Your browser is unable to support new features implemented in HTML5 and CSS3 to render this site as intended. Your experience may suffer from functionality degradation but the site should remain usable. We strongly recommend the latest version of Google Chrome, OS X Safari or Mozilla Firefox. As Safari is bundled with OS X, if you are unable to upgrade to a newer version of OS X, we recommend using an open source browser. Dismiss message
Field | Value |
---|---|
Gene ID | LotjaGi4g1v0348600 |
Transcript ID | LotjaGi4g1v0348600.1 |
Related isoforms 8 | |
Lotus japonicus genome version | Gifu v1.2 |
Description | Pyruvate, phosphate dikinase; TAIR: AT4G15530.1 pyruvate orthophosphate dikinase; Swiss-Prot: sp|Q42910|PPDK_MESCR Pyruvate, phosphate dikinase, chloroplastic; TrEMBL-Plants: tr|A0A0B2P153|A0A0B2P153_GLYSO Pyruvate, phosphate dikinase; Found in the gene: LotjaGi4g1v0348600 |
Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr4:72734389..72743393) extracted from Lotus japonicus Gifu genome v1.2.
ATTTAGTCAAAGTTCAGTTATGTAGAGGACTTAGCACCATAACATAACCGTAATTTCGTCCACTCATTCCTCATCATACT CACTTCACAGTCACAATTTCGAAATATAATTAAAAAATAAAACAGATTAACTGCCATTTCCATTTTCATCAGAACCTGCT CTCTCTCTCTCTCTCTCTATATATATATATATATATATATATTCATTCATTTTTCAGCTCCTATTTCTTGTTACTTCCTA CCTTCAGGTACGTGATCAGTTCATATTTGATTCTATTTCTACCTATACATTCTTCAAGATCCTTTCAGCTTCATCACTTG TTCACAATTTGTAGCTACTGTATAGTTATTTTGGTAAATATTTTCTTCTTTTTTGATTGATCATTATCCCAATATAATGA TGATCTGAATTTTTTTACAAAGATCGATCAGGAAAAAATGAAAAGAAGTTGAGTTAATTGATTGGAAAATCACTTTCTTC TCTTTCCATGGCTTTGTTTTGGGTGTTTCTGTTGAAATGAGATATTTGATCCTTTACAAGAACGAATACTGAATCTCAGT GGCTCGTGGCAGTGGCAGGATGAAATATTTAATCATTTATATTATTGATGTGTGCTTTTATATGTTTTTTGTTGGTGAAT GAATTGAAAACATGCCAATTTCATGTTATCTGCATCAGAATTCCTTGAAGCAGAAGGACCAGAAACAGAGGAAAGATGTC TTCAATAGTGAAAGGCACACTCTTAAGAACCACACCAGATTTGAGCAACAATAATGGGATTTTGAATGGGAACAAGCATG TGCCGCAGATTGGTGGGAGAAGAGCCACAAAACTTCAGTGGCAAGACTTGCAGGTTCGAGTTAAATCAAATTCGATTCGA GGACAAGCGATCCTCAACCCAGCAACACCACCGTCAGCAACACCATCACCATCGCCACCAGCCACACCAAAAGCCATCAC AAAGGTACATACACACATTAGTATTACATTTAACATACTCAAAGTTAAGACTCTTCATCTCTCGTATTGTTAGACAATAG AACCCGATGCTGAAAGCTCTTCACATACACTCCGTATGTGTTGAGAACTGTTTCTTGTAGAATATGTTCATCATATTTAA CATTGATTACAAAATAAATAAATAAAGTACAAATAAATTTCAATTAAAATGAGGGGCCTGTCTCAAATAAGAGAATGTGA ATCATAAGAAGGAAGTGCACTGAACATTAAATTAAACATGTATTCTTTAGATTGAGCCATAAATAATTGAACTGGACCGA GAAAATGATCAAATGAACCTTTTTTGAGAATATATAGTATTGCCCCTAAAAACAGAGATCAGCATATTACTCTTTTAAGA ATTAAGGTTTATATTTTATTTCAGAATTTAATTACTATACACTAATAATGTAAATATGTTTACACAATCATTGAATTATA ATTCATCGAATTTGCATGTTATAATACATAACTTACATAAAAAAAATGCCGTTTGTTATTTGCCACTACAAAAAATTTAG CATATAATGGTTTGTGCCTATTTGGGGCGTGGCTAAACTCAGGTCATGGGATTTTGGTGATAGCCCTTTCCTTTTGTCAA ATGAAAGGAGAGTGTTGACTGTGACTTTTTCAAATGTTGAGTTATTAACAAGATCACTACACCACGAAGCTTGTTTCTGG ACCACAAAAATGTCAAAAGAACCTCTAATATGTGCCCAAGGATTAACTCATACTTTCTTTCTTCTCCTTTTTTTTCTTTT CTTCTTACCTCTATCCTCCTTCGACCTCTTTCCACCCCAAAGAGGGGTGTGAAAGCAACATTATTCAAGATCAAGTGTCC ATTTGTTTTAGCTTTGCACCACCCACAACGCGCATTTTTTCATAATGGCTAAGTGCAATGATTGTGCCCCAACACGCGTT GGAGTCTCCTCAACGCTCACCCAAACTGGCCCAGACAAGGCTGGACCGGTAAAATATATTTTTCCATTTATCAAAAAATA ATTGAAATTAAAGTAAGAAAATATTTAAAATTTAATATATTTTTCATTTGCGGAGATACTTGTGTTAGATTAATAATGAT AGCTCAAGTGGTAAGAGTTGGGAAAACATGAGTTTGGGAGGGAAAGGTCCGCGGGGTTGATTCTTTAAGGGTGTAATTTA TTTTTCCAATATACCAAAAAACAAAAAGTGGTGAAAATTACTTTAAAAAATTGAAAAATAATTAATATTAAAAGCATTTT TATTTTAAATTACATTTTTTATTCAAATAGAAACTAAATATAGAAAAATTAATAAATTATGTTGTTTATCAATTGGGGCT AAGCTTTCTCTCTCCCCCCCCCCCCCGCCCCTCAATTTTGGATTCTTGCCTTAAGAATATACTTTTGCAGTTGTCATTCT TTAAAATGTTGAAATTTACACCACAATTTAAAAGTCAAATAGGCACATTTTTTTGAATTTTTCATACACTACTAGTAACT TAAGTATAAAGGAATTATGAAAGAAGAAGAAACTGAAGTGAATTTTTTTTCTCTGCTTTTGTTTAAACAGCGGGCATTCA CTTTTGGCAAAGGTAAAAGTGAAGGAAACAAGGCCATGAAGTCCTTGGTAAGTATTCTTTATCTTGCTATACATATGTTA TTTTTCTGGCTGATGAAACACTAATGCATGTTATGTTAAGCAAAACTTGACTTGCTACTTTTAATGTAATGATAAAAAAA ATCCTTTGAATTGATGAACAATTGCATGTATGTTAATTATAGTTGGGAGGAAAAGGGGCCAACTTGGCAGAAATGGCAAC CATTGGTTTATCTGTGCCCCCTGGACTCACTATATCAACTGAAGCATGTCAAGAGTATCAAGATAATGGAAAGAAGATAC CAGAAGGCTTGTGGGATGAGATACTTGAAGGCCTGGATTTTGTGGAGAATGAAATGAAGGCTGCTCTTGGGAATCCTTCC AAACCTCTCCTCGTCTCAGTGCGGTCTGGTGCTGCGGTATGCACGAACGATTTTATATTATATTTCTAACAAACTCAATA TAGATAAACTCAAATAAGCTTGTACCCAAACATGCTCTTAGTGAGGCATATGTAAAAGGCCTATGAAAAATGGTATAATG TATGTACTATGGAAGGATTGGACTGCAAATGTTAAGTGATAAATTTTTCTGCATGACTAGAAGTCGAGTTCAAGCATCTT TGGATCAATTTCTTTTTTCCCAGAGTTAATTCTAGACTTAAGTTTCTCACCAGAATTGATTCTGGTTTTAGAATCAATTG TTATGTATTTTAACATTGCCTTTAGTTTCCATTTATCAAACAACCATGCAAGAAAATTGTACTACTGTGATAGCTTGATG CAACTAAAATTAGGATTTCAATCCAAGTTTTAGCTTCAAAGTTATTGATATGAACCATTAATAACATTTGCTTTTTATCT AAACAATAAATTAGTTTATGCTACTTGTTATGAACATGATTTGCTCTGGCTATTGAAATGTTCTACTGTATTTAAAAGGT GTGCTTTACTTTGATTTGAATTTGATTCCTCTTTTTGAGGGGCTTAACATGTTTATAGCACAAACTTACTTGTTTCCTAT TTGTTTACAAGATATCCATGCCTGGAATGATGGACACAGTTCTCAATCTTGGATTGAATGATGAAGTGGTTGCTGGGTTG GCTGCGAAAAGTGGGGAGCGGTTTGCTTACGATTCTTTTAGACGTTTCATAGACATGTTTGGAGGCGTTGTAAGTGGATC TTTTACACCCTTAATGAACTCAATCTGTTAGTGTCTTTCATTGCTCTAACTGATCTTTATATTATCTTAAGGTAATGGAC ATTCCACACTCGTTGTTTGAGGAGAAGTTAGAAAAGCTCAAGAATTCAAAAGGTGTTAAACTCGACACTGATCTAACAGC CACTGATCTCAAAAATCTGGTTGAGCAGTACAAGAATGTCTACTTTGAAGCTAAGGGAGAGAAGTTTCCCTCAGGTTCTG AGTGCAACACCATCAACTTCTTCCTGTTTTGTTGTTATTCATGTGAGGAAGTAAAAAGAAAATGCTCATCTTCCTTGTTG AATTACCAATTGCAGATCCAAAGAAGCAGCTAGAGTTAGCTGTTAAAGCTGTTTTTAACTCTTGGGATAGCCCAAGGGCT ATTAAGTACCGAAGCATTAATCAGATAACAGGGCTAATGGGAACTGCAGTGAACATTCAATCCATGGTATTTGGTAATAT GGGGAATACTTCCGGAACTGGTGTTCTATTCACTAGAAATCCAAGCACTGGGGAAAATAAACTTTATGGAGAGTTTCTGA TCAATGCTCAGGTTGCATATCATATCCTAGTTATTCTTATACTTTCATACCATTATTATCTTTACTAGTTTTGGTGTTGA TGTTTATTCTAAATTATTTTTAATAGGGAGAGGATGTAGTTGCTGGAATCAGAACACCTCAAGATTTGGAGACCATGAGA ACTTGCATGCCAGAAGCTTACAAGGAACTTGTGGAGAACTGTGAAATTCTAGAGAAACATTACAAGGATATGATGGTGAA ATTTCAACCCGTTATATATATTTTCTATTTGACTAGAGATATAGATAAATGATTTCAATAGAGCAATGCTCATGTCACGT ATGAGCTAGCTTTTGGCTTAGAGGTATGTCTAACCTGAATTCTAAGAATGCCGAAAGGTAAAGCTTCTGATATTGCTATT TTATTATTGTAGGATATTGAGTTCACTGTTCAAGAAAACAGGCTGTGGATGTTGCAATGTAGAACTGGAAAGCGTACCGG TAAAGGTGCAGTGAAAATAGCTGTAGATATGGTTAAGGAGGGACTTGTTGATACTCGTTCCGCCATCAAGATGGTAGAGC CACAACATCTGGATCAGCTACTTCACCCACAGGTACATACTTTGTGCTGAAGTTGCCATTTTCCATAGATGAGGGCGCCT TCAACTTCCTGTTATAATTGATCAAAACAACTTTGAAACATCAAATTAAATTTCCATATTCAAATGTAAGATACTAAAGT GTTCTTGATTGCCTTATGTTTATTTTGTTAGTTTGAGGATCCATCTACTTACAAGGACAAAGTGATTGCCACTGGCTTGC CTGCATCCCCTGGAGCTGCAATAGGGCAAGTTGTGTTCACAGCTCATGATGCTGAAGAATGGCACGCACAAGGAAAAAAT GCCATCTTGGTATTCCTTTTTATTATCAAGCAACAAATTTTATTTTCTCTTCTGTGTTCCCCTTCTTGATATAAGCTTGA ACCTACCAATTTAGCTTTAGATAGGAAAATCTAGAGGTGCATTAGTGAAAATACTCACTTTTACAAGATTTTATGGTTAG GATGCAAATGCTGTCTTAACTTAGTTTCATGGTTAGGTTAAACAAACCATCCACTAAGCATGTTTGGATTCACATTTAAA TCTTCAAGAATCATTTCTAAGCTACCAGGAGTAGCTCTCCTAGATTTAATTTTCCTTCCAGCGTAAAAATCTACCATGTA CCAAACTGGCGCATTAGAAATCATTAAATGCTAATCCATTATTGCATTATTGAAGGTGAGGACAGAGACAAGTCCAGAGG ACATTGGGGGTATGCATGCAGCTGCTGGAATTTTGACAGCTAGAGGTGGTATGACTTCTCATGCTGCTGTCGTAGCGCGT GGATGGGGAAAGTGTTGTGTTTCTGGCTGCTCTGATATCCAAGTAAATGATGTTGAGAAGGTAACTCCAGAATTTTTGTT AGCAATGAAGACATGTCTGTAAGAGTAAATACCCAAAATTGTTCACAAGAAATTTAACAGTTCTACACTTAGTTCCTGAT AATGAAAAAATTCCACTATAGTCCCTAAAAATCCCAAACATTAGCCATATTAGTCATTCTGAGGACCAATATGTATAATG TCTTGAAACTAATATGATTGACATTTCGTGATTTAAAGGATTAGGATTAATTTTTTGAGTCCTCATGGACTAATGTGTCT GCTGCCAAATGTTTCAGTCTTTCAGAGACAAATTTGGAGATTTACTCTATTTGGTGAAAGATCTTCATGTTCTTAGTAAC TAAGTATAATCTCAATTGATAATGATAATGCAGGTGGTTGTAATCGGGGGTAAGATGATAACGGAAGGCGATTGGCTCTC GCTGAATGGATCCACAGGTGAGGTGATACTGGGAAAGCAAGCACTTTCTCCTCCTGCTCTAAGTGAAGATTTGGAAACTT TCATGTCTTGGGCTGATGAAATAAGAAATCTGAAGGTGCTTCATATTCTTTATTTCAACAGAATTTGAGTTGAATCGAAG TATCTTCACTAATATCATTGTTGTCTACCAGGTTTTGGCAAATGCTGACACACCTGAAGATGCTCTAGCTGCAAGAAAAA ATGGTGCACAAGGGATTGGACTTTGCAGGACAGAACACATGGTACAAATAAATATTCAACTCTTGCTAGAACTAAATGAA AGCATGAATTTATTACTCTTGAATTAATTGACACGGAGTAGCTACAAATTATTTGTTGCATGTTTTGGTGTGTTTTAGTT TTTTGCTTCAGATGAAAGGATAAAGGCTGTGAGAAGGATGATAATGGCCGTTACGCCGGAGCAGAGGAAAGCTGCACTAG ACTTGTTGCTACCATATCAGAGATCAGATTTTGAGGGAATCTTTCGTGCAATGGATGGCCTCCCAGTGACAATCCGATTG TTAGATCCTCCACTTCATGAATTTCTTCCAGAAGGTGACTTGGAGCATATTGTGAGTGAACTAACTTCCCAAACAGGCAT GAAAGAAGAAGAAATCTTCTCAAGGATTGAAAAACTATCAGAAGTGAATCCCATGCTCGGTTTTCGTGGCTGCAGGTTTG TCCCCCTTCTTATGATGCTTCTCTTAGAAATATAATATAAAAATATTCAATTGTGGCTTCTGCAAACAGCTTAAGCTTTT GAGATCGTTGGTTCATGATATGGTATCAGCGCTTCTCTGACCAAGCGCTCTAGAGTACTATCTTTGTTGCCCTCATTATT GTAATTAAAAAAGTTGAGTCTCAACATAAGATAGATAGGTCCGTGCATAGTCCACGTTTGAAGCCTAATGAGCTCTCGTG TGTGGGGGCATGTTTGAATTATAATATAAAACTATTCATGCCTCTTCATCCATATGTAATGCAAATCTGCAGTCACAAAT GAAGCATCATGGCTCATAATATATTCAATTTATGGATCAATTAGTAAAATAACAATTCCTTATATTTGACAATTGAAATT TTGTGAGCAGGCTAGGAATCTCATACCCAGAATTGACTGAGATGCAGGCCCGTGCAATTTTTCAGGCTGCTGTTTCAATA AGTAACCATGGTATTACAGTTCTTCCTGAGATCATGGTTCCACTTATCGGTACACCTCAGGCATGGTCCTTTCCCTTTTT TATTCTCTTGTGTTATTCTTCCAATTGTTTCACATGTATGATGTATCATATATGAAAAAAAATCCCTATGCTATACTTTG GAACATTATTTATCTTGCATTCCTTTTTCCTTAACGATGTATCTCTTGAAATATATAACATGAAGAACTACTTAGAGTTC TGACATTGATGAAACCCTTGTAAATATTATATAAGCCCAAATTTTGTTTGCAGGAATTAAGGCATCAAGTGAGCGTAATC AGAAATGTTGCTGAGAAAGTGTTCTCTGAGATGGGTTCCTCTCTAAGCTATAAGGTTGGAACTATGATTGAAGTTCCAAG AGCTGCGCTTGTTGCAGATGAGGTAAAACTTATATTGTTATATCTTGAAGATTCACACTTTAACATATAATATGCTCGTT TTATCACCTTGAAACCAAGATTATCATTTGCTGCAACAACAGTTCCAAGGACCATTTTGTCATCATCTTATTACTATACT TTCTAACTTTATAATCCATTTGTGTAGATTGCAAAGGAGGCAGAGTTCTTTTCATTTGGAACCAATGACCTTACTCAGAT GACATTTGGATACAGTAGAGATGATGTTGGCAAATTTCTTCCTATATACCTAGCCAACGGGATTTTGCAGCATGATCCAT TTGAGGTAAGTTTCTTAACGTACATTTTATGATTACATGAAGGATGGTTTCTGAGTTTGAGTTGTTGACAATACTTGCAG GTAATTGACCAGAAAGGTGTGGGTCAACTCATCAAACTTTGCACAGAAAAGGGTCGTGCCGCAAGACCAAAATTAAAGGT ATAAAAGAGTAACTTACCAATTGAGATTTAAACCAACAAATTTCATTACTCATATATTTATTCTTACTATGTGAAATTTT GTGATATAAACATCTGCTTCATTCATTACACCCCTGCAATTAATCTATTAAGTTGATTATCAGATTGGAGTATGTGGAGA GCATGGTGGGGAACCTTCTTCTGTTGCATTCTTTGCTCAACTTGGGCTTGACTATGTATCATGTTCTCCTTTTAGGTAAA ATTTTCAGTTCTACATTATCTGCAAAAGAAATATTAGTATTTTCAATTGTCACACTGAAAAATCTGAGGACTCCTTTGCA GGGTTCCAATTGCTAGGCTAGCGGCAGCTCAAGTAGAAGTTTAAGAGACAATGCAAATAATAGTGTGGTTTGAAAGAACA TGTTCATAAGAAATGGGGTCAGATGAAGGAAAGCTACTAACATGCTTATGGAAGTGAAAGAAAGGGAAATTGATAGACAA ATCTTTGGAGATAAAAATAAAGACAATGGCGAAAACATTGTGTGCAAAGATTCATTCAATGTTTCTTTAGTGATTTGATT GCATAATGTGTCTTGGTATATTTCTTGTATGAGACACTTGTGTTGACATATTGGTATGTCATGCCATAAAATAAGATTGG TTATGTCAAGATCTTGTACATGTTCTATTTTATCACTAATAAAATCTTTGAAAGTTTCTTCAATGCATCATATGATATTT CTTAATGGATCATGTTGTCAAGAGAAAGTTAAGAATGAGTCCCAC
CDS sequence (LotjaGi4g1v0348600.1) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGTCTTCAATAGTGAAAGGCACACTCTTAAGAACCACACCAGATTTGAGCAACAATAATGGGATTTTGAATGGGAACAA GCATGTGCCGCAGATTGGTGGGAGAAGAGCCACAAAACTTCAGTGGCAAGACTTGCAGGTTCGAGTTAAATCAAATTCGA TTCGAGGACAAGCGATCCTCAACCCAGCAACACCACCGTCAGCAACACCATCACCATCGCCACCAGCCACACCAAAAGCC ATCACAAAGCGGGCATTCACTTTTGGCAAAGGTAAAAGTGAAGGAAACAAGGCCATGAAGTCCTTGTTGGGAGGAAAAGG GGCCAACTTGGCAGAAATGGCAACCATTGGTTTATCTGTGCCCCCTGGACTCACTATATCAACTGAAGCATGTCAAGAGT ATCAAGATAATGGAAAGAAGATACCAGAAGGCTTGTGGGATGAGATACTTGAAGGCCTGGATTTTGTGGAGAATGAAATG AAGGCTGCTCTTGGGAATCCTTCCAAACCTCTCCTCGTCTCAGTGCGGTCTGGTGCTGCGATATCCATGCCTGGAATGAT GGACACAGTTCTCAATCTTGGATTGAATGATGAAGTGGTTGCTGGGTTGGCTGCGAAAAGTGGGGAGCGGTTTGCTTACG ATTCTTTTAGACGTTTCATAGACATGTTTGGAGGCGTTGTAATGGACATTCCACACTCGTTGTTTGAGGAGAAGTTAGAA AAGCTCAAGAATTCAAAAGGTGTTAAACTCGACACTGATCTAACAGCCACTGATCTCAAAAATCTGGTTGAGCAGTACAA GAATGTCTACTTTGAAGCTAAGGGAGAGAAGTTTCCCTCAGATCCAAAGAAGCAGCTAGAGTTAGCTGTTAAAGCTGTTT TTAACTCTTGGGATAGCCCAAGGGCTATTAAGTACCGAAGCATTAATCAGATAACAGGGCTAATGGGAACTGCAGTGAAC ATTCAATCCATGGTATTTGGTAATATGGGGAATACTTCCGGAACTGGTGTTCTATTCACTAGAAATCCAAGCACTGGGGA AAATAAACTTTATGGAGAGTTTCTGATCAATGCTCAGGGAGAGGATGTAGTTGCTGGAATCAGAACACCTCAAGATTTGG AGACCATGAGAACTTGCATGCCAGAAGCTTACAAGGAACTTGTGGAGAACTGTGAAATTCTAGAGAAACATTACAAGGAT ATGATGGATATTGAGTTCACTGTTCAAGAAAACAGGCTGTGGATGTTGCAATGTAGAACTGGAAAGCGTACCGGTAAAGG TGCAGTGAAAATAGCTGTAGATATGGTTAAGGAGGGACTTGTTGATACTCGTTCCGCCATCAAGATGGTAGAGCCACAAC ATCTGGATCAGCTACTTCACCCACAGTTTGAGGATCCATCTACTTACAAGGACAAAGTGATTGCCACTGGCTTGCCTGCA TCCCCTGGAGCTGCAATAGGGCAAGTTGTGTTCACAGCTCATGATGCTGAAGAATGGCACGCACAAGGAAAAAATGCCAT CTTGGTGAGGACAGAGACAAGTCCAGAGGACATTGGGGGTATGCATGCAGCTGCTGGAATTTTGACAGCTAGAGGTGGTA TGACTTCTCATGCTGCTGTCGTAGCGCGTGGATGGGGAAAGTGTTGTGTTTCTGGCTGCTCTGATATCCAAGTAAATGAT GTTGAGAAGGTGGTTGTAATCGGGGGTAAGATGATAACGGAAGGCGATTGGCTCTCGCTGAATGGATCCACAGGTGAGGT GATACTGGGAAAGCAAGCACTTTCTCCTCCTGCTCTAAGTGAAGATTTGGAAACTTTCATGTCTTGGGCTGATGAAATAA GAAATCTGAAGGTTTTGGCAAATGCTGACACACCTGAAGATGCTCTAGCTGCAAGAAAAAATGGTGCACAAGGGATTGGA CTTTGCAGGACAGAACACATGTTTTTTGCTTCAGATGAAAGGATAAAGGCTGTGAGAAGGATGATAATGGCCGTTACGCC GGAGCAGAGGAAAGCTGCACTAGACTTGTTGCTACCATATCAGAGATCAGATTTTGAGGGAATCTTTCGTGCAATGGATG GCCTCCCAGTGACAATCCGATTGTTAGATCCTCCACTTCATGAATTTCTTCCAGAAGGTGACTTGGAGCATATTGTGAGT GAACTAACTTCCCAAACAGGCATGAAAGAAGAAGAAATCTTCTCAAGGATTGAAAAACTATCAGAAGTGAATCCCATGCT CGGTTTTCGTGGCTGCAGGCTAGGAATCTCATACCCAGAATTGACTGAGATGCAGGCCCGTGCAATTTTTCAGGCTGCTG TTTCAATAAGTAACCATGGTATTACAGTTCTTCCTGAGATCATGGTTCCACTTATCGGTACACCTCAGGAATTAAGGCAT CAAGTGAGCGTAATCAGAAATGTTGCTGAGAAAGTGTTCTCTGAGATGGGTTCCTCTCTAAGCTATAAGGTTGGAACTAT GATTGAAGTTCCAAGAGCTGCGCTTGTTGCAGATGAGATTGCAAAGGAGGCAGAGTTCTTTTCATTTGGAACCAATGACC TTACTCAGATGACATTTGGATACAGTAGAGATGATGTTGGCAAATTTCTTCCTATATACCTAGCCAACGGGATTTTGCAG CATGATCCATTTGAGGTAATTGACCAGAAAGGTGTGGGTCAACTCATCAAACTTTGCACAGAAAAGGGTCGTGCCGCAAG ACCAAAATTAAAGATTGGAGTATGTGGAGAGCATGGTGGGGAACCTTCTTCTGTTGCATTCTTTGCTCAACTTGGGCTTG ACTATGTATCATGTTCTCCTTTTAGGGTTCCAATTGCTAGGCTAGCGGCAGCTCAAGTAGAAGTTTAA
Protein sequence (LotjaGi4g1v0348600.1) extracted from Lotus japonicus Gifu v1.2 Proteins.
MSSIVKGTLLRTTPDLSNNNGILNGNKHVPQIGGRRATKLQWQDLQVRVKSNSIRGQAILNPATPPSATPSPSPPATPKA ITKRAFTFGKGKSEGNKAMKSLLGGKGANLAEMATIGLSVPPGLTISTEACQEYQDNGKKIPEGLWDEILEGLDFVENEM KAALGNPSKPLLVSVRSGAAISMPGMMDTVLNLGLNDEVVAGLAAKSGERFAYDSFRRFIDMFGGVVMDIPHSLFEEKLE KLKNSKGVKLDTDLTATDLKNLVEQYKNVYFEAKGEKFPSDPKKQLELAVKAVFNSWDSPRAIKYRSINQITGLMGTAVN IQSMVFGNMGNTSGTGVLFTRNPSTGENKLYGEFLINAQGEDVVAGIRTPQDLETMRTCMPEAYKELVENCEILEKHYKD MMDIEFTVQENRLWMLQCRTGKRTGKGAVKIAVDMVKEGLVDTRSAIKMVEPQHLDQLLHPQFEDPSTYKDKVIATGLPA SPGAAIGQVVFTAHDAEEWHAQGKNAILVRTETSPEDIGGMHAAAGILTARGGMTSHAAVVARGWGKCCVSGCSDIQVND VEKVVVIGGKMITEGDWLSLNGSTGEVILGKQALSPPALSEDLETFMSWADEIRNLKVLANADTPEDALAARKNGAQGIG LCRTEHMFFASDERIKAVRRMIMAVTPEQRKAALDLLLPYQRSDFEGIFRAMDGLPVTIRLLDPPLHEFLPEGDLEHIVS ELTSQTGMKEEEIFSRIEKLSEVNPMLGFRGCRLGISYPELTEMQARAIFQAAVSISNHGITVLPEIMVPLIGTPQELRH QVSVIRNVAEKVFSEMGSSLSYKVGTMIEVPRAALVADEIAKEAEFFSFGTNDLTQMTFGYSRDDVGKFLPIYLANGILQ HDPFEVIDQKGVGQLIKLCTEKGRAARPKLKIGVCGEHGGEPSSVAFFAQLGLDYVSCSPFRVPIARLAAAQVEV
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 |
---|---|---|---|---|---|---|
MobiDBLite | 54 | 79 | 26 | - | – | |
PANTHER | 76 | 953 | 878 | 0.0 | ||
PANTHER | 76 | 953 | 878 | 0.0 | – | |
PIRSF | 81 | 955 | 875 | 0.0 | ||
TIGRFAM | 83 | 954 | 872 | 0.0 | ||
SUPERFAMILY | 93 | 461 | 369 | 2.47E-141 | – | |
Gene3D | 95 | 325 | 231 | 5.5E-103 | ||
Pfam | 101 | 373 | 273 | 1.4E-42 | ||
Gene3D | 194 | 278 | 85 | 5.5E-103 | – | |
Gene3D | 326 | 423 | 98 | 5.8E-42 | – | |
Pfam | 383 | 438 | 56 | 4.6E-13 | ||
Gene3D | 427 | 611 | 185 | 3.3E-81 | – | |
Gene3D | 465 | 589 | 125 | 3.3E-81 | – | |
SUPERFAMILY | 469 | 591 | 123 | 4.32E-38 | ||
Pfam | 504 | 585 | 82 | 3.8E-26 | ||
ProSitePatterns | 532 | 543 | 12 | - | ||
Pfam | 599 | 954 | 356 | 3.4E-105 | ||
SUPERFAMILY | 601 | 954 | 354 | 3.45E-127 | ||
Gene3D | 614 | 955 | 342 | 1.4E-162 | ||
ProSitePatterns | 845 | 863 | 19 | - |
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 | Catalytic activity | Catalysis of a biochemical reaction at physiological temperatures. In biologically catalyzed reactions, the reactants are known as substrates, and the catalysts are naturally occurring macromolecular substances known as enzymes. Enzymes possess specific binding sites for substrates, and are usually composed wholly or largely of protein, but RNA that has catalytic activity (ribozyme) is often also regarded as enzymatic. | ||
Molecular function | ATP binding | Interacting selectively and non-covalently with ATP, adenosine 5'-triphosphate, a universally important coenzyme and enzyme regulator. | ||
Biological process | Pyruvate metabolic process | The chemical reactions and pathways involving pyruvate, 2-oxopropanoate. | ||
Molecular function | Kinase activity | Catalysis of the transfer of a phosphate group, usually from ATP, to a substrate molecule. | ||
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). | ||
Molecular function | Pyruvate, phosphate dikinase activity | Catalysis of the reaction: ATP + phosphate + pyruvate = AMP + diphosphate + 2 H(+) + phosphoenolpyruvate. |
Expression pattern of LotjaGi4g1v0348600.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
Loading expression data from ljgea-geneid. Please wait…