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Field | Value |
---|---|
Gene ID | LotjaGi5g1v0294300 |
Transcript ID | LotjaGi5g1v0294300.1 |
Related isoforms 3 | |
Lotus japonicus genome version | Gifu v1.2 |
Description | Pyruvate kinase; TAIR: AT5G52920.1 plastidic pyruvate kinase beta subunit 1; Swiss-Prot: sp|Q9FLW9|PKP2_ARATH Plastidial pyruvate kinase 2; TrEMBL-Plants: tr|I1LDJ1|I1LDJ1_SOYBN Pyruvate kinase; Found in the gene: LotjaGi5g1v0294300 |
Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr5:61169609..61175690) extracted from Lotus japonicus Gifu genome v1.2.
GGTAGTTGTTTTTGTGTGTGTTTACAAGTATCATCTAAATGAGACAATATTGATTTTGAACTGAAAATATTCACATTATA GAATAAACTTTCAGCGGAGGTTTTTCCAATCCCAAAACTCGAACACGGGGGGACATAGGTGAGATGATGCTAATCCTAAT CCACGCATCAAACAAAAATTAAACCTACATGAAACCCAAAGCCAAAACGACGTCGTAGTTTATGGCCAATTGTTTCATTT TTCAAGTACAAAGTTTAAGGAATGCAATTCAACTGATTCGTGTGTTCGATACAAACGAAGACAAAGGTCTTGTGTTGTCT CTCAAACTTCATATTTGTCTCCGCCGAATTTACCGGCGATTTCTCCAAACCTACAAACTCGCCTTCTTCTTCTTCTTCTT CTTCTTCTTCTTCTTCCTCTTTTCAACCTCTCACCCTTTTCTCATTCTTCACACCACAACCTTCATCTCTCAACTCTCTC TGTTTCATATTTTCAACAATGGCTCAGGTGGTAGCCACTCGATCCATTCACACCTCTATCTCACACCCCACATCAGGATC TGCACACGACCGGGCTCAAACGTTGTTAAAGCCTCAAACCTTTGCTTCCAAACTGCTCTCGAACAATCCTGCCAAAGTTT GCTTCAGGAGCTGTAGCATTCATGCTAGCAAATCTGCACCCGCTGATGTTGTCCCCGTGTCACCCGATGATGATTCTAAG GTTCGTGTTTTTTTCCTTGTCTTATTGCAATGTTGTCTATATTGGTTGGTTGTTGAAAAAAATTTAATGGGGTGTGAGAA AATTTGATGTTTTGGGAGGGAACATGCTAGAGAGAGAAAAAATGTTGTAAGTCGTGACCCTTTTTGGTGTTGTGATGAAT AGATAGCGGAGGAGTTGCTGCACATGCGTGGTATGCAGCAACTTAGTGACACTACTGTTGGAATGTGGTCCAAGCCAATG TTCAGGAGAAAGACAAAGATTGTTTGTACTATTGGTCCTTCTACTGACACCAAGGAAATGATTTGGAAGCTAGCTGAGGC TGGGATGAATGTTGCTCGTTTGAATATGTCTCATGGAGATCATGCTTCTCATCAGAAAGTTATTGATTTGGTTAAGGAAT ATAATGCGCAATCCAAGGACAATGTAATTGCAATTATGCTTGACACCAAGGCAAGTTCTAAGTTCATTTTCTTTTAGTAT TTTCTAATTTGTTCATATCAAGGTTTTGAATTGCGGTCGCAGTAAATGGTGGGCGCGGTAATGGTGACGTGTCTCACAAC TGTCCTTCATATTGCAGAAAATTGTGAATAAATGTGTCTGTCTTTGGAAACCTACGCTGCCAAAATCACGGTTGCGGACT TTGATTTAAAACCATGGTTCAATGTTGTGTCAGTGGATAATTCATTTGTTTTTCCTTGTTTTCATAGGGTCCTGAGGTTA GGAGTGGCGATTTGGCTCAACCAGTTGAGTTAACAACTGGGCAGGAATTCACTTTTACTATCCAGAGGGGCGTGGGAACT GCAGATTGTGTTAGCGTAAACTATGATGATTTCGTCAATGATGTGGAAGCAGGGGACATGCTACTTGTTGATGGTATGGA CAACGGATCAGTTAAAATTTTCAAATTGTTGACGCGCGAACTTCTGACTCTTGATGTATGATGTAGGTGGTATGATGTCT TTGGTGGTGAAGTCTAAGACAGAGGATTCTGTGAAATGTGAAGTTATTGATGGAGGAGAGCTTAAGTCAAGGAGACATTT GAACGTTAGGGGAAAGAGTGCCACACTGCCTTCGATCACTGGTTAGATTTTGGATTATTATTTTCACCCTTGAGAAGTTT TATAATATTTTCTATCTCGTTTTGCTTGTTTATCCATGTTCGTGGGTATTGGTTGTTTCAAGGACTGATATTCATATGGA TTTACTGCAGAGAAGGATTGGGATGACATCAAATTTGGAGTCGATAATGAAGTTGACTTCTACGCTGTTTCCTTCGTCAA GGATGCACAAGTTGTTCATGAGCTGAAGAGTTATCTAAGAAGTAAATATTTAAAATACCTATAATTTCTTTAAATTAGTT CAGCTGATTAGTTTTTCTGATTTTTCAGAAATATGATCAATTTCATACTCATTACTGCAGGCCATGGTGCTGATATACAC GTCATTGTAAAGATTGAAAGTGCAGACTCTATACCAAACTTGCACTCAATTATTACAGCGTCTGATGGGGTGCTAACCTA ATCCTGAATTATTTATTTATAGTTATGAATTTTGACCTGATTTTGGGGCATAAGGATTATTAGCACATATTATAAAAACA GAAAGCTTATGTTTTTAATTAATTTTTATGGATTTTGTTTGCGGACCACTTGTTCACTGATTGATTGGTGATATTGACAT GTCTTCTTTTGCCATCCTGTTTAGGCTATGGTTGCAAGAGGAGATCTTGGCGCAGAGCTTCCGATTGAGGAGGTTCCACT TTTGCAGGTACAAAATTGAGATTAATGGTATAGATAATTACTATTTGGTTTCTCTTCCCTAACTGTTGCCTCGGTTTGTG CTTTTGTTAACATTCACAATGCCTGCTAATCTAGGAAGAGATAATTAAGACATGCCGTAGCATGGGAAAGGCTGTTATTG TCGCGACAAATATGCTGGAAAGCATGATTGTTCACCCAACACCAACCAGAGCAGAGGTATCTGATATTGCAATTGCTGTT CGAGAAGGTTCTGATGGAATAATGCTATCTGGAGAAACTGCCCATGGAAAGTAAGTAACTAACTTCATGCCTCAAAGTGT CTAATTACCTTGACGGATCCATATTTCTCGTATTTGAGTTCTTACAAAGGAATGAAAATGGCACAACAAAATTGTTGCCT TAAATTTTAGTTTTAGTGAGGTGCATTGTTATTTTACATGCTCAAGTATCAATTTCTGGATACTCATCATATCAGACTAA CGGTAGCATCTTACTAACTTAGAAGACAAATCTAAAGCGAAGAGTATTCGCTGAATGTGACTAAAATATATTTATTATAA TGCAGATTCCCACTAAAAGCTGTGAAAGTAATGCACACAGTAGCGTTACGAACAGAAGCCAGTATACCAGGTGGGCAAAT GCCTCCTAATATTGGTCAAGTATTCAAGGTTTGAACTTTAAGCTTAATGAGCATTTATTGCCATGCTGACTTTTTTTAAT CATGGAACTCTCATTTTATTGTTGGCACTGAAATGTATGATTTGTTTTTGGTTGTTTAGAATCACATGAGTGAGATGTTT GCATACCATGCAACCATAATGTCTAATACCCTTGGAACCTCAACTGTTGTCTTCACAAGATCCGGTTTCATGGGTATCCT TCTAAGCCATTATCGACCTTCCGGCACCGTATTTGCGTTTACAGATAAGTAAGTTATTTTTTACCCTTCTCTTATTGATA AAAAAACTTCTTTTTAAATATAAGATGCTAGATAAGCATGAAAATAATTTAATTCGCAAATATGTAGGGTTACATTGTGT GAATATTTTCCCTTGATTATTATTTTTTAGGTTGGATAAACTGATTGATTGGTGACTTTATAACCCAATGATCTGATTGC TTTTATTGAAGTTTGTATTCATTGAAATCCGTTTTGTATTTATCTGCATTTATTAATCATGACAGCTCTGTTATCTACCT AATTTTGCTGATCATGCAGGAAGAGAGTACAACAGAGGTTGGCTTTGTATCAAGGAGTCTGTCCTATTTACATGGAATTC TCGGATGACGCCGAAGAGACTTTCTCAAGAGCCTTGGACTTGTTGCAGGTAATGTTTGGAGGATCTCTTTGATGATTGAG ATGATACATCGAACATTTCTAAGTTCTAACTAGATATGGATTAAAAATTCTAACAAGTTCTCTCATCATAGTACTTTTGG GGTTGGTTTTACATTCAAACATTTAACCATATCTTGGTATATTCAATCATGCAAAACTTTTACCATAAACCCTTGTGCTT TACACGAACTTCTTGCTAATGGTATAGAAGCAAAAGTTTCATCTTTTACTTAACAATGGAAATGTCAAATGAGTTCCACT AAAACTGAAATTTAGGACTGCATATTTTCGTGCATGTTTGGGTACACAGTGGAAAATCACTCTGATGCAAAAATCATTGG TGGACAATTTACAAAAGATAAGAGAAGTTGCTTTTGACCACTGTGATTTTGGTTTCACCATGGTTTTAACCATGTATACA AACATGCATCACAACTAGTGACAAGCCACAGGGTCAAATTGATTTTTATATGTATCGGTGAACTAGTATTCAATTTGAAC TGCAAAATTTGGTTGGTTAACTTTGTGGCTAGCGAGTGAAATTCTTTAACTCATCATTTTTTATGGCTAAATTTTGTTAG CTTAGGATGCCCAATTATTTTACAGGTTCTTCATTTTTTTAAACTCTTACGAATTGTTTGTCTCCCTGAGCAGAAGCATG GAATGGTTAAAGAAGGAGAAGAAGTAGCCATAGTACAGAGTGGGAGGCAACCCATATGGAGGATCCACTCAACTCACAAT ATCCAGGTCCGAACAGTGTGAACAGCAAGAAAGAGGCAGAGTAGCCACAAATTGAGTTTGAGCCTTTAATTTTAGAATAG CACCATATTCCTTTGTGGTAGGTTGATTCCAATCTTGCATTTTGGCTAGTTGGTTCCCTCGTAGTTTGCATTTTTTCCTT CGTATATTGCTTTCATATGTCACCACAGTTTTTACTTTTATCTGTCTCAGTATTTAGCATGGATAGATGTTAGTACTCAG TAGTACATGTGATTGAAATTTTGATAAGAAATTGGATTTTTTTTGGGTCCAAATAAGAAATTGGAATGAGGAACGATTTC AGCCTTATCTTGGTCATTGAGTTGTTACATTTATGTCACATTATATGGTTCATCATTATATGTATGGTACTATCGCAATT CTATAAATGATCAGCATTAGTTAACATACCATAACTCCTGCACAATATCAGCATGTAATCATGGATGCACTGGCACATAT CCAACTAATTATTGCACAATGCAAGTGTTGTACCACGAGCTACACGAATGAATTAATTAAGCTGGTGGCCAAAGGGAGGG CCACTTGCTTTTTGTTAATTAATTTCTTTATTTCTCTTTTGATGGTACAATTGACTAGTTGCTTACCTTAGTTATTTTAT TATTTCTGAGTTTTCATTATTGTACGGTAACACTATATGGTTGCTTGAGTGGATTCTTATTTTAGTCTTATGTTTTAAGA GTGTTCATATTAGTCCATAAACTAAATAAAATGGCAATTAAACTTGATCAATTGAAGGGTCAGGGACTCAGGGTCACTGA TTTTAAAATCTACTTCTGCTAATGTTAACGAATTGAATGATGTGGTAGGTTAAATACCACCTAGTCATCTCATGTGGTAT CATTTAACATAGGGTTTACTTTTGATAGTAAATACTAAAATACTAAATACTCTCCACACCACCTGATTTTTTCGTATTCT CCAAATACACATTGGTTCAAAAGTGTGATTTTGGTCTTAAAATTAAAACGAAGCCAACACTCAACCCTACGAGGCCAGGC TGAGAAAAAAAGAATTCCAGACTCGGTCTTCTGGACATCATAGTGAACATCCACTGACTTGCATATCCACGACCTTTTAT GCCTGACCAATCGCCCTATCCCACTCAATAGAACATGGATATAGGATGGATATAGGGCAAGCAGTAAGAAAACAGGTTGA TCAATTCAAACTTCCAAGAGATGTCGGTCTTTCATTGATCTTTATTCTTTCGAATGTGCCCTTGCATGAGTTGGTTGGTT GCCTGAAAGAAACCTTGTAAGTTTCCAAAATCTGCTTGGCTCAAGCTTCATGCTCACAACCAACGTCAACTATATTGAGA GTCTTAAGTATTAAGCCACTAGGACACCGAGTCTTAAGTATTGAACTATTGAAGCGAAGTGTGTCTTTTAAGCTTCCTCA AATGTATGTTCCTCGACGTTTGAGGAAGTTACCACAATCTGCTTGGCTCAAGCTTCATGCTCACCAACAGAGCCAGTTAT AG
CDS sequence (LotjaGi5g1v0294300.1) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGCTACTTGTTGATGGTGGTATGATGTCTTTGGTGGTGAAGTCTAAGACAGAGGATTCTGTGAAATGTGAAGTTATTGA TGGAGGAGAGCTTAAGTCAAGGAGACATTTGAACGTTAGGGGAAAGAGTGCCACACTGCCTTCGATCACTGAGAAGGATT GGGATGACATCAAATTTGGAGTCGATAATGAAGTTGACTTCTACGCTGTTTCCTTCGTCAAGGATGCACAAGTTGTTCAT GAGCTGAAGAGTTATCTAAGAAGCCATGGTGCTGATATACACGTCATTGTAAAGATTGAAAGTGCAGACTCTATACCAAA CTTGCACTCAATTATTACAGCGTCTGATGGGGCTATGGTTGCAAGAGGAGATCTTGGCGCAGAGCTTCCGATTGAGGAGG TTCCACTTTTGCAGGAAGAGATAATTAAGACATGCCGTAGCATGGGAAAGGCTGTTATTGTCGCGACAAATATGCTGGAA AGCATGATTGTTCACCCAACACCAACCAGAGCAGAGGTATCTGATATTGCAATTGCTGTTCGAGAAGGTTCTGATGGAAT AATGCTATCTGGAGAAACTGCCCATGGAAAATTCCCACTAAAAGCTGTGAAAGTAATGCACACAGTAGCGTTACGAACAG AAGCCAGTATACCAGGTGGGCAAATGCCTCCTAATATTGGTCAAGTATTCAAGAATCACATGAGTGAGATGTTTGCATAC CATGCAACCATAATGTCTAATACCCTTGGAACCTCAACTGTTGTCTTCACAAGATCCGGTTTCATGGGTATCCTTCTAAG CCATTATCGACCTTCCGGCACCGTATTTGCGTTTACAGATAAGAAGAGAGTACAACAGAGGTTGGCTTTGTATCAAGGAG TCTGTCCTATTTACATGGAATTCTCGGATGACGCCGAAGAGACTTTCTCAAGAGCCTTGGACTTGTTGCAGAAGCATGGA ATGGTTAAAGAAGGAGAAGAAGTAGCCATAGTACAGAGTGGGAGGCAACCCATATGGAGGATCCACTCAACTCACAATAT CCAGGTCCGAACAGTGTGA
Protein sequence (LotjaGi5g1v0294300.1) extracted from Lotus japonicus Gifu v1.2 Proteins.
MLLVDGGMMSLVVKSKTEDSVKCEVIDGGELKSRRHLNVRGKSATLPSITEKDWDDIKFGVDNEVDFYAVSFVKDAQVVH ELKSYLRSHGADIHVIVKIESADSIPNLHSIITASDGAMVARGDLGAELPIEEVPLLQEEIIKTCRSMGKAVIVATNMLE SMIVHPTPTRAEVSDIAIAVREGSDGIMLSGETAHGKFPLKAVKVMHTVALRTEASIPGGQMPPNIGQVFKNHMSEMFAY HATIMSNTLGTSTVVFTRSGFMGILLSHYRPSGTVFAFTDKKRVQQRLALYQGVCPIYMEFSDDAEETFSRALDLLQKHG MVKEGEEVAIVQSGRQPIWRIHSTHNIQVRTV
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 | 1 | 352 | 352 | 2.2E-236 | – | |
PANTHER | 1 | 352 | 352 | 2.2E-236 | ||
Gene3D | 2 | 46 | 45 | 1.1E-115 | ||
Pfam | 2 | 218 | 217 | 1.4E-77 | ||
SUPERFAMILY | 2 | 43 | 42 | 2.09E-7 | ||
TIGRFAM | 2 | 352 | 351 | 1.0E-109 | ||
SUPERFAMILY | 35 | 217 | 183 | 6.63E-67 | ||
Gene3D | 47 | 222 | 176 | 1.1E-115 | ||
PRINTS | 65 | 79 | 15 | 1.8E-52 | ||
ProSitePatterns | 93 | 105 | 13 | - | ||
PRINTS | 95 | 121 | 27 | 1.8E-52 | ||
PRINTS | 122 | 146 | 25 | 1.8E-52 | ||
PRINTS | 147 | 171 | 25 | 1.8E-52 | ||
PRINTS | 172 | 190 | 19 | 1.8E-52 | ||
PRINTS | 191 | 207 | 17 | 1.8E-52 | ||
SUPERFAMILY | 201 | 352 | 152 | 1.98E-30 | ||
Gene3D | 223 | 328 | 106 | 1.1E-115 | ||
Pfam | 245 | 333 | 89 | 6.6E-16 |
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 | Magnesium ion binding | Interacting selectively and non-covalently with magnesium (Mg) ions. | ||
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 | Pyruvate kinase activity | Catalysis of the reaction: ATP + pyruvate = ADP + phosphoenolpyruvate. | ||
Biological process | Glycolytic process | The chemical reactions and pathways resulting in the breakdown of a carbohydrate into pyruvate, with the concomitant production of a small amount of ATP and the reduction of NAD(P) to NAD(P)H. Glycolysis begins with the metabolism of a carbohydrate to generate products that can enter the pathway and ends with the production of pyruvate. Pyruvate may be converted to acetyl-coenzyme A, ethanol, lactate, or other small molecules. | ||
Molecular function | Potassium ion binding | Interacting selectively and non-covalently with potassium (K+) ions. |
Expression pattern of LotjaGi5g1v0294300.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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