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| Field | Value |
|---|---|
| Gene ID | LotjaGi4g1v0366900 |
| Transcript ID | LotjaGi4g1v0366900.1 |
| Related isoforms 2 | |
| Lotus japonicus genome version | Gifu v1.2 |
| Description | Histidine kinase; TAIR: AT1G27320.1 histidine kinase 3; Swiss-Prot: sp|Q9C5U1|AHK3_ARATH Histidine kinase 3; TrEMBL-Plants: tr|A0A023W3N9|A0A023W3N9_LOTJA Histidine kinase 3 variant 1; Found in the gene: LotjaGi4g1v0366900 |
| Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr4:74675995..74684564) extracted from Lotus japonicus Gifu genome v1.2.
CTTTTACAGCTTCTAAAAGAAAATCCCTTGATGTGGGAGCCAAAGCTTGAACACTCACGTGCTTATGCTGTTCTTATTTT GTCTTAGGACCCCTCTGTGTACAAGCTATAGAGAGTAGAGAGTTTCTTTGTTGAGTTGAGTGGCATTAAAAATCGAATCT TTTTGTTTCAGCCTCTCATTTTCTCCTGCATCTTTGGTTGGTAGCTGCTAGTAAAAAGTATCAATTTTGGTTTAAACTTT AGAATCAGAAACTCAGAATCTTATGATTCTCTTCAAGGGTACTTGATTTTATTTTTATCTTCCTCTAATTAACTCCACTG TTTACTTTCATATCTCAAGTTTAAGCTATTGGGTGGATAAGACAGCATCTTATATGAAGGTCAGTCACATCACTATTATT GTTGTTATTGCTGTTTTTCTTTTTCTTTCTTTTCTTTTCTGCAACCTTCTAAGTTTTTAGGAAGTGGGAGGTGTTGTTTG GTGCTGTTTTTCTTCATTCTTGAATTGATGAATTTCCTTCTACCACAAAGTGCAGAGCTTGTAGTGATTTTGTTTTGTTA ATTAGCCTGGTGGATGAGATTCTGTATTTCTGTGGATTTGATTTGACAGTGTTCTCTCACTTTAGCTGGAATATAATCAG CTGCAATTCACAAACTCTTGAAACTGTTTCTACTTAACTTGGGTTGGTTACTGTTGTGGATGAGCTTGCTCTATGTAGTA GGGTTTGGTCTAAAGTTGGGGCATCTAGTTTTAGTGCTATGTTGCTGGGTTGTGTCTGTTGTTTACCTCAACAGGTTATT CTGCAGTGAAATTAAGGGTACTAGGGTGGGTTTTCAGGGTGGTTTTGGCAAGATGGGGCTGAAATGGTGGGAGAAGATCT CAGGGAGTGGTTCCAGAACTTATCAACATTGCTACCAGTATATTGGGTCCAAGGGAGTGAAGAGACAAATGTGGTGGAAC CTTTATAGGGCGTGGATTGTGTTTTGGATCGGAGTATCTGTGTTTATCTACTTCTACATGTCCTTTCAAGATGCTGAGAA GAGGAAAGAGACTCTGGCAAGCATGTGTGATGAAAGGGCTAGGATGCTGCAGGATCAGTTTAATGTGAGTATGAATCATA TCCAAGCCATGTCGATTCTGATCTCAACTTTCCATCACTCCAAGAACCCCTCAACCATTGATCAGGTACTACTAAGCTTT ATTTGCTATGCATAATGTTGCAAATCAGGATGTAACTCCTCACTGTGTGAGTGAATATTTGTGTTGGCACACCTTTTTAC TTTTAGTGTTCATTATTGTACACCAGGATATCTTGTAACTTTATTTACTTAATTTTATTGTATAGCTTTTGATTTATTTC ACTGGCATTAAATTTAGTGTCAAATTGCATTTCTTTCCTCATTTTCATGGCAAAATTGTTGGGGTCTAAATGGTTATAAG ATTGCTAAACTTGAGCTTCTGGAGCAGGACCCCAATTTCCTTCCCACCGCCCACCCCACCATACACCTTTCTCTTTATTT TTGGATAGAAAATGTTCCAATTTGCAGCGGTAATTAGTCTCATATCTGCAAATCAATCTTACCATCATCCAATCCTTTTG CCAGTAGCTGGAGTCGGCTACATAAATCAGTCTACACCATGAAGTTCTATTATATTTTAAGTTTAGACACATATAAGTTA CATATAAGTTTTTGCTAATATTTTGGCTTATGGTATTCGATATTCCTTGGTCTCCCTCTACCTCTCTAGAGGTACTCTCC CTTCTATCTTGTTCAACCTCTTTTACAAGCACTTCTATGGTTCTTCTCCAAATGCCTGTTGAGAACTCTCACTTTTACAC GCGCTTCTATGGTTCTTCTACCTTATACAAGGTAGAGTAATCCTCAACTGTAAGCTAGCTTTTGGGGTAGAGTAATGCCT AATCCAAATTCTCTGATGATATTAGAGCCTATCCTAGATACGTTTATTGGGCCACCCATAAATGGACCACTCGCCGATGT TCAGTTATGCAAACTTCACGCTCCAGATGTCCATCCTCGGACGTGAGGGGGTGTGTTGATAAGTCTCACGCTGACTAGAG ATATAGATAAATAAATCCTTATATAGCGTAGAGCAATCCTCTCCACTTAGCTAACTTTTGGGGTAGAGATAAGCCTAACC CAAATTCTAAGAAGTAAGAATGCCTAAACCACCTAAGACTCTACCTTTTTTTTCTATAATCCTATCATGTTTTAGGTAGA TACTCACCGTTATTAATCTTTCCATTTCTGCTACATTAAAGCTTTCATTCTTGTTGGCTCTTTAGTACCCAACATTTAGT TCCATGCAATATTGCAGGTCTCATGTTTCTGTGATAAAATTTACTAGTGATACATTTTTTAATCATAAAATCCACCTGAT GGATTCCTTCATTTCATGGGATCCAATGGTTTATGTCATCCCTCTATATTTCTACAAATCAACTAACTTTTAAAATTTGC AGAGAACTTTTGCCAGGTACACGGATAGAACAGCTTTTGAGAGGCCCCTTACAAGTGGTGTAGCATATGCTGTAAGGGTG CTCCAATCCGAAAGGGAACAATTTGAAAAGCAACAAGGCTGGACTATTAAGAGGATGGACACTGTGGAGCAGAACCCAGT TCATAAGGATGATTATGCCCCAGAAAAATTGGAGCCATCCCCCATTCAGGAAGAATATGCTCCTGTCATATTTGCACAAG ATACGGTTTCACATGTCATTTCTGTTGACGTGCTTTCTGGAAAGGTACTTTTCTGCAATAAAATTGCTGTAAAATTTTAT GTGGAGCACTAAGTTTGTCAGCTGAATTGACGCACCTTGCGGATATTTGAACCATATATAGTTAATTATGCAAATTGTGA AAATGTTATACAACAGCCTCAGATATCCTGATGATGATTTTGGTCCATTCATTCTAAGCTCTAACTTCTGGGTAATATGA ATGGACTTATTTTTTTAATATCATTAAGTAGAATTGAGACAGGTTGTTCGTGCTTGATATTTTACATATGTAGCAATTAT TTAGATTATGGCTGTCATAGTTTCTCACTTATTCATCCACAGGAAGACCGTGGGAATGTGTTGCGTGCAAGAGAATCAGG GAAAGCTGTTCTAACTGCGCCCTTCAGGCTGCTCAAAACAAATCGTCTAGGGGTTATCCTGACATTTGCTGTCTACAAGA AAGATCTTCCATCAAATGCTACCCCAAATGAAAGAATTCAAGCAACTGATGGGTATGCATAAAATTTGAAATTTATTGGA TCTGACATTCTATTAGTTTATTTTTCTTTAATTTTTTTATCTTCATATAAGAACTTACTCCCTTTCCTAGCAACTAAACG CTGCATTCAAATTTGTTGGAAAATATTAATGAACACAGTTTATGAGTGAACTATATTCTAGCTCTTCCCTTGTGGCAATC AAAAGTTTGAAGTTGCTAATCTTCACTGAAATCCAGTACTGCTTGGAATTTCAGAAAGAAAAAATCATGAATATATTTAA TGTAAGAGAGTAGCATTTAATATCTTCATTACTGCTGAACAGGTATCTTGGTGGGGTCTTTCATGTTGAGTCGTTAGTGG ATAAATTACTTCAGCAACTTGCTAGCAAGCAAACTGTAAATGTTGATGTGTATGATACTACAAATCATACTCATCCAATC GCCATGTACGGCTCAAATGTATCCAGGGATGCGTTCTATCATGTCAGCAGTCTTAACTTTGGAGACCCCTTCAGAAAGCA TGAGATGCACTGCAGGTAAGCCTTATGCTGCAGAGTCAGTTTGGTAATTCTGTCCTGCTTAATCCCCAGCATATTCAGTA AGAATGAAAGTGACATTCATTATAGGTAGAAGATATGATATTGAATTCAAGGGGATATAGTATTACATGGTATAATACTT TATTATGGGTTTGATGTTAGCAAAACCTTGTTTAGATTTCATTTTTCTGATGCTTTAACACTTTTTTGGGGGGTCATTAA GATATTAAGTCTAACTTCTTTTTTTAATTACATTTGCAATGATTAAAATGGGTTTGTCAATGACTTGAAGAGTCTATGAA ATTTAAGTTTGATGCTTACACAGGTTCAAACAGAAACCGCCATGGCCATTGTTGGCAATAGCTGCTTCAATTGGTGCCTT TCTTATTCCACTCCTTATTGGACAAATTTCCTATGCTACTGTGATTCAAATTGCAAAAGTAGAAGAAGATTACCGTCAGA TGATGGAGCTAAAAGAACGAGCTGAGGCAGCTGATGTTGCAAAATCCCAGGTATGTAGTATTTTTATTTACTTTTAAACT TCTTGTTCTAGCTTACTTACTACTGACTTATATCAATTATAACTGCAGTTTCTTGCTACTGTTTCCCACGAGATCAGAAC ACCAATGAATGGTGTTTTAGGTGAGTTGTCTTCTTTCTATGGTTTAGTATACAGCATCCAATATTCAACAATGTATATTC CACAAAAATAAGAGCTTCTTTACATGACCTTATTCTAATTTGCATTTTCAGGGATGTTGCATATGCTTATGGACACAGAT CTAGATGTAACCCAACAGGAATATGTCAGAACAGCGCAGGACAGCGGAAAATCACTGGTATCACTTATAAATGAGGTTTT GGACCAGGCAAAAATTGAATTTGGTAAGCTAGAGCTTGAGGCTGTGCTCTTTGATGTACGGGCAATTCTGGATGATGTGT TGTCACTATTTTCTGAGAAGTCTCAAGCAAAAGGATTAGAGGTAATATATCAATCGTCTACTGTAGCAATTTTACATATG AAATTTCAAAGTTTGCATTGTCATCTTGTAGCTCATGCCTTTTCATGATTTATTTTTCTGGGAGCACAGTTGGCAGTTTT TGTGTCAGATCAGGTTCCTGAACTGCTAATAGGTGATCCAGGAAGGTTTCGACAAATAATTACAAACCTCATGGGTAACT CAATTAAGGTAAGTCTATGGGAGAAAGAAGAGCACTATTTAATGTGAATGTCTCTTTGTCTGATATCATACTGTAGAATG AAAGTTGCTCATAGATCTTTCCTTATAGGCATGCACCAGTCTTACTGTCACGAACCATAAAATTTAAGCTGTTAGGTGAA GTCACGAATTGTTTTATATTATGTTTTTGACACGCCCCCTCACGCAAGAGCTCATTGAGCCTGAAGCGTGGAAAACGCAT AAGTCCACCTACCTTGTGCTGAAATTCAAATTTTTATTGGAAAAATGGGGGCAACAAAGATGAAACTCTTGACCATTCGG CCACAAAAGGCTCTGGTACCATGTCATGAACCATCTATGATCTATCCCAAAAGCTGAAGTTGTTGGGTGAAGGCACATGA ATGATTTTATATTATATTTCAAACACTTACTATCTCTTGGATTGTTTTGGATATTGGGGGAAAATTCAATTAGTGTTCCT GCCAAGAATGACAATTAGTAGATCAAAGTTGATGTGTATTTCAAGAATAAATATCACGAAAACTAATTGTGTTATTGTTA TGCAGTTCACGGACAAAGGACATGTTTTTGTCACTATCCATCTTGTTGAGGAGGTTGTCCATTCAGTAGAGGTTGACAAA GAACCAAATTCTGATAAAAATACCTTGAGTGGTTTCCCAGTGGCTGATATCCGCAAGAGCTGGGAAGGATTCAAGGCTTT CAGTCAGGAGGGACCTCTTGGTTCTTTCTCATCCTCCTCGAGCGATTTCATCAATTTGATTGTATCTGTGGAGGACACAG GAGAAGGTATTCCTCTAGAAGCCCAGTCCCGCATCTTCACTCCATTCATGCAGGTAAATCCATCCATCTCTAGAAAACAT GGGGGAACTGGTATTGGCCTAAGCATTAGCAAGTGTTTGGTTGGCCTCATGAATGGTGAAATTGGATTTGTAAGCACACC CAAGATTGGATCCACTTTCACTTTTACCGCGGTCTTCACCAATGGACTCCCGAGTTCAAATGAGTGTAAAATTCAGCAAA TCAGCAACCAGCCTCAACCAGCATCTTCAGCATTTGAGGGGATGACTGCATTGGTTATTGACCCGAGAACCGTTCGCGCA AAAGTGTCTAGATATCACATCCAACGGCTTGGCATTCATGTTGAAATCGTTTCAGATTTAAACCAAGGGTTGTCAACCAT AGGCAATGGGAGCATAGTTACCAATATGGTCCTGATTGAGGAGGCGGTCTGGGACAGAGATTCAGGCATGTCATCTCACT TTGTCAAGAACACAAGGAAAGTTGATAATGGGGTTCCTCCAAAGCTGTTTATTCTTGTTAATTCTAGTAATTCTTCTAAA GCAAGTAGTGTAGCCTCTGATGTTCATTATCCTACTGTCATCACAAAACCTCTCAGAGCAAGCATGCTTGCTGTCACGCT ACAACGAGCCATGGGTGTTAGGAACAAGAGTACTCCTCCAAATAGGGAACTCCAAAGTTTGTCTCTTCGCCAACTTCTTC TCGGGAGGAAGATTCTAATCGTAGACGACAATAGTGTGAACCGTGCAGTAGCAGCCGGTGCTTTGAAGAAGTATGGAGCA GCTGTGGTTTGTGTTAGCAGTGGGCAAGATGCCATCTCTTCACTGACGCCACCCCATCAGTTTGATGCCTGTTTCATGGA TATTCAAATGCCAGAAATGGATGGGTATGCAACTAGAAATCTTTTACCTTTTTCCTAAATTTTGGAATTAAAACTGAAAT CTCTACATAAACACACAAAAGGTTTTTTTTTAATTCTTCTATTGATCTATAGGAATTACAGGACAGTTTATGTGAAAACC AAACTTGTTGCATTACATATATCTATAGCATGTTTGGATCAACTTCTCTTTCTTCTTTCTGGGTCCTAGAAGCTACTCAC ATAAGCTTCTCCCCACAAATAATTTTTCTTTGGGAATCAATTATAGAAGGATTTCCAAACATGCATCTAATGTATAGAAT TCACACAAGGTGTTTGGAATCTAACTTCGTGGCACAGTAATACTGTAATAGCACAATTCACTTGACAATTCTAAATTAAA AGAAAAAGTAAAATTTGATTTATGTCATTGTTACTTCTAAAAATACAATTATCATCATGTCACAAGGTGCTAATACACAA TTATTTTCCAACAGTTTTGAAGCTACAAGGAGAATTAGAGAGATGGAACACAATGTGAACAGAGAAGTGTCTATGGATGG CTTTGAGAATGTTTCGAACTGGCATGTGCCCATTTTAGCTATGACTGCAGATGTGATCCAGGCTACACATGAGGAATGCC TAAGATATGGCATGGATGGATATGTTTCAAAACCATTTGAAGCTGAACAGCTTTATAGAGAAGTTTCTAGATTTTTCCCT TCATCTTGAAAAAAAAAAAACAGTGCTGATCTAAACCAGAAGATTATTCATGACCGAAGCATCACTGTCTGTAGGGACAC TCTGAAATGTATAAACATGTTCAGAAGCCTCCTGAGAGTAAGTTCCCTATTTAACAGCCATTCCATGTTTCAGTATTTCT CTACTTAAAGAAGGATGGAAGAAATGGGAAAATTTTGTAGACATGCAGTCATGCAGAAATGGCTCATTCTACCTTTTGTC CTACTTCACTATCTTCTCTGCTGTGTTAAGATCCCTGGTTTAAAATATTATTTTTATGGCAGGGAGTGTACATAGGAGCC AAGTTTGATTGGTTACAATTGATTTGTGATTAAATGTTAAGGGTATCAAAATTAAAAACCCATTGATTATTCCATGTAAA GTTATTCTCTCGTCTCATCCACTGTTAACTGCCAATTGGAAATGGTTGAGGGGGATATAAAGACTAGGGTGTATTATATT ATATAATATAGATTCAGGAGTTCCATCCTTGTGTATGTAATATTACAACTTTACAGTAATCTAGCCTAGGCAAGTTACAT TTTCTGGGAATTGATGCATGTATCATAAGAGGTTGGTTCATGTGAAAGAAAGGAATTCAGTTTCTTGGCAACAATGGTGT GGAAGTGCACCATCATCCATGTATATGACCCACAATAAAGATGGTCAATGATGAGTAACAACATCAGCTTTGCTTCCTTT TGTTCCTAACAGTGCTGGAATTTGGCATTCAAATATGTAACTGACACATTATACTGTAGTGTTTGAGTGATCCATCAATT TTTTAAACTTTTTTTGGTCGATATGTGCATTTCTAGTTCTGGATTTCGTTTGATTCATTGCTCTACCTTGACATGCGATC TCGATTACCCATTATCACGGACATGCTCTCAGCTAGAATAACATATCACACTGCCTTTGGATTAGCAAACCCCTTTTTCC TCGCACTGAAACTGCTCGATGGCACATTGATTTAAGCGTCAAAGGGTCTTTATACCTCACCATTGTCTAAGATCAATGGT TGCACCCTAGAGGGTCTTTACTCTTTACATGTACCCAACCGTTCTCCAAGATCAATGATTTTGAGTGAAAGATGAGGTAT TCACTCTTTGTTGGTTACTAACTCAATATGGAAAAAAAATTCGGAGTTTTAAGCATCTTGCGGTTTAACACATCATAGAA AATATTAGCG
CDS sequence (LotjaGi4g1v0366900.1) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGAAGGGTGGTTTTGGCAAGATGGGGCTGAAATGGTGGGAGAAGATCTCAGGGAGTGGTTCCAGAACTTATCAACATTG CTACCAGTATATTGGGTCCAAGGGAGTGAAGAGACAAATGTGGTGGAACCTTTATAGGGCGTGGATTGTGTTTTGGATCG GAGTATCTGTGTTTATCTACTTCTACATGTCCTTTCAAGATGCTGAGAAGAGGAAAGAGACTCTGGCAAGCATGTGTGAT GAAAGGGCTAGGATGCTGCAGGATCAGTTTAATGTGAGTATGAATCATATCCAAGCCATGTCGATTCTGATCTCAACTTT CCATCACTCCAAGAACCCCTCAACCATTGATCAGAGAACTTTTGCCAGGTACACGGATAGAACAGCTTTTGAGAGGCCCC TTACAAGTGGTGTAGCATATGCTGTAAGGGTGCTCCAATCCGAAAGGGAACAATTTGAAAAGCAACAAGGCTGGACTATT AAGAGGATGGACACTGTGGAGCAGAACCCAGTTCATAAGGATGATTATGCCCCAGAAAAATTGGAGCCATCCCCCATTCA GGAAGAATATGCTCCTGTCATATTTGCACAAGATACGGTTTCACATGTCATTTCTGTTGACGTGCTTTCTGGAAAGGAAG ACCGTGGGAATGTGTTGCGTGCAAGAGAATCAGGGAAAGCTGTTCTAACTGCGCCCTTCAGGCTGCTCAAAACAAATCGT CTAGGGGTTATCCTGACATTTGCTGTCTACAAGAAAGATCTTCCATCAAATGCTACCCCAAATGAAAGAATTCAAGCAAC TGATGGGTATCTTGGTGGGGTCTTTCATGTTGAGTCGTTAGTGGATAAATTACTTCAGCAACTTGCTAGCAAGCAAACTG TAAATGTTGATGTGTATGATACTACAAATCATACTCATCCAATCGCCATGTACGGCTCAAATGTATCCAGGGATGCGTTC TATCATGTCAGCAGTCTTAACTTTGGAGACCCCTTCAGAAAGCATGAGATGCACTGCAGGTTCAAACAGAAACCGCCATG GCCATTGTTGGCAATAGCTGCTTCAATTGGTGCCTTTCTTATTCCACTCCTTATTGGACAAATTTCCTATGCTACTGTGA TTCAAATTGCAAAAGTAGAAGAAGATTACCGTCAGATGATGGAGCTAAAAGAACGAGCTGAGGCAGCTGATGTTGCAAAA TCCCAGTTTCTTGCTACTGTTTCCCACGAGATCAGAACACCAATGAATGGTGTTTTAGGGATGTTGCATATGCTTATGGA CACAGATCTAGATGTAACCCAACAGGAATATGTCAGAACAGCGCAGGACAGCGGAAAATCACTGGTATCACTTATAAATG AGGTTTTGGACCAGGCAAAAATTGAATTTGGTAAGCTAGAGCTTGAGGCTGTGCTCTTTGATGTACGGGCAATTCTGGAT GATGTGTTGTCACTATTTTCTGAGAAGTCTCAAGCAAAAGGATTAGAGTTGGCAGTTTTTGTGTCAGATCAGGTTCCTGA ACTGCTAATAGGTGATCCAGGAAGGTTTCGACAAATAATTACAAACCTCATGGGTAACTCAATTAAGTTCACGGACAAAG GACATGTTTTTGTCACTATCCATCTTGTTGAGGAGGTTGTCCATTCAGTAGAGGTTGACAAAGAACCAAATTCTGATAAA AATACCTTGAGTGGTTTCCCAGTGGCTGATATCCGCAAGAGCTGGGAAGGATTCAAGGCTTTCAGTCAGGAGGGACCTCT TGGTTCTTTCTCATCCTCCTCGAGCGATTTCATCAATTTGATTGTATCTGTGGAGGACACAGGAGAAGGTATTCCTCTAG AAGCCCAGTCCCGCATCTTCACTCCATTCATGCAGGTAAATCCATCCATCTCTAGAAAACATGGGGGAACTGGTATTGGC CTAAGCATTAGCAAGTGTTTGGTTGGCCTCATGAATGGTGAAATTGGATTTGTAAGCACACCCAAGATTGGATCCACTTT CACTTTTACCGCGGTCTTCACCAATGGACTCCCGAGTTCAAATGAGTGTAAAATTCAGCAAATCAGCAACCAGCCTCAAC CAGCATCTTCAGCATTTGAGGGGATGACTGCATTGGTTATTGACCCGAGAACCGTTCGCGCAAAAGTGTCTAGATATCAC ATCCAACGGCTTGGCATTCATGTTGAAATCGTTTCAGATTTAAACCAAGGGTTGTCAACCATAGGCAATGGGAGCATAGT TACCAATATGGTCCTGATTGAGGAGGCGGTCTGGGACAGAGATTCAGGCATGTCATCTCACTTTGTCAAGAACACAAGGA AAGTTGATAATGGGGTTCCTCCAAAGCTGTTTATTCTTGTTAATTCTAGTAATTCTTCTAAAGCAAGTAGTGTAGCCTCT GATGTTCATTATCCTACTGTCATCACAAAACCTCTCAGAGCAAGCATGCTTGCTGTCACGCTACAACGAGCCATGGGTGT TAGGAACAAGAGTACTCCTCCAAATAGGGAACTCCAAAGTTTGTCTCTTCGCCAACTTCTTCTCGGGAGGAAGATTCTAA TCGTAGACGACAATAGTGTGAACCGTGCAGTAGCAGCCGGTGCTTTGAAGAAGTATGGAGCAGCTGTGGTTTGTGTTAGC AGTGGGCAAGATGCCATCTCTTCACTGACGCCACCCCATCAGTTTGATGCCTGTTTCATGGATATTCAAATGCCAGAAAT GGATGGTTTTGAAGCTACAAGGAGAATTAGAGAGATGGAACACAATGTGAACAGAGAAGTGTCTATGGATGGCTTTGAGA ATGTTTCGAACTGGCATGTGCCCATTTTAGCTATGACTGCAGATGTGATCCAGGCTACACATGAGGAATGCCTAAGATAT GGCATGGATGGATATGTTTCAAAACCATTTGAAGCTGAACAGCTTTATAGAGAAGTTTCTAGATTTTTCCCTTCATCTTG A
Protein sequence (LotjaGi4g1v0366900.1) extracted from Lotus japonicus Gifu v1.2 Proteins.
MKGGFGKMGLKWWEKISGSGSRTYQHCYQYIGSKGVKRQMWWNLYRAWIVFWIGVSVFIYFYMSFQDAEKRKETLASMCD ERARMLQDQFNVSMNHIQAMSILISTFHHSKNPSTIDQRTFARYTDRTAFERPLTSGVAYAVRVLQSEREQFEKQQGWTI KRMDTVEQNPVHKDDYAPEKLEPSPIQEEYAPVIFAQDTVSHVISVDVLSGKEDRGNVLRARESGKAVLTAPFRLLKTNR LGVILTFAVYKKDLPSNATPNERIQATDGYLGGVFHVESLVDKLLQQLASKQTVNVDVYDTTNHTHPIAMYGSNVSRDAF YHVSSLNFGDPFRKHEMHCRFKQKPPWPLLAIAASIGAFLIPLLIGQISYATVIQIAKVEEDYRQMMELKERAEAADVAK SQFLATVSHEIRTPMNGVLGMLHMLMDTDLDVTQQEYVRTAQDSGKSLVSLINEVLDQAKIEFGKLELEAVLFDVRAILD DVLSLFSEKSQAKGLELAVFVSDQVPELLIGDPGRFRQIITNLMGNSIKFTDKGHVFVTIHLVEEVVHSVEVDKEPNSDK NTLSGFPVADIRKSWEGFKAFSQEGPLGSFSSSSSDFINLIVSVEDTGEGIPLEAQSRIFTPFMQVNPSISRKHGGTGIG LSISKCLVGLMNGEIGFVSTPKIGSTFTFTAVFTNGLPSSNECKIQQISNQPQPASSAFEGMTALVIDPRTVRAKVSRYH IQRLGIHVEIVSDLNQGLSTIGNGSIVTNMVLIEEAVWDRDSGMSSHFVKNTRKVDNGVPPKLFILVNSSNSSKASSVAS DVHYPTVITKPLRASMLAVTLQRAMGVRNKSTPPNRELQSLSLRQLLLGRKILIVDDNSVNRAVAAGALKKYGAAVVCVS SGQDAISSLTPPHQFDACFMDIQMPEMDGFEATRRIREMEHNVNREVSMDGFENVSNWHVPILAMTADVIQATHEECLRY GMDGYVSKPFEAEQLYREVSRFFPSS
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 | 44 | 44 | - | – | |
| PANTHER | 19 | 984 | 966 | 0.0 | – | |
| PANTHER | 19 | 984 | 966 | 0.0 | – | |
| TMHMM | 40 | 62 | 23 | - | – | |
| Phobius | 45 | 63 | 19 | - | – | |
| Phobius | 64 | 346 | 283 | - | – | |
| ProSiteProfiles | 112 | 338 | 227 | 38.711 | ||
| SMART | 112 | 313 | 202 | 3.7E-27 | ||
| Pfam | 115 | 311 | 197 | 3.8E-38 | ||
| Gene3D | 116 | 345 | 230 | 3.7E-95 | – | |
| TMHMM | 347 | 369 | 23 | - | – | |
| Phobius | 347 | 365 | 19 | - | – | |
| Phobius | 366 | 986 | 621 | - | – | |
| Gene3D | 370 | 462 | 93 | 4.0E-25 | – | |
| Coils | 376 | 396 | 21 | - | – | |
| SUPERFAMILY | 385 | 465 | 81 | 6.67E-19 | ||
| Pfam | 399 | 462 | 64 | 5.8E-19 | ||
| CDD | 399 | 460 | 62 | 2.99047E-17 | ||
| SMART | 399 | 464 | 66 | 6.9E-23 | ||
| ProSiteProfiles | 406 | 675 | 270 | 41.425 | ||
| SUPERFAMILY | 453 | 670 | 218 | 1.1E-38 | ||
| SMART | 511 | 675 | 165 | 2.3E-32 | ||
| Pfam | 511 | 673 | 163 | 3.5E-29 | ||
| CDD | 516 | 673 | 158 | 1.2825E-42 | – | |
| PRINTS | 600 | 614 | 15 | 3.9E-12 | ||
| PRINTS | 618 | 628 | 11 | 3.9E-12 | ||
| PRINTS | 635 | 653 | 19 | 3.9E-12 | ||
| PRINTS | 659 | 672 | 14 | 3.9E-12 | ||
| SUPERFAMILY | 699 | 827 | 129 | 1.05E-6 | ||
| CDD | 805 | 879 | 75 | 0.00121542 | ||
| Gene3D | 836 | 982 | 147 | 1.3E-37 | – | |
| SUPERFAMILY | 849 | 982 | 134 | 8.97E-34 | ||
| SMART | 850 | 979 | 130 | 7.9E-31 | ||
| ProSiteProfiles | 851 | 983 | 133 | 41.016 | ||
| Pfam | 852 | 978 | 127 | 3.6E-21 | ||
| CDD | 853 | 975 | 123 | 3.17835E-30 |
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 | Nucleoside metabolic process | The chemical reactions and pathways involving a nucleoside, a nucleobase linked to either beta-D-ribofuranose (a ribonucleoside) or 2-deoxy-beta-D-ribofuranose, (a deoxyribonucleoside), e.g. adenosine, guanosine, inosine, cytidine, uridine and deoxyadenosine, deoxyguanosine, deoxycytidine and thymidine (= deoxythymidine). | ||
| 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 LotjaGi4g1v0366900.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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