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| Field | Value |
|---|---|
| Gene ID | LotjaGi1g1v0013000 |
| Transcript ID | LotjaGi1g1v0013000.1 |
| Related isoforms 2 | |
| Lotus japonicus genome version | Gifu v1.2 |
| Description | Fructose-bisphosphate aldolase; TAIR: AT4G26530.1 Aldolase superfamily protein; Swiss-Prot: sp|P46256|ALF1_PEA Fructose-bisphosphate aldolase, cytoplasmic isozyme 1; TrEMBL-Plants: tr|I1M6D5|I1M6D5_SOYBN Fructose-bisphosphate aldolase; Found in the gene: LotjaGi1g1v0013000 |
| Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr1:1656984..1667970) extracted from Lotus japonicus Gifu genome v1.2.
GATATATGAAATCACTTTTTCACATTTTCAATTCAAATCTACTAACATAAATCATTCCACTAATCATTCAGGAAGTAAAT AAAATTTATCCATCTTTTGTTCCTCAAAATCCTGAGCTTACACATTTGTAGAATTGCAAAAAAAATCAACACTGTGTCTC CTAATTTCAGCCGAAAATCAAGGCATAATTTCTATTTCTCAATGAAATCCATGTCAGAGAATATAAATGGCAAAGAAAGA TCATCACTGTAAAAAAAAATTAGGGATTGATCAAATTGATTGATTTGATTACTGCACCAATAAGAACCCTCTCTCACACC ACTCTGCTACATATACATACATACATTGCCCCCTTTTCTTCCTTCTTCTTCTTCCTCTCTCTCCCTGTTCATTCACCAGG TACGTTTTCCAATCACCATTCTCTTTTTCATTCCTCACACCATCACCATTTGATTTGGATCTGGAATTTTCCTATAAAAA ATTTGTCTTTATTTCGATTGAACTCAACGGCTATTATTATTAACATTCAACTGTCAAAATCTCTCCTTCTTCTTCTTCAC CGCCATTTGTTGTTGTTATTCTAACAATGGTGAAGAAACAAGATCAAATCATACATAACAGGGAAAATAAAATTGGAAAA TTGGAAAAAAATGAATTTTTTATGCTTTACTTGATCTGTGTTCAGCATTTTGTTACTAGAAGTAATTAAAAAGAGTTGGA ATGATTTGCTTGAACATGAGCCAATGAATCAGACACAATTGCAATGCTATGTGTTTGTTTGTTTGTTTGTTTGTTTGTTG TTATTGATGATTGATTGGTCTGTTTGTGAATTTTGAACATCAGTTGTGGATTTGATGGGGTCTGCTTCTGAGGTTCATTT TTCTGGATTTCACATTGATGATGGATTGGAGAGAAGAAAGGGTGGCGCCGAGCAACCGACTACTTCGGCAACTGACATGT ATAAACAGCCTTTTGTCATAGGTGAGTGTTTATTTTCTCTGCATCACAAGCTGCCAATGTAGTTGTCATGAAGATTACCT TTCTGTCTGTTTATGTTCTGGAACTCAATGGTGGTGCATTTACTTTGTCTCGGGTATGCTCTCATGTATATTAAAAGGAC ACTAAATATAGGAAAGATATTTATCCATACTCATTCCACCTCCACCTCTAAGGAGAGAGATTATGAATATAAGATGCATG AGTGACAAATATAATGAGGGATATGATAGGAAAAGAAGAGGGAGATACGGAGAAAAATTCAGTAGAAATGAGATGGAAGT GTGTGTCTCTGTCAATATATGAAAGTTGCTAAATATGCTTGTCTTACTGGTTTGGATGTTTGTGGATTTCACTGTTCTGC TGTGGCAGAGAAAATGTCAGTAGCCTTGTTTTTTTTTTCTTCACTCCTCACTCTTGGATGCGGTTCAAATGAGCCATTAG CTTTTTTGTTTCAGCGTACACGAACAAACTTACCATTGAAGACTATCTGAATTTAACGCAATTTTGTATTGGTTGGAGCA ATGGAATTTCTTTAAACTAGAGCTTAGCTCCACTAGAAATAACCTGCTCAGAATTCATACGTTCTGTGAGAAGAAGTCAC GGTCATCTTCTTGTGTAAACTTAGAAAAATTTCCATGAAATGTAAATACTTCTCATTTGATGTAATTTTTAATTATTTTT TTCGTTTGTGCATATTGCAGGTGTTGCTGGGGGAGCAGCGTCTGGCAAGACAGCAGTTTGTGATATGATTATTCAACAGC TTCATGATCAAAGAGTTGTACTTGTTAATCAGGTGATGAATTCTTTCTATAAATTTATTGATGGTGAAATTGTGAGCATG TATAGCAATTTAGACTCAGGAAGACATTGAGGATAAGTGAAGAACATTTAGTTTTACAGAAAACAGAACTAATAGTTAGT GCTCCAAGCCTTATAAGCATTCAGTTCCCACCTTAATCTTAATCCCCTTGGTTTTGTATGGTTTTATTTCCTTATATCTG AAGAATCTATTGGAATGATCCTATCCTATCAGCTTTCTTTGGTATTTTCATGGTAACATTGACACTTTGTTAGCTACCAT TTATAACACCAAAATTCCTACACTTTTCTGTTTATTTACTCAATTAGATTTAGTATTCTGGCGTTCTGACCTCCTCTGTT ATCATGAACGTATACGTGTTTCTCTCAATTTTCAAAATACCAAATTGCCAATAACTTTCTCTATCAAAAGAGGTCTACAT TTTGAAGATATGATGCACCGTTGTTTTGGTGATATAGAAAAAGATTTCTTACTCTCCATTTAATAAGTTGTTTGTCACAT TTTGCTTTTTCTATTTCGACTTTTGTCTTCTTTGATCGAAGTTTGTCACATTTCTTACTCTCCATTTTATAAATTCTGAT TGATGTTTCTTTATGTACTCATGACGATGATATGTTTAGCATAATGAAGGGTTTCGTTTATTTACAACAGGATTCTTTTT ACCATAGTTTGACTGAGGAGGAACTTACAAGAGTACAAGATTACAACTTTGATCATCCTGGTCAGTTCAAGTGTACTCAT TGGTCTCTCATTATTAGTGACTGACTTTGTATTGATATCGTGAGAATTTTTTTAAAGGTTGAATTTGTGTTCCGTTTCAA TGATGTGACTCAATTACCTAGCTAGGAAAATGAGTAGCTCAAGCCACACAGTAGTATATAATACACCTGAAATGTGATAA GGCTTTAATCTGGAAAATTTGACAATTGGATTTTCCTAATGCAAACACAAATGGTGGTTCTTGTACTGTGTAGCTCCTTG CGCTAACTCTAATAAATGTTGCTGATATCCTCAGAAGCTTTTGATACTCAACAATTGCTATGCGTCCTGGACAAGTTGAA GCGTGGCCAAGCAGTAGATATACCGAAGTATGACTTCAAGGGTTATAAGAATGATGTGTTTCCAGCAAGAAGGGTATCTT GAATTTTCATTCTATTCATAATTTTATTCCTTTTTCTCAAGATGCATAAAGGCCAAGATTGAAATGGCCTTCTTTTTTCG AGTTTTTTATTATTATGCTAAACATTACTCCCTCCGTCCCCATATATAAGTCACTTTTTTAGAGTTTTTTTAGTCCCAAT ATATAAGTCACTTTATAATACCAATGAAGCATTTAATACATTTTTTCCAAACTTACCCTCATATTTAATATGAAAGAGGT AATGTAGTTTTGAAAAGAAATTAATTTGGAGAGAGAAGCTGATGGGTAATCTAGGAAACTCAATAAAACTTTTTACAAAT TTAATGCTAACAACATCTTTTCTTAATCCTAGAGAATTAGGTAAAAGTGACTTATAAATGGGGACGGAGGGAGTAGTTTT TTATTGCAAAGAGAAAGTCTAAAATATATTTACATGATAATGGTTTTCAAATTCGGATTTGAATGATTTGGTGCACTAAT GATTACCAAATCATGCAATTCATGATTCTTCTGGCTATTCTCTCCACCAGAAGGCAAATATATCTGGAATTAGATTTTAG TCATGCTTCCACTTTATGTTGGTTTAATTTGTTCAATTTTTTTTCAGTTAAACCCTGCGGATGTAATAATTTTGGAAGGC ATCCTGGTTTTCCATGATCCTCGTGTCCGAGCATTGATGAATATGAAGATATTTGTTGACACAGGTCGCTTGTTATTTTT GTTCCCATTTAACTTGTATATCTTATTATGTTGTATGCTTTCTGTGGTATTTCTTATTCATATTGGATCTGTTGTCTTTT TCATTTTCCTTTTGATCTCATGGTCTTTTATTTCTTCATAATTCACATTGTGATAGAGGAAAATAAATGTTCTTCTTCAG GTGCTAGTGATGCTATATGTTCATTGTTTCCCCCCACATTTATTGGCTCCTTTATATTAGCAGTTCCCTATATCTTGCCT TCTAGTTATTTCATAAGCTTGTACATTTTTTGTCTTTGTTGCTCAACTAAGTTAGGCTGTCACTTTACATTGTAAAATGT CCAGTGCAGATGCTGATGTTCGTCTGGCAAGAAGGATTAAGCGTGATACAGCTGTGAATTCTCGCGATATTGGAGCGGTC CTTGATCAGGTAGCAACTTTCAACCGCACTACTTTCACCGTCTTTCCCCTCATATTTCCTACATTCACTGCATTTCAAGG CTTGGAAATGTCATTTTAGTTCATGCTGCTGATCATTTATTATGCAAGTACCTTGATTAGGAAACCTGTCATTATTCAGT TTTTATAGAATTAAATCTTCAGGGATTTATGTGTCATGTATGTGCTTATGATAGTACTGATTAAACTAATGTATTCTATG TTTGTTTTTTTACTACATTTTAGTAGCTGATTTTTCTGTTACATATTGGTTGCAGTATTCTAAATTTGTGAAGCCAGCTT TTGATGACTTTATCCTTCCAACAAAGAAGTATGCAGATATCATTATACCCCGTGGAGGAGATAATCATGTGGCTATTGAT TTGATTGTACAACACATTCGTACAAAGCTTGGTCAGCATGACCTGTGTAAAATATATCCTAATTTATATGTCATTCAGTC TACTTTTCAGGTACCCCTTTATTGCTGGTTATCTCCTTTCATCTAAAGCTAAAAAATATGTTTGCTACTGAAAGTTGAAT AGTAACTGTAATTGCTGCTATACAGATACGGGGTATGCATACCCTGATACGTGATTCTCAGACAACGAAGCATGACTTTG TATTTTATGCTGACCGTTTGATTCGTTTGGTATGTGAATAAGGTTCCTTTGTTGCTTTTTGATTTTAGTGGTGGTATGAC ACTTTCTTAGTAGTTTTCACAACAATTTCCTCACTTGACCAGGTTGTAGAACATGGGCTCGGGCATCTTCCATTTACAGA AAAACAAGTAATCACCCCTACTGGTAAGCTGTTCTCTTCTAAAATGATAATTATCCTGGTTTGTATTATTTGTATCTCTA AGGGTGCATCATTCTCTGGCATATTATTGTACTTGAAAGACATGTTCAATGTTTTGTTGTTCATGGTGTTAATTGCTGTA ATTGTGATACTAACAACTTCTCCATTTCTTTCTTCCTTTGTGTTGCTGATATTCTTGTTCAGATATTTACACAATAGAAT TAGTTGTTTCATGCCTGATCCTTTTTATGGTAACAGCTGATTCTTGTCCTTCAATGCAGGGTCTGTATACAGTGGTGTGG ATTTTTGTAAGAGATTGTGTGGTGTCTCCATCATCAGGAGGTATTGGTCTATTCAAAAGCAGAAGTCACTGGAGCAAATG ATTAAACATTGGCATCTTTGCTTCAAACTAGCAACTAAAAGATTTTCTCTGAAACCTCATTAAACAATTCCATAACTAAA GAGAAAGATCTATTACGGGTTAAGGTTTAGAATCGTCAAAATTTTTAGATTTCATATAGTGGTAATTGTTTTCCTATAAA CTATTATCTAAATCCATCCCCCATCATACTTTAAGAGACTAGTTCTTTTTTCCTTACTATAGCCGGTTTGATGTGAACCT ATGATCACTGCATTTTTTTTAAATAAATGCAATGCATTGGAAAGAATACTCTGTCCTTAAATTTGATACATTATCTAATT TCAGTGGGGAAAGCATGGAAAATGCTTTACGAGCCTGCTGCAAAGGTATCAAGATTGGGAAAATTCTTATTCATAGAGAA GGTGACAATGGTCAGCAGGTTTGTCATCTGCATGTATGCTTGAGTATATATCTGTGTTTGTTTCATTTATCAATATCTAA CTTATCCTTTGATTATTGAGCAGCTAATATATGAGAAGTTGCCTAATGACATCTCAGATAGGCATGTGTTACTGTTGGAT CCCATCTTAGGAACAGGTTTATATATTTTACATTAAGAGTGAACTGAGAACTTGATATTTGATTTTTTGGTTTTAGTTTA GATTAACCTTAGACTATCTTCATCTTTAGGTAATTCGGCTGTTCAAGCAATTTCTTTACTTCTACAGAAGGGTGTACCTG AGTCCAACATTATATTTCTCAATCTCATATCTGTAAGTTACTGATATAATTATTACCTCTGTATATCTTGCCATTTTCAT TATTTTCTGTTGCTTCTTTATCTGTATCCGATGCTGATGATGTTCTATATGTGGTCGCATCTTGCCAGGCACCTCAAGGT TTGCATATGGTCTGCAAAAGCTTTCCGAGGATAAAAATTGTGACATCTGAGATTGACACCGGTTTGAATGAAGATTTCCG CGTCGTACCTGGGATGGGTGAGTTTGGGGATAGGTACTTTGGAACAGATGATGATGACCAGCTGGTGGTGGCTCCTTCTC AGCAGTGAAACTTGAGCAGGATCCAACATATTTTTGGCTGATCATTGTAAACGTGATTTGGACTGGAAAGAAAAGTTGAA CATTGCTGAATTAAGACTCTGCTGGGTCTTGAGTTATAGTTTTAATTCAATTTTGATCATAACCCATGTTTTGTTTTACA AACGGAAGCATAATGGAAATGCTCCAATGCAAATTTTATCTTTTATTATTATACCAGAATTTTTGTTTGAATTCATTCTT TGCTGAAACGGGCTTATCATAATACATGTTCACTGAGCCCCGAGATTTTGACTTTATATATAGAAATGAATATACAAAAG CTCTTGAATTTATTTTATGATGAGTACACAATTTCTTTGATAACTAAATTTCTGTAAGTTTCTGTGTGTACAAGTTTCTC TTCTGTCTTGCCTTACAGTCTATGAAGGTTTCAAGGATGAAATGCACGTGACGTAGCTTGAGGATTGGACTTAATTCTGA AAATAGACAAAATGACAATAATTAAATAATGTGGCTGAGGCAGAGTTCTGCAAACAATCCACATAGTAGATATCTTGATG AAAATATCAGTAGACAATCCATCGGCTGCATACAACGAAAGGTAAGACATAAAAAGAAAAGCAAAAAATATATTAAGTAA TGTGACATGAATTTTTTTTTAGGCTTTTGAAGTCTTTACTGCATATTTAGAAATTCTTTTACAATTGATTTTGACGATAT AACCAATTATGAGAAGAAGTTTCTATGAGTAATTTTTAAATGTTAAAATTGATTTTGAAGAAAGAGAAATTGATTTAGAT ATTGATATTAAGAGTGAACCAAGTCCAAGAGGATGATGGGTGTGAGCTTCCACAAAATTTCATTTTTATCTGTAATTAGG TGACTGGAATATATTATTTGAAATGGCTGAATTGCCACTTGGCAAGGAGAAGAGAAGGATCACTCATTGCTCTATCCAAG AGGGATAACCTTCGTTAGGCTAATCCCAGGACACGTGTGTTTCTATTTGCATGGGCTGGGTAGAACGTCTTGGTATATTC CATTGAGAGATTTATCTATATAGCTTTGGTCCTGGCTAAACTCAGTTTTCGTGCTGTCGTCTGTTATCTGCTTCCCGCCA TCCAATACCTTTTGAACCATGTCTGCCTTTGTTGGAAAGTATGCAGGTAACCTTTTCTCCCCTCTACTTTCTCACCCACA CTACATACATACATGTATACAATATAAGAAAAATGATTTGTAGACATCCTCATTCTGCATGCATACACATCGCACAACTA GAATGAGAAAGTATAAGAATAAAAAGAAGTAATAGACGTGATATATGATTTGATATGATAAAATAATAGATAGAGAGAAA GACATGGTGTGTGTGAAGTGTCAGTCTGTTTAGATGTTTTAAGTATCGTTACTTTGAAAAACAATGAGTTATTGAACTAC AAGCCTTGTCAAATTTTCCACAATAAAGCTTTGTTTAACAACAAAAGAGTAGCTTAGGAATGTAGCATAAACTCATTTGT TATTCATAAGTGTCATCTCTTGAAGGTTTTCATGTCTAAGAAGCACGCTCAACTTCAATCTTCATCAAGTTTATGACTTA AGGCAATAATAATAACTCTGACACTTAGGTTTCTGAATGGGGTGTTATACAAGAAACTAGCAGCCTAGAATGCATCATAA ACTCATTTGTTACTCATAAGTGCCAAACCATAAAGGTTTTCATGTCTAAGAAGCTCCATCAACTTCAATCTTCATCAAGT ATATGACTTATGCAATCATAATAACTCTTACACTTTGGTTCACAAACGGGGTGTTATAATATTTTATCCAGATGAGCTTA TAAAGAATGCCAAGTACATAGCCACCCCTGGCAAGGGAATCTTGGCAGCAGATGAGAGCACAGGCACCATTGGCAAGCGT CTAGCCAGCATCAATGTGGAGAACATTGAGGCCAATCGCCAAGCACTGCGTGAGCTTCTCTTCACTTCCCCTGGTGCCCT GCAGTACCTCTCTGGTGTCATCCTCTTTGAGGAAACTCTCTACCAGAACAGCTCTGAGGGAAAGCCTTTTGTTGAGTTTC TCCAGGAGAACAATGTCATCCCAGGCATCAAAGTGGACAAGGGTGTTGTTGAATTGGCTGGAACAAATGGCGGTGAGACT CTTGAAATAATGGCATTCAAGTTTTATTGATATTCATTATTTTTCCATTTATAGTCATTACAAATTGATTGATACTCATT CACAATTCATAAGAAGAATTACGTTCACTTTTATCTTATCTTAAAGTGTGTTGTGTATACTTACGAATAAGAGAGTTTTT TTTGCAACAATAGGGATAGAAATATAGAATTATATTACTTCATTTCATACTTCTTCATCTTGATCTTGGTCGTTTTCTAT TCCTACTTCATTCCATTCATTTTTTGGCCAACTATTTTGTAAGGTTTCAAACTCCTATTTTTGAGTGCATGAGTTCAGAA ACTCCTGATCTTTGAGTAGGAGTGGCTGTGTTAACTTCGAAGAAAAGACATATCAAGTTGCACTATTGGTTGTGGAAATT TTTGCTTTTAAGGACCGTTCACAACCATTATTCCATCAATCTGATCATATTTTTTCTAACAGAGACCACCACACAAGGCT TTGACTCTCTTGGAGCAAGGTGCCAGCAGTATTACAAGGCTGGTGCAAGGTTTGCCAAGTGGCGCGCGGTGCTCAAGATT GGGCCCACTGAGCCCTCTGAGCTGTCCATCCAGCAGAATGCTCAGGGCTTGGCCCGCTATGCCATCATTTGCCAGGAGAA TGGGCTTGTGCCCATTGTTGAGCCTGAGATTTTAACTGATGGGGATCATGACATTGCCAAATGTGCTGCTGTTACTGAAA CTGTGCTTGCAGCTGTTTACAAGGCCCTGAATGAGCAGCATGTTCTTCTTGAAGGAACCCTTCTCAAGCCCAACATGGTT ACCCCTGGCTCTGATAGCCCAAAGGTAATAGTTTAAAAATGATTGCAGCAAAAAAATGGACCTGAAGCATACTTAGCAAT ACTTCCATTGGTTCCATGTTACACACACATCCACATGTTTGCATTCAGTTATTGAATAAAGTTCCTCAACCTGAGATTCT TATTGATGGCAGATAAAATAGGACTAATAAGAGGGATGGAGTATGGGAAAAAAAATTATTCACACTCAAATTCCGCTTCC ACCACCTTAGAGAGAATAGGAATAGACGAGACATAGGTGAGAGATGTGATAGAAAAAATATAGAGATAAAAAGTATAAGT GGGTGAAAATATGATGGAAAAGAAAGTGAGTGTGTCCATATCAAACTATGTTTAGATATCTATTGGCTCTGGTGTAAATG GACGTTAGCCCACTGATAGGATTGCATATCACTTGGGTTGTTAGTGAGTTAGTCACGTGGGTTGTTAGTCTTAAAGGGAA GCCTATGTATAAGAAAGGGTTAGAGAACATTAGTCATCTGGTTATTCATTTTGGGAATTGGGTTCTTGAGAGAGAAGTGG TTCTCTCTTGGGTTAGGGAAGGCGTTTGGTATCCTTCCTTGTATCTTTCCCCTAATCCCCAATTGGGAATTAGGGTTCTT CTATCAATAAACTACTGCTGATTTTGTGAGTTCTATCAAGACAACATAGAATGTTGTAATATCATGTTGGGATCAACTAC TCTTTCATCAGAATCAATTATGAAACCCAAAAGCTACCCATAGAAGCTTCTTCCAAGAACTGATTCAGACTTCTTAATCA ATTGTAACCATAAAAGTTTCCATACATGCATTTACTGTGTGTTTGAATACCGATTGAATACAATATGAATGAATTTCCAT CTCAATCTATAACCACAAGAAGAGTTTTGTTCACTTTCTGTCTTGAAATGTGTGCCAATGTCTGTTTGCTCAGAATCCAA CAAATATCCAAACATAGCTTTATGGATTGGAATGTAGATCCATTCCCATTGCACTCACTCAGCTGCAGTAAAAGTTGATG AAGGTATAGTGTCATGTCATTAACTTGTAAAAGAAAATAAAAATGAACTTTTGTGCAGGTAACTCCTGAGGTGATTGCTG AACACACAGTCACTGCACTCCGCAGAACTGTCCCAGCTGCAGTGCCAGGGATTGTGTTTCTGTCTGGTGGACAGAGTGAA GAACAAGCCACTCTCAATCTCAATGCAATGAACAAGCTGGAGGTGTTGAAGCCATGGGCCCTCTCATTCTCATTTGGGCG AGCACTGCAGCAAAGCACACTCAAGACATGGGCTGGGAAGAAAGAGAGTGTGACCAAAGCTCAAGAGGTATTTCTGGCAA GGTGCAAGGCCAATTCTGAGGCTACTCTTGGGAAGTATGGTGGTGGAAGTGGGAGTGGTTTGGCTTCTGAGAATTTGTAT GTCAAGGACTACAAGTATTAGGCTTCTAAATGAAGCTGGGGTGGGTGCATTTTAGTCCTATGTATGGTGCAGCATAAGCT TTTTCTTCTGATTAACATGCTTTATTTTGGGTACATATTCTTATAAAATACCACTTTATAACCTTATACTATAGGAGCTA ATTCTAATGTCAAATGATGATGGTGCCCCTATAGAGAATAACTGTTACATTGTGAAAATTTGCTCATTTAAATGGAGCCA TGAAGACAAATTTTTAGTACACCCGTG
CDS sequence (LotjaGi1g1v0013000.1) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGTCTGCCTTTGTTGGAAAGTATGCAGATGAGCTTATAAAGAATGCCAAGTACATAGCCACCCCTGGCAAGGGAATCTT GGCAGCAGATGAGAGCACAGGCACCATTGGCAAGCGTCTAGCCAGCATCAATGTGGAGAACATTGAGGCCAATCGCCAAG CACTGCGTGAGCTTCTCTTCACTTCCCCTGGTGCCCTGCAGTACCTCTCTGGTGTCATCCTCTTTGAGGAAACTCTCTAC CAGAACAGCTCTGAGGGAAAGCCTTTTGTTGAGTTTCTCCAGGAGAACAATGTCATCCCAGGCATCAAAGTGGACAAGGG TGTTGTTGAATTGGCTGGAACAAATGGCGAGACCACCACACAAGGCTTTGACTCTCTTGGAGCAAGGTGCCAGCAGTATT ACAAGGCTGGTGCAAGGTTTGCCAAGTGGCGCGCGGTGCTCAAGATTGGGCCCACTGAGCCCTCTGAGCTGTCCATCCAG CAGAATGCTCAGGGCTTGGCCCGCTATGCCATCATTTGCCAGGAGAATGGGCTTGTGCCCATTGTTGAGCCTGAGATTTT AACTGATGGGGATCATGACATTGCCAAATGTGCTGCTGTTACTGAAACTGTGCTTGCAGCTGTTTACAAGGCCCTGAATG AGCAGCATGTTCTTCTTGAAGGAACCCTTCTCAAGCCCAACATGGTTACCCCTGGCTCTGATAGCCCAAAGGTAACTCCT GAGGTGATTGCTGAACACACAGTCACTGCACTCCGCAGAACTGTCCCAGCTGCAGTGCCAGGGATTGTGTTTCTGTCTGG TGGACAGAGTGAAGAACAAGCCACTCTCAATCTCAATGCAATGAACAAGCTGGAGGTGTTGAAGCCATGGGCCCTCTCAT TCTCATTTGGGCGAGCACTGCAGCAAAGCACACTCAAGACATGGGCTGGGAAGAAAGAGAGTGTGACCAAAGCTCAAGAG GTATTTCTGGCAAGGTGCAAGGCCAATTCTGAGGCTACTCTTGGGAAGTATGGTGGTGGAAGTGGGAGTGGTTTGGCTTC TGAGAATTTGTATGTCAAGGACTACAAGTATTAG
Protein sequence (LotjaGi1g1v0013000.1) extracted from Lotus japonicus Gifu v1.2 Proteins.
MSAFVGKYADELIKNAKYIATPGKGILAADESTGTIGKRLASINVENIEANRQALRELLFTSPGALQYLSGVILFEETLY QNSSEGKPFVEFLQENNVIPGIKVDKGVVELAGTNGETTTQGFDSLGARCQQYYKAGARFAKWRAVLKIGPTEPSELSIQ QNAQGLARYAIICQENGLVPIVEPEILTDGDHDIAKCAAVTETVLAAVYKALNEQHVLLEGTLLKPNMVTPGSDSPKVTP EVIAEHTVTALRRTVPAAVPGIVFLSGGQSEEQATLNLNAMNKLEVLKPWALSFSFGRALQQSTLKTWAGKKESVTKAQE VFLARCKANSEATLGKYGGGSGSGLASENLYVKDYKY
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 | 357 | 357 | 3.1E-203 | – | |
| PANTHER | 1 | 357 | 357 | 3.1E-203 | – | |
| Gene3D | 2 | 357 | 356 | 7.9E-173 | ||
| SUPERFAMILY | 3 | 357 | 355 | 2.83E-149 | – | |
| CDD | 9 | 337 | 329 | 0.0 | – | |
| Pfam | 11 | 357 | 347 | 4.5E-173 | ||
| Coils | 38 | 58 | 21 | - | – | |
| ProSitePatterns | 217 | 227 | 11 | - |
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 | Fructose-bisphosphate aldolase activity | Catalysis of the reaction: D-fructose 1,6-bisphosphate = glycerone phosphate + D-glyceraldehyde-3-phosphate. | ||
| 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. |
Expression pattern of LotjaGi1g1v0013000.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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