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| Field | Value |
|---|---|
| Gene ID | LotjaGi2g1v0240300 |
| Transcript ID | LotjaGi2g1v0240300.2 |
| Related isoforms 2 | |
| Lotus japonicus genome version | Gifu v1.2 |
| Description | Aldose 1-epimerase family protein; TAIR: AT5G14500.1 aldose 1-epimerase family protein; Swiss-Prot: sp|Q40784|AAPC_CENCI Putative glucose-6-phosphate 1-epimerase; TrEMBL-Plants: tr|I1N5K4|I1N5K4_SOYBN Uncharacterized protein; Found in the gene: LotjaGi2g1v0240300 |
| Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr2:70115186..70124707) extracted from Lotus japonicus Gifu genome v1.2.
TCCTCTTGCACTCTTCTGTATGAAAACCTCACTCATTTCTATATGGTCTTTTGATTTCACAAAAGGGTTTACTGTGAATG TGATCAGTGTTTTATGTAATATATCTTTTCTTTTCATGCATGGTGCTTTGTTGTTACTTGTTATGGTGTGTGGCTAATGG AGATGAATACTGAAATTTGTTTTTTTGGTTTGGATTGGTTTAAGCTGGATTGGAGCAGAGTGAAAGTGAATCCATTTGTG AGCAGCTTAAGAGAAAAGCTGCAACAGCAAAGACCGATGCCTTTGAACATATTTCAGGACAAAGATGGATTGCCCCGGAT TTTATTAACTGAGCCAAATGGTTCATCAGCAGAGGTTTGATTCTCTTTTGCTTAAGATCTAAAAGGGTCTCTTTTTTGTG AGAAAATGGGATTTCCCTGTATGATATTTGTCCTCATATTATGCTTTGAATCTGATGGGTTGATTATGGATCGTTAGCTT ATCAGCATGTTTGGATCAACTTTTTTCCCCCTAAGAATCAGTTTTGAAACTCAAGCTATCCACAGAAACTCTCTCCAAAA TTGATTTTGTCTTCAGAATCAATTGTGGAAAGATTTTCAAACATGCACTGTGATCAAGAAACAAGTGATAGAAGCACAAA GTTTGCAATACCTTGTGAAGACTAATGAGCTTTTATCTTCTTCTTTTTTTGTCTGGATTTCATTAATTATCTTTGATCAT GCTTATCATTTGACCAAAGTGAATCTCTGTTGTTAGACTCATATTTGGTTCAATATGATTCAAGTTTTAAAACAAAACCA ACTATGGTATTTTAAAGAATATTAATCTGATATGGAAGCAGCCATTTCACTTTGTGCAGTTCTCAAATGTTTGAAATGTA TGGTGTCAGGTGCTTCTATATGGAGGGCAGATTATTTCTTGGAAGAATCACCGAAAGGAAGAACTGCTTTTCATGAGCAG CAAGGTAAAAAAAGTTATTGATTCTACAATAATTTTTTAAATCCTTCTACAATTGATTCTAAAGGAAAAATCAATTCAGG GAAGAAGCTTCAGTGAGTGGGAGTAGCTTCTGAGTGCAAGATTTGATTCTGAAAAAAAAAAAGTTCATCCAACATGCAAT TACTGCATTTTGTATTTGAGCAACGGTGGTCTGCATGAGGCTAGGTGCATGATAATATGCTTTCAAATTTCCACTTCTGA AAGCCAATGCATTGCAACAATGTTAGCCATATAATATAATAAAACTAGGTGATAAATGAGTGCCCGTTAATTGATTGTAT ACATAACGCGTACTCCTTTCAAAATCAGTAGTTTGAACATTAAAAACACTCATAGCAAGTGCTGAAATTATTTCTAGTTA AATTTTCTTGTTCCTTCTCTCTTTTATGGCCAATCTGAATCTTGATTGAAGATCAACTGATATCATATGCTAATTCTCAT TATATTCTTTGTTTATTTTGACTTAACTTATAAGAAAATAAGGATGTGAATTCCATGCATTTGCCCTACTCATAGCATGT TTGGAACAACTTCTCTTTCATCATAATCAATTATGGCACTAGAAGCTACTAACAGAAACTTCTTCCCATAATTGATTTTG GCATGCACTCAGTTAGTGGTCAGTTTGTTAGAGTTTCCATGTTTGAATTCTTTTCACATACAAGGATAATTTATGCATAC TCAATGACATTTCTGTGGATTTTTTACTGAGCAGGCTAACAGGAAACAACTTAAAGCAATCAGAGGAGGTATATCAGCTT ACTTTGCACGGGTAAGTTTCATCACACTGATGGTGGCAACTTACTTGACTTTTGTCCTTTGCTTAAGTACTAGTTTTTCA ACTACAATGTCTTTTGCAGTTTGGTGAACTTGGTTTATTTGAACACCATGGATTTGCAAGAAACAGGTTGTGGTCATTGG ATAGGGACCCTTCACCTCTATCCCCATTAGACAATCAATCATGTGTGGATCTGATACTTAAGTCCACAGGATTTGACTTC AAGACACCCTGTAGGTATGGATTCTAACTTCTTTTTCCTCTTTTGGCTGCGTCCTAAAGATATTATTTGACCTTATCTTA TAACAAAAACATTTACGAGGCTATTTGAGTAAACTTATGAAAATAGCCTGTAGCCTACGCCTACATATAAGCTCTTTTAA ACTTATTTTCATAAGCTTCTCATATTAGCTTGTTATTAAGTGCTTTTACTTACCTATGAGTTATTTTGAACTTATTTTGA TAAGCTTCTCAAATAACTGAAAGAAGCTTATATGATAAAAGCTTATTGCGATAAGTGCTCAATTTCCACTCTAAACTTTA GAAGTGATGTACTGTTGAATTGAATGGAACAATTTATGCATTTGTGTGGTTGCTTCTGTAGTTTTGAGTTGCGGCTCCGC ATCTTTCTCAGTGCTGGCAAGCTCATTCTGATTCCCAGAGTCAGAAACACTGATAATAAAGCAGTTTCTTTTGCATTTGC ACTATGCAACTATTTGTCTGTATCAGATATCAGGTGTGCATTTAACATTTTGATTAATCACTTACCTTTATTCTAAGATG ATTCCTAGAAGGTTTCCGATCATCAGTGTATTGTTAGAGCTTTTAGTTCACTTACTTTGCACATTTTTACTTACTATAAG ATCATCATGTCCTAGTAGTCTTTTTTGGACCCTATGGTTGCTATGGTTCAAGCATGTAAGTTTGAAACATCTTGCTTAAC CATGTTTTTAAGAGAGGTTGATTGATTGCAGTGAAGTGCGTATTGAGGGGTTGGAGACACTTGATTACATTGACAATCTG ATGAACAGATCAAGGTTCACAGAGCAAGCAGATGCAATTACCTTCGATGGCGAGGTATAAATCCATGTTCTGCTCCTGTC ATTCAATTGGTTGGAGGTTTTTCCTAGCCTGAGAAAACTTACATCATAAGCATAATATTAGGAACTATGATCCAGCAGCT GGCCCAAGTGAGTCATTAGCCCATGTGGGGTCGAAGCCCAAAGAGTGGAAGGTATACTCTAGAAGGGGCAAAAGGGACAA AGGGAGTAGTAACTAACTAACAGCACAGCTGGTGAGCTGGCGAGAGAGAGGGGAGGTAGGATTGTAATCCATTCCATAAT ATAAGGAAGGTAGTGAGAGGTAGGGAAGGCATTCTGAAATCATTGAGCGTGAAGTAATGAGTAGGAAGCAATAGCTTCCT ATAGGAGCTTGGCTCTGGTCAGTTTAGGAAAGGCTTTTCCTTCTCTGTAACGATTTCCAATTCATCAATAAACAATCCTC ATTACTGTTTCATTCCTTCAGTTCTATTTTCTGTTTTGGGTTTCCATCAAATTGGTCCGACCTGCCGGATTGATTCGCCG GAACCAGTGAATGCCACCCAGAAAATCCAAACACACGACAAACTCGATGGAAGCAAAGCTTGATGCTCTTGAAGGCGAGC TCGCTGAGATGCGAACGTCGCTGGTAGCTGTTACGACGGCGATGAAGGATCTTCCTGCATCGTTGATTGCGATGATGGAA CGATCGTTAGGAAAAATGTCACACAGGGAAGATGCAAGTGCAAACCGAGACAAGGGAGAAAGCTCAAGCGCTGAGGTTCC TGAGCAACCTGAAGCGAACGAAGGAGGACCACGAACGCAACCTCTACACGGCGATGCGTTGGCGGAGTTTCGCCAGTCAG TAAAGAAGGTAGAGTTGCCGATCTTCGACGGGAGAGACCCGGCGGGCTGGATCTCACGCGCGGAGGTGTATTTCCGTGTG CAAGAGACTTCACCGGAGGTCAAGGTGAGCCTCGCTCAGCTCAGCATGGATGGACCCACCATCCATTTTTACAACTCTTT GTTCGAATCAGAAGCTCCCCTGACGTGGGAGAAGTTGCGTCAAGCTCTTCTGGAGCGTTATGGCGGTCACGGCGACGGTG ACGTGTACGAGCAATTGACTGAGTTGCGTCAGAAAGGTACGGTGGAGGAGTACATTACCGAGTTCGAATATTTGACGGCC CAAATCCCAAAATTACCTGAGAAGCAATACCAGGGATACTTCTTGCATGGTCTGAAAGAAGAGATACGGGGAAAGGCGAG GAGCTTGGTGGCGATGGGCGGAGTGAACCGCTCAAGATTGCTCTTGATCGCCCGGGCGGTGGAGAAGGAAGTAAGGGGTG AAGCCGGGTCGGGTTATAACCGTAGTTCGAGGATTGGTGGAGCGGGTTTTCGGACTGGCGATCGCCCGGGGCCGGGTCGC CCGGGAAGCACCGATTGGGTCTGGGTCAAAGGCGCTAAGGATAATGGGCCCGCGACTACTAATAAACCAGTTTTTGGTGG CCCAAAAGGAGACCCCAAGGCAACAACAGAAGCTAGGAGGGCCGGTCCACGTGACAGGGGATTCTCCCATCTCACTTATC ATGAATTATTGGATCGGAAACAAAAGGGTCAGTGCTTCAAATGTGGAGGCCCTTTCCACCCAATGCACAAATGCCCCGAT CGCCAACTCCGAGTGCTGCTCGTCGAAGACGGCGACGACGACGCCGGCGATGGGAACATTCTCGCCGTAGAGATGAACGA GATGGAAGACGAGGTCGATGGTGAGCTAAGTATAATGAGTTTGTGCAATCTCGTCGACCATGGTGAGCCGCCACAAACCA TGAGGCTACAAGGAAAAGTGCGAGGGGTGCCCGTGCTCGTGTTAGTCGACAGCGGAGCCACTCATAATTTCGTTGACCAC AAGGTTGTGCAACGAATGAGCTGGGAAGTGGAAGACACTCCACGGATGTCCATCAAGTTGGGAGATGGTTTCCAGACTCA CACCAGAGGTAAGTGTAAGGAGCTTGACCTGGAGATTGGGGATTACAAGTTCTCGTGCACACCCCATTTGTTTGATCTGG GAGGCCCTGATATTGTGCTAGGAATTGAATGGCTCAAGACGTTGGGAGATACAATTGCTAATTGGGGAAAGCATACTATG AGTTTCTGGCACGGCACACAGTGGGTAAGGCTACAGGGTCTTAGTGCTGGCGGAAGTTCCATGGGGGCGTTGCAAAGCAT CCTGAGAAGGTCTGACCTTGACAGCAAGCTAGCGTTTGGACTCTTGGAGCACCGGCATGAGGTTCCCAAAGGTCAGCATC TAGAGGCAGCGCAACAGGAAAGCTTGCAGAAGTTGTTGCAAGAGTATGACAGTGTGTTTGAAGCTCAGGAGGGGCTACCC CCGAGTCGAGGCAAAGAGCATTGTATCAACATAAAGGAAGGGCAGGGACCAGTCAACGTCAGACCATATCGTTATCCCCA TACCCATAAAAATGAAATTGAAAGGCAGGTTCAGGAGATGTTGTCAGCCGGCATCATACGACATAGCTCAAGCGCTTACT CCAGTCCAGTGCTCTTGGTCAAGAAGAAGGACCAGTCATGGCGTATGTGCGTGGATTACCGCGCACTCAATAAGGTAACA GTCCCTGATAAGTTTCCCATTCCTGTAATTGAAGAGCTGCTCGATGAGTTGAATGATGCTAAATTTTTCTCAAAGCTTGA TCTCAAGTCGGGGTATCATCAGGTTCGCGTAAGGGCAGAGGATGTGCATAAAACGGCATTTCGTACCCATGAAGGGCACT ACGAATTCCTCGTAATGCCGTTCGATCTCATGAACGCACCATCGACGTTTCAGAGTTTGATGAACGCAGTTTTTCGTCCC ATGCTCCGGAAGGGAGTGCTTGTATTTTTTGATGATATTCTAGTGTATAGCAGCGATTGGGAAAAGCACCTATTGCATCT TGAGAAGGTCTTACAACTCCTCCAACAGCAACACTTGACAGCAAACAAGAAGAAATGTCAGTTTGCGCAAGACTCAGTTG AATACTTGGGGCACCTGATTTCAGCACAGGGAGTGGCGGTTGATCCTAGCAAGGTGGCGAGTGTCAAGAGTTGGCCCGTG CCCAAGAATGTAAAAGGGGTGAGAGGTTTTCTTGGATTAACCGGTTACTACAGGAAATTTATTCGGGATTATGGGAAAAT AGCAAGGCCACTCACAGATTTGACAAAGAAAGATGCTTTTCAGTGGGGAGCTGCAGCACAAAATGCATTTGAAACTCTAA AAGGGAAGCTCACAACGGCCCCTGTTTTGGCACTTCCAGATTTTGAGAAAGAATTCCTAATTGAGTGTGATGCGTCAGGG TGTGGCCTCGGGGCGATTTTGATGCAAGACAAGAAACCCATAGCATACTATAGCAAGGCCTTAGGACCACGGAACCTCGC TAAGTCCGCCTATGAGAAAGAGCTTATGGCAGTAGCTTTGGCGATACAGCATTGGCGTCCTTACTTATTGGGACGGAAAT TTCTTGTGTCTACTGATCAGAAGAGTCTTAAAGAGTTGCTCCATCAAAAGATTATTACTGGGGAACAACAGAATTGGGCC GCGAAGCTATTGGGGTATGACTTTGATATCGTTTATAAACCTGGGAAGTTAAATAAGGGAGCAGATGCGCTATCGCGCGT TGGGGAATATGGTGAGATCAGGACCGTGTGCACGTACCCGCGCTGGGAAGATCACCAGTTGATAGCAACAGAGGTTCAGC AGGATGCAAAACTTAAGCATGTGATCATGGAGTTACAAAATGACCCATCAACTCATCCGGAATTCAGTCTACAGCAGGGG ATTCTGTTGTACAAAGGGAGGCTGGTTTTGTCACATACTTCCTCTCTAATTCCACAGATGTTAAAGGAATTTCATGCCAC CCCACATGGCGGGCACTCCGGATTTCTCCGCACCTATCGGCGGCTCGCGGCCAACATCTATTGGGTAGGCATGAAGAACA CGGTGCAAGAGTTTGTTCGTAGCTGTGATACATGCCAAAGACAAAAGTACATGGCCTCATCGCCCGCAGGCTTGCTGCAG CCTCTACCCATCCCAAATCAGGTGTGGGAAGATCTCTCGATTGATTTCATAACTGGCCTACCTAAATCCAGGGGATACGA GGCAGTGCTAGTGGTCGTGGATCGCCTATCCAAATTCTGTCACTTCATTCCGCTGAAGCACCCCTATACTGCGAAGAGCA TCGCTGAATTGTTTGCCAAGGAAGTCATACGTTTGCATGGAGTTCCCTCAACCATTGTGAGCGACCGGGACCCAGTATTT ATGAGTCATTTCTGGAAAGAGCTTTTCCGGTTGCAGGGCACACAGTTGAATATGAGTTCCGCGTACCACCCCGAATCGGA TGGACAAACGGAAGTCGTAAATCGCTGTTTGGAAACGTATTTGCGTTGTTTTTCGGCTGATCAACCTAAAACGTGGGCAA CTTGGATCCATTGGGCTGAGTATTGGTTCAATACATCTTACCACTCAGCCACACATATGACCCCGTTCGAGGTTGTTTAT GGACGCAAACCCCCAGCAATCACACGTTGGGGACTCGGGGAGACCAGGGTTGACGCAGTGCAACGTGAATTGGTTGATCG AGATGAGGTTCTGCGCCAGTTGAAGGCACAACTCTTGCGAGCCCAGGGTCGAATGAAGTCACAAGCTGACACTAAGCGGG TTGAAAAATCATTTACTGTCGGGGAATGGGTCTTTGTGAAGCTTCGCGCACATCGTCAACAATCTGTAGTAACCCGGGTT CATGCAAAGCTGGCAGCCCGATACTATGGGCCTTATCCTATCGTGGCTCGTGTGGGTGCGGTGGCTTACAGGTTACGTTT ACCAGAAGGATCGCGAGTTCATCCTGTGTTTCATGTGTCATTGCTCAAGAAGGCGATTGGGGACTACTCTGCAGAAGCAG ATTTGCCAGATCAATTGGAGGGCGAGTGTGATGACAAGGACACACCCGACACTGTTTTAGCCACTCGCCTGGTGAAGTTG CAGGGTGACACCATTCAGCAGCTACTAATTAAATGGCAAGGCAAAACTGCTGAGGAGGCTACCTGGGAGGATGCCCTCAC CATCATGAGTTTATACCCAAACTTCAACCTTGGGGACAAGGTTGTGAGTTCAGACGGCGGCATTATTAGGAACTATGATC CAGCAGCTGGCCCAAGTGAGTCATTAGCCCATGTGGGGTCGAAGCCCAAAGAGTGGAAGGTATACTCTAGAAGGGGCAAA AGGGACAAAGGGAGTAGTAACTAACTAACAGCACAGCTGGTGAGCTGGCGAGAGAGAGGGGAGGTAGGATTGTAATCCAT TCCATAATATAAGGAAGGTAGTGAGAGGTAGGGAAGGCATTCTGAAATCATTGAGCGTGAAGTAATGAGTAGGAAGCAAT AGCTTCCTATAGGAGCTTGGCTCTGGTCAGTTTAGGAAAGGCTTTTCCTTCTCTGTAACGATTTCCAATTCATCAATAAA CAATCCTGATTACTGTTTCATTCCTTCAGTTCTATTTTCTGTTTTGGGTTTCCATCACATAACATTTCCAATGAAATATA TACCAATACAACCACAAAAACAACCAACCTTTTCCCATTAGTTCAAAAGAAATATATATACTTTTCTGTGATTTTCTCAT GTTTGGAATATAAGTAGTTACCAACTCATATCTTTCAAATGTTCTCTAAGGACAGTTTTGGTTACCTTGTAGATGGACAG GGTGTACTTGCACCACAGCCCCAAAAAAATTGCCATCATAGACCATGAGAAGAAAAGAACTTTTGTACTCCAGAAGAATG CACTACCAGATGCAGGTTGTTAATAGTTTATGAATAAAAAGTTATGCACAACATTTAATGTGTTTGGTTATCAGTTCAAG AGAACTGACGTTAGCATACATTTCAAGATAAAAAATAAACAAACCTATTCACATAGATTGGATTGAAAGTCCGTAAATGT TGCACTTATCTGGTATCCCAACGCATGTTATTTATTTGGCATTCATATTTACATATTTTACTTGTTATTTTGATCTAAAT TTGGTGCAAATAATAGTGTTTCTGACTTATTAATTTGTGATGAGAATGCAGTGGTATGGAATCCATGGGACAAGAAATCT AAGGTTCTACCTGATTTGGGAGATAATGATTACAAGATGATGATGTGTGTGAAATCTGCAGCTATTGATAGCCCTATTCT CTTGAAGCCCTCTGAAGAGTGGAAGGGGTATCAGGAGTTATCTACTGTTTCATCAAGCTATTGCAGTGGACAATTGGATC CTCGCATGGTTCTTTATGGCTTTCACTGACATTGTTTAGTTCAGTCAGTGGAGATTTATATGGACTTCAGGGGCCTAATT AGGTGTGCATGAATATCATCATGCTGATACCTTAACCAAAAGCCTCAGCAATATGAACATTTATACTTACCACTTTACAA TAATCCAGAGATGACTCTATCTCTGTGTCCATTTGGCATTTGCTTGATTCCATGGCCATTCTTACAGTATCATCTATGAG TTGTGTCCTTGTGTCAAATGGCTTAGCAGAAAGTTCATCATCGACTTTGCTGACTACCTTTGCCATCATTGTACTCATTG AATACAAATGTACCTTTTTTTTCTTTTGTAAATTATGAAAAAGACAACGGGATCATTTACTCAATAAAAGATTTTTTATT AA
CDS sequence (LotjaGi2g1v0240300.2) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGCCTTTGAACATATTTCAGGACAAAGATGGATTGCCCCGGATTTTATTAACTGAGCCAAATGGTTCATCAGCAGAGGT GCTTCTATATGGAGGGCAGATTATTTCTTGGAAGAATCACCGAAAGGAAGAACTGCTTTTCATGAGCAGCAAGGCTAACA GGAAACAACTTAAAGCAATCAGAGGAGGTATATCAGCTTACTTTGCACGGTTTGGTGAACTTGGTTTATTTGAACACCAT GGATTTGCAAGAAACAGGTTGTGGTCATTGGATAGGGACCCTTCACCTCTATCCCCATTAGACAATCAATCATGTGTGGA TCTGATACTTAAGTCCACAGGATTTGACTTCAAGACACCCTGTAGTTTTGAGTTGCGGCTCCGCATCTTTCTCAGTGCTG GCAAGCTCATTCTGATTCCCAGAGTCAGAAACACTGATAATAAAGCAGTTTCTTTTGCATTTGCACTATGCAACTATTTG TCTGTATCAGATATCAGTGAAGTGCGTATTGAGGGGTTGGAGACACTTGATTACATTGACAATCTGATGAACAGATCAAG GTTCACAGAGCAAGCAGATGCAATTACCTTCGATGGCGAGATGGACAGGGTGTACTTGCACCACAGCCCCAAAAAAATTG CCATCATAGACCATGAGAAGAAAAGAACTTTTGTACTCCAGAAGAATGCACTACCAGATGCAGTGGTATGGAATCCATGG GACAAGAAATCTAAGGTTCTACCTGATTTGGGAGATAATGATTACAAGATGATGATGTGTGTGAAATCTGCAGCTATTGA TAGCCCTATTCTCTTGAAGCCCTCTGAAGAGTGGAAGGGGTATCAGGAGTTATCTACTGTTTCATCAAGCTATTGCAGTG GACAATTGGATCCTCGCATGGTTCTTTATGGCTTTCACTGA
Protein sequence (LotjaGi2g1v0240300.2) extracted from Lotus japonicus Gifu v1.2 Proteins.
MPLNIFQDKDGLPRILLTEPNGSSAEVLLYGGQIISWKNHRKEELLFMSSKANRKQLKAIRGGISAYFARFGELGLFEHH GFARNRLWSLDRDPSPLSPLDNQSCVDLILKSTGFDFKTPCSFELRLRIFLSAGKLILIPRVRNTDNKAVSFAFALCNYL SVSDISEVRIEGLETLDYIDNLMNRSRFTEQADAITFDGEMDRVYLHHSPKKIAIIDHEKKRTFVLQKNALPDAVVWNPW DKKSKVLPDLGDNDYKMMMCVKSAAIDSPILLKPSEEWKGYQELSTVSSSYCSGQLDPRMVLYGFH
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 | 301 | 301 | 2.5E-175 | – | |
| PANTHER | 1 | 301 | 301 | 2.5E-175 | – | |
| PIRSF | 5 | 292 | 288 | 1.1E-59 | ||
| Gene3D | 9 | 293 | 285 | 6.4E-75 | ||
| SUPERFAMILY | 10 | 284 | 275 | 1.38E-49 | ||
| Pfam | 14 | 284 | 271 | 1.3E-48 | ||
| CDD | 14 | 285 | 272 | 8.25487E-93 |
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. | ||
| Biological process | Carbohydrate metabolic process | The chemical reactions and pathways involving carbohydrates, any of a group of organic compounds based of the general formula Cx(H2O)y. Includes the formation of carbohydrate derivatives by the addition of a carbohydrate residue to another molecule. | ||
| Molecular function | Isomerase activity | Catalysis of the geometric or structural changes within one molecule. Isomerase is the systematic name for any enzyme of EC class 5. | ||
| Molecular function | Carbohydrate binding | Interacting selectively and non-covalently with any carbohydrate, which includes monosaccharides, oligosaccharides and polysaccharides as well as substances derived from monosaccharides by reduction of the carbonyl group (alditols), by oxidation of one or more hydroxy groups to afford the corresponding aldehydes, ketones, or carboxylic acids, or by replacement of one or more hydroxy group(s) by a hydrogen atom. Cyclitols are generally not regarded as carbohydrates. |
Expression pattern of LotjaGi2g1v0240300.2, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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