINDILDLSKVESGAMKLEATKFRPREVVKHVLQTAAASLQKMLILEGNVEDDIP IEVTGDVLRIRQILTNLVSNAVKFTHQGKVGINLYVVPEPPFAKVEGHQKMTADQSTISANGVKEEKHLSTPRSRCDQNL DGIKQNDHYTQDHAFNDECRSSVNSECSMNGDTEERTHSTETTVWIRCDVYDTGIGIPEKALPNLFRRYMQVSADHARKY GGTGLGLAICKQLVELMGGRLTVSSKEHCGSTFTFILPYKVSTACENSDDPDDLSDVENSEDDTTEGFFQFQPRTLGSLF TSNGSSRPKNILPGYRSSNKFNGFSDNSDSLHSSNISKGTSTFEDASSVVVDAPEMSDTTSSSSQSPETKHESLVNGNKQ NNDTAHARLQNGSADSCQLKETDREMSVATCQSPGKADITSQYVSSRNSISSEVTMSALKPKILLVEDNKINIMVTQSMV KRLGYSMDVVNNGVEAIRAVQHHTYDIILMDVFMPVMNGLQTTKLIRSYEETGHWDAARKAGIEQSLSASDECPVPPNKR MHIVAMTANTLAESAEECFANGMDSFVSKPVTFQKLKDCLEKHLR
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 | 3 | 1004 | 1002 | 0.0 | – | |
| PANTHER | 3 | 1004 | 1002 | 0.0 | – | |
| Coils | 92 | 127 | 36 | - | – | |
| Coils | 184 | 211 | 28 | - | – | |
| Gene3D | 214 | 351 | 138 | 2.5E-10 | – | |
| Coils | 345 | 365 | 21 | - | – | |
| Gene3D | 364 | 439 | 76 | 7.2E-17 | – | |
| SUPERFAMILY | 373 | 439 | 67 | 1.24E-15 | ||
| CDD | 373 | 435 | 63 | 5.16978E-13 | ||
| SMART | 374 | 439 | 66 | 2.8E-19 | ||
| Pfam | 376 | 439 | 64 | 2.5E-16 | ||
| ProSiteProfiles | 381 | 681 | 301 | 43.174 | ||
| SUPERFAMILY | 469 | 678 | 210 | 6.64E-32 | ||
| SMART | 485 | 681 | 197 | 1.7E-35 | ||
| Pfam | 485 | 679 | 195 | 2.2E-27 | ||
| CDD | 490 | 678 | 189 | 1.86264E-39 | – | |
| PRINTS | 606 | 620 | 15 | 4.4E-13 | ||
| PRINTS | 641 | 659 | 19 | 4.4E-13 | ||
| PRINTS | 665 | 678 | 14 | 4.4E-13 | ||
| MobiDBLite | 687 | 708 | 22 | - | – | |
| MobiDBLite | 689 | 703 | 15 | - | – | |
| MobiDBLite | 746 | 817 | 72 | - | – | |
| Gene3D | 855 | 1005 | 151 | 1.5E-43 | – | |
| SUPERFAMILY | 861 | 1005 | 145 | 1.97E-31 | ||
| SMART | 861 | 1000 | 140 | 5.1E-29 | ||
| ProSiteProfiles | 862 | 1004 | 143 | 39.554 | ||
| Pfam | 863 | 930 | 68 | 3.9E-14 | ||
| CDD | 864 | 1004 | 141 | 7.07989E-27 |
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 | Phosphorelay sensor kinase activity | Catalysis of the phosphorylation of a histidine residue in response to detection of an extracellular signal such as a chemical ligand or change in environment, to initiate a change in cell state or activity. The two-component sensor is a histidine kinase that autophosphorylates a histidine residue in its active site. The phosphate is then transferred to an aspartate residue in a downstream response regulator, to trigger a response. | ||
| Biological process | Phosphorelay signal transduction system | A conserved series of molecular signals found in prokaryotes and eukaryotes; involves autophosphorylation of a histidine kinase and the transfer of the phosphate group to an aspartate that then acts as a phospho-donor to response regulator proteins. | ||
| 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. | ||
| Biological process | Phosphorylation | The process of introducing a phosphate group into a molecule, usually with the formation of a phosphoric ester, a phosphoric anhydride or a phosphoric amide. | ||
| Molecular function | Transferase activity, transferring phosphorus-containing groups | Catalysis of the transfer of a phosphorus-containing group from one compound (donor) to another (acceptor). |
Expression pattern of LotjaGi5g1v0050100.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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