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 | LotjaGi2g1v0240300 |
Transcript ID | LotjaGi2g1v0240300.3 |
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_chr2:70115559..70124431) extracted from Lotus japonicus Gifu genome v1.2.
ATGCCTTTGAACATATTTCAGGACAAAGATGGATTGCCCCGGATTTTATTAACTGAGCCAAATGGTTCATCAGCAGAGGT TTGATTCTCTTTTGCTTAAGATCTAAAAGGGTCTCTTTTTTGTGAGAAAATGGGATTTCCCTGTATGATATTTGTCCTCA TATTATGCTTTGAATCTGATGGGTTGATTATGGATCGTTAGCTTATCAGCATGTTTGGATCAACTTTTTTCCCCCTAAGA ATCAGTTTTGAAACTCAAGCTATCCACAGAAACTCTCTCCAAAATTGATTTTGTCTTCAGAATCAATTGTGGAAAGATTT TCAAACATGCACTGTGATCAAGAAACAAGTGATAGAAGCACAAAGTTTGCAATACCTTGTGAAGACTAATGAGCTTTTAT CTTCTTCTTTTTTTGTCTGGATTTCATTAATTATCTTTGATCATGCTTATCATTTGACCAAAGTGAATCTCTGTTGTTAG ACTCATATTTGGTTCAATATGATTCAAGTTTTAAAACAAAACCAACTATGGTATTTTAAAGAATATTAATCTGATATGGA AGCAGCCATTTCACTTTGTGCAGTTCTCAAATGTTTGAAATGTATGGTGTCAGGTGCTTCTATATGGAGGGCAGATTATT TCTTGGAAGAATCACCGAAAGGAAGAACTGCTTTTCATGAGCAGCAAGGTAAAAAAAGTTATTGATTCTACAATAATTTT TTAAATCCTTCTACAATTGATTCTAAAGGAAAAATCAATTCAGGGAAGAAGCTTCAGTGAGTGGGAGTAGCTTCTGAGTG CAAGATTTGATTCTGAAAAAAAAAAAGTTCATCCAACATGCAATTACTGCATTTTGTATTTGAGCAACGGTGGTCTGCAT GAGGCTAGGTGCATGATAATATGCTTTCAAATTTCCACTTCTGAAAGCCAATGCATTGCAACAATGTTAGCCATATAATA TAATAAAACTAGGTGATAAATGAGTGCCCGTTAATTGATTGTATACATAACGCGTACTCCTTTCAAAATCAGTAGTTTGA ACATTAAAAACACTCATAGCAAGTGCTGAAATTATTTCTAGTTAAATTTTCTTGTTCCTTCTCTCTTTTATGGCCAATCT GAATCTTGATTGAAGATCAACTGATATCATATGCTAATTCTCATTATATTCTTTGTTTATTTTGACTTAACTTATAAGAA AATAAGGATGTGAATTCCATGCATTTGCCCTACTCATAGCATGTTTGGAACAACTTCTCTTTCATCATAATCAATTATGG CACTAGAAGCTACTAACAGAAACTTCTTCCCATAATTGATTTTGGCATGCACTCAGTTAGTGGTCAGTTTGTTAGAGTTT CCATGTTTGAATTCTTTTCACATACAAGGATAATTTATGCATACTCAATGACATTTCTGTGGATTTTTTACTGAGCAGGC TAACAGGAAACAACTTAAAGCAATCAGAGGAGGTATATCAGCTTACTTTGCACGGGTAAGTTTCATCACACTGATGGTGG CAACTTACTTGACTTTTGTCCTTTGCTTAAGTACTAGTTTTTCAACTACAATGTCTTTTGCAGTTTGGTGAACTTGGTTT ATTTGAACACCATGGATTTGCAAGAAACAGGTTGTGGTCATTGGATAGGGACCCTTCACCTCTATCCCCATTAGACAATC AATCATGTGTGGATCTGATACTTAAGTCCACAGGATTTGACTTCAAGACACCCTGTAGGTATGGATTCTAACTTCTTTTT CCTCTTTTGGCTGCGTCCTAAAGATATTATTTGACCTTATCTTATAACAAAAACATTTACGAGGCTATTTGAGTAAACTT ATGAAAATAGCCTGTAGCCTACGCCTACATATAAGCTCTTTTAAACTTATTTTCATAAGCTTCTCATATTAGCTTGTTAT TAAGTGCTTTTACTTACCTATGAGTTATTTTGAACTTATTTTGATAAGCTTCTCAAATAACTGAAAGAAGCTTATATGAT AAAAGCTTATTGCGATAAGTGCTCAATTTCCACTCTAAACTTTAGAAGTGATGTACTGTTGAATTGAATGGAACAATTTA TGCATTTGTGTGGTTGCTTCTGTAGTTTTGAGTTGCGGCTCCGCATCTTTCTCAGTGCTGGCAAGCTCATTCTGATTCCC AGAGTCAGAAACACTGATAATAAAGCAGTTTCTTTTGCATTTGCACTATGCAACTATTTGTCTGTATCAGATATCAGGTG TGCATTTAACATTTTGATTAATCACTTACCTTTATTCTAAGATGATTCCTAGAAGGTTTCCGATCATCAGTGTATTGTTA GAGCTTTTAGTTCACTTACTTTGCACATTTTTACTTACTATAAGATCATCATGTCCTAGTAGTCTTTTTTGGACCCTATG GTTGCTATGGTTCAAGCATGTAAGTTTGAAACATCTTGCTTAACCATGTTTTTAAGAGAGGTTGATTGATTGCAGTGAAG TGCGTATTGAGGGGTTGGAGACACTTGATTACATTGACAATCTGATGAACAGATCAAGGTTCACAGAGCAAGCAGATGCA ATTACCTTCGATGGCGAGGTATAAATCCATGTTCTGCTCCTGTCATTCAATTGGTTGGAGGTTTTTCCTAGCCTGAGAAA ACTTACATCATAAGCATAATATTAGGAACTATGATCCAGCAGCTGGCCCAAGTGAGTCATTAGCCCATGTGGGGTCGAAG CCCAAAGAGTGGAAGGTATACTCTAGAAGGGGCAAAAGGGACAAAGGGAGTAGTAACTAACTAACAGCACAGCTGGTGAG CTGGCGAGAGAGAGGGGAGGTAGGATTGTAATCCATTCCATAATATAAGGAAGGTAGTGAGAGGTAGGGAAGGCATTCTG AAATCATTGAGCGTGAAGTAATGAGTAGGAAGCAATAGCTTCCTATAGGAGCTTGGCTCTGGTCAGTTTAGGAAAGGCTT TTCCTTCTCTGTAACGATTTCCAATTCATCAATAAACAATCCTCATTACTGTTTCATTCCTTCAGTTCTATTTTCTGTTT TGGGTTTCCATCAAATTGGTCCGACCTGCCGGATTGATTCGCCGGAACCAGTGAATGCCACCCAGAAAATCCAAACACAC GACAAACTCGATGGAAGCAAAGCTTGATGCTCTTGAAGGCGAGCTCGCTGAGATGCGAACGTCGCTGGTAGCTGTTACGA CGGCGATGAAGGATCTTCCTGCATCGTTGATTGCGATGATGGAACGATCGTTAGGAAAAATGTCACACAGGGAAGATGCA AGTGCAAACCGAGACAAGGGAGAAAGCTCAAGCGCTGAGGTTCCTGAGCAACCTGAAGCGAACGAAGGAGGACCACGAAC GCAACCTCTACACGGCGATGCGTTGGCGGAGTTTCGCCAGTCAGTAAAGAAGGTAGAGTTGCCGATCTTCGACGGGAGAG ACCCGGCGGGCTGGATCTCACGCGCGGAGGTGTATTTCCGTGTGCAAGAGACTTCACCGGAGGTCAAGGTGAGCCTCGCT CAGCTCAGCATGGATGGACCCACCATCCATTTTTACAACTCTTTGTTCGAATCAGAAGCTCCCCTGACGTGGGAGAAGTT GCGTCAAGCTCTTCTGGAGCGTTATGGCGGTCACGGCGACGGTGACGTGTACGAGCAATTGACTGAGTTGCGTCAGAAAG GTACGGTGGAGGAGTACATTACCGAGTTCGAATATTTGACGGCCCAAATCCCAAAATTACCTGAGAAGCAATACCAGGGA TACTTCTTGCATGGTCTGAAAGAAGAGATACGGGGAAAGGCGAGGAGCTTGGTGGCGATGGGCGGAGTGAACCGCTCAAG ATTGCTCTTGATCGCCCGGGCGGTGGAGAAGGAAGTAAGGGGTGAAGCCGGGTCGGGTTATAACCGTAGTTCGAGGATTG GTGGAGCGGGTTTTCGGACTGGCGATCGCCCGGGGCCGGGTCGCCCGGGAAGCACCGATTGGGTCTGGGTCAAAGGCGCT AAGGATAATGGGCCCGCGACTACTAATAAACCAGTTTTTGGTGGCCCAAAAGGAGACCCCAAGGCAACAACAGAAGCTAG GAGGGCCGGTCCACGTGACAGGGGATTCTCCCATCTCACTTATCATGAATTATTGGATCGGAAACAAAAGGGTCAGTGCT TCAAATGTGGAGGCCCTTTCCACCCAATGCACAAATGCCCCGATCGCCAACTCCGAGTGCTGCTCGTCGAAGACGGCGAC GACGACGCCGGCGATGGGAACATTCTCGCCGTAGAGATGAACGAGATGGAAGACGAGGTCGATGGTGAGCTAAGTATAAT GAGTTTGTGCAATCTCGTCGACCATGGTGAGCCGCCACAAACCATGAGGCTACAAGGAAAAGTGCGAGGGGTGCCCGTGC TCGTGTTAGTCGACAGCGGAGCCACTCATAATTTCGTTGACCACAAGGTTGTGCAACGAATGAGCTGGGAAGTGGAAGAC ACTCCACGGATGTCCATCAAGTTGGGAGATGGTTTCCAGACTCACACCAGAGGTAAGTGTAAGGAGCTTGACCTGGAGAT TGGGGATTACAAGTTCTCGTGCACACCCCATTTGTTTGATCTGGGAGGCCCTGATATTGTGCTAGGAATTGAATGGCTCA AGACGTTGGGAGATACAATTGCTAATTGGGGAAAGCATACTATGAGTTTCTGGCACGGCACACAGTGGGTAAGGCTACAG GGTCTTAGTGCTGGCGGAAGTTCCATGGGGGCGTTGCAAAGCATCCTGAGAAGGTCTGACCTTGACAGCAAGCTAGCGTT TGGACTCTTGGAGCACCGGCATGAGGTTCCCAAAGGTCAGCATCTAGAGGCAGCGCAACAGGAAAGCTTGCAGAAGTTGT TGCAAGAGTATGACAGTGTGTTTGAAGCTCAGGAGGGGCTACCCCCGAGTCGAGGCAAAGAGCATTGTATCAACATAAAG GAAGGGCAGGGACCAGTCAACGTCAGACCATATCGTTATCCCCATACCCATAAAAATGAAATTGAAAGGCAGGTTCAGGA GATGTTGTCAGCCGGCATCATACGACATAGCTCAAGCGCTTACTCCAGTCCAGTGCTCTTGGTCAAGAAGAAGGACCAGT CATGGCGTATGTGCGTGGATTACCGCGCACTCAATAAGGTAACAGTCCCTGATAAGTTTCCCATTCCTGTAATTGAAGAG CTGCTCGATGAGTTGAATGATGCTAAATTTTTCTCAAAGCTTGATCTCAAGTCGGGGTATCATCAGGTTCGCGTAAGGGC AGAGGATGTGCATAAAACGGCATTTCGTACCCATGAAGGGCACTACGAATTCCTCGTAATGCCGTTCGATCTCATGAACG CACCATCGACGTTTCAGAGTTTGATGAACGCAGTTTTTCGTCCCATGCTCCGGAAGGGAGTGCTTGTATTTTTTGATGAT ATTCTAGTGTATAGCAGCGATTGGGAAAAGCACCTATTGCATCTTGAGAAGGTCTTACAACTCCTCCAACAGCAACACTT GACAGCAAACAAGAAGAAATGTCAGTTTGCGCAAGACTCAGTTGAATACTTGGGGCACCTGATTTCAGCACAGGGAGTGG CGGTTGATCCTAGCAAGGTGGCGAGTGTCAAGAGTTGGCCCGTGCCCAAGAATGTAAAAGGGGTGAGAGGTTTTCTTGGA TTAACCGGTTACTACAGGAAATTTATTCGGGATTATGGGAAAATAGCAAGGCCACTCACAGATTTGACAAAGAAAGATGC TTTTCAGTGGGGAGCTGCAGCACAAAATGCATTTGAAACTCTAAAAGGGAAGCTCACAACGGCCCCTGTTTTGGCACTTC CAGATTTTGAGAAAGAATTCCTAATTGAGTGTGATGCGTCAGGGTGTGGCCTCGGGGCGATTTTGATGCAAGACAAGAAA CCCATAGCATACTATAGCAAGGCCTTAGGACCACGGAACCTCGCTAAGTCCGCCTATGAGAAAGAGCTTATGGCAGTAGC TTTGGCGATACAGCATTGGCGTCCTTACTTATTGGGACGGAAATTTCTTGTGTCTACTGATCAGAAGAGTCTTAAAGAGT TGCTCCATCAAAAGATTATTACTGGGGAACAACAGAATTGGGCCGCGAAGCTATTGGGGTATGACTTTGATATCGTTTAT AAACCTGGGAAGTTAAATAAGGGAGCAGATGCGCTATCGCGCGTTGGGGAATATGGTGAGATCAGGACCGTGTGCACGTA CCCGCGCTGGGAAGATCACCAGTTGATAGCAACAGAGGTTCAGCAGGATGCAAAACTTAAGCATGTGATCATGGAGTTAC AAAATGACCCATCAACTCATCCGGAATTCAGTCTACAGCAGGGGATTCTGTTGTACAAAGGGAGGCTGGTTTTGTCACAT ACTTCCTCTCTAATTCCACAGATGTTAAAGGAATTTCATGCCACCCCACATGGCGGGCACTCCGGATTTCTCCGCACCTA TCGGCGGCTCGCGGCCAACATCTATTGGGTAGGCATGAAGAACACGGTGCAAGAGTTTGTTCGTAGCTGTGATACATGCC AAAGACAAAAGTACATGGCCTCATCGCCCGCAGGCTTGCTGCAGCCTCTACCCATCCCAAATCAGGTGTGGGAAGATCTC TCGATTGATTTCATAACTGGCCTACCTAAATCCAGGGGATACGAGGCAGTGCTAGTGGTCGTGGATCGCCTATCCAAATT CTGTCACTTCATTCCGCTGAAGCACCCCTATACTGCGAAGAGCATCGCTGAATTGTTTGCCAAGGAAGTCATACGTTTGC ATGGAGTTCCCTCAACCATTGTGAGCGACCGGGACCCAGTATTTATGAGTCATTTCTGGAAAGAGCTTTTCCGGTTGCAG GGCACACAGTTGAATATGAGTTCCGCGTACCACCCCGAATCGGATGGACAAACGGAAGTCGTAAATCGCTGTTTGGAAAC GTATTTGCGTTGTTTTTCGGCTGATCAACCTAAAACGTGGGCAACTTGGATCCATTGGGCTGAGTATTGGTTCAATACAT CTTACCACTCAGCCACACATATGACCCCGTTCGAGGTTGTTTATGGACGCAAACCCCCAGCAATCACACGTTGGGGACTC GGGGAGACCAGGGTTGACGCAGTGCAACGTGAATTGGTTGATCGAGATGAGGTTCTGCGCCAGTTGAAGGCACAACTCTT GCGAGCCCAGGGTCGAATGAAGTCACAAGCTGACACTAAGCGGGTTGAAAAATCATTTACTGTCGGGGAATGGGTCTTTG TGAAGCTTCGCGCACATCGTCAACAATCTGTAGTAACCCGGGTTCATGCAAAGCTGGCAGCCCGATACTATGGGCCTTAT CCTATCGTGGCTCGTGTGGGTGCGGTGGCTTACAGGTTACGTTTACCAGAAGGATCGCGAGTTCATCCTGTGTTTCATGT GTCATTGCTCAAGAAGGCGATTGGGGACTACTCTGCAGAAGCAGATTTGCCAGATCAATTGGAGGGCGAGTGTGATGACA AGGACACACCCGACACTGTTTTAGCCACTCGCCTGGTGAAGTTGCAGGGTGACACCATTCAGCAGCTACTAATTAAATGG CAAGGCAAAACTGCTGAGGAGGCTACCTGGGAGGATGCCCTCACCATCATGAGTTTATACCCAAACTTCAACCTTGGGGA CAAGGTTGTGAGTTCAGACGGCGGCATTATTAGGAACTATGATCCAGCAGCTGGCCCAAGTGAGTCATTAGCCCATGTGG GGTCGAAGCCCAAAGAGTGGAAGGTATACTCTAGAAGGGGCAAAAGGGACAAAGGGAGTAGTAACTAACTAACAGCACAG CTGGTGAGCTGGCGAGAGAGAGGGGAGGTAGGATTGTAATCCATTCCATAATATAAGGAAGGTAGTGAGAGGTAGGGAAG GCATTCTGAAATCATTGAGCGTGAAGTAATGAGTAGGAAGCAATAGCTTCCTATAGGAGCTTGGCTCTGGTCAGTTTAGG AAAGGCTTTTCCTTCTCTGTAACGATTTCCAATTCATCAATAAACAATCCTGATTACTGTTTCATTCCTTCAGTTCTATT TTCTGTTTTGGGTTTCCATCACATAACATTTCCAATGAAATATATACCAATACAACCACAAAAACAACCAACCTTTTCCC ATTAGTTCAAAAGAAATATATATACTTTTCTGTGATTTTCTCATGTTTGGAATATAAGTAGTTACCAACTCATATCTTTC AAATGTTCTCTAAGGACAGTTTTGGTTACCTTGTAGATGGACAGGGTGTACTTGCACCACAGCCCCAAAAAAATTGCCAT CATAGACCATGAGAAGAAAAGAACTTTTGTACTCCAGAAGAATGCACTACCAGATGCAGGTTGTTAATAGTTTATGAATA AAAAGTTATGCACAACATTTAATGTGTTTGGTTATCAGTTCAAGAGAACTGACGTTAGCATACATTTCAAGATAAAAAAT AAACAAACCTATTCACATAGATTGGATTGAAAGTCCGTAAATGTTGCACTTATCTGGTATCCCAACGCATGTTATTTATT TGGCATTCATATTTACATATTTTACTTGTTATTTTGATCTAAATTTGGTGCAAATAATAGTGTTTCTGACTTATTAATTT GTGATGAGAATGCAGTGGTATGGAATCCATGGGACAAGAAATCTAAGGTTCTACCTGATTTGGGAGATAATGATTACAAG ATGATGATGTGTGTGAAATCTGCAGCTATTGATAGCCCTATTCTCTTGAAGCCCTCTGAAGAGTGGAAGGGGTATCAGGA GTTATCTACTGTTTCATCAAGCTATTGCAGTGGACAATTGGATCCTCGCATGGTTCTTTATGGCTTTCACTGA
CDS sequence (LotjaGi2g1v0240300.3) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGCCTTTGAACATATTTCAGGACAAAGATGGATTGCCCCGGATTTTATTAACTGAGCCAAATGGTTCATCAGCAGAGGT GCTTCTATATGGAGGGCAGATTATTTCTTGGAAGAATCACCGAAAGGAAGAACTGCTTTTCATGAGCAGCAAGGCTAACA GGAAACAACTTAAAGCAATCAGAGGAGGTATATCAGCTTACTTTGCACGGTTTGGTGAACTTGGTTTATTTGAACACCAT GGATTTGCAAGAAACAGGTTGTGGTCATTGGATAGGGACCCTTCACCTCTATCCCCATTAGACAATCAATCATGTGTGGA TCTGATACTTAAGTCCACAGGATTTGACTTCAAGACACCCTGTAGTTTTGAGTTGCGGCTCCGCATCTTTCTCAGTGCTG GCAAGCTCATTCTGATTCCCAGAGTCAGAAACACTGATAATAAAGCAGTTTCTTTTGCATTTGCACTATGCAACTATTTG TCTGTATCAGATATCAGTGAAGTGCGTATTGAGGGGTTGGAGACACTTGATTACATTGACAATCTGATGAACAGATCAAG GTTCACAGAGCAAGCAGATGCAATTACCTTCGATGGCGAGATGGACAGGGTGTACTTGCACCACAGCCCCAAAAAAATTG CCATCATAGACCATGAGAAGAAAAGAACTTTTGTACTCCAGAAGAATGCACTACCAGATGCAGTGGTATGGAATCCATGG GACAAGAAATCTAAGGTTCTACCTGATTTGGGAGATAATGATTACAAGATGATGATGTGTGTGAAATCTGCAGCTATTGA TAGCCCTATTCTCTTGAAGCCCTCTGAAGAGTGGAAGGGGTATCAGGAGTTATCTACTGTTTCATCAAGCTATTGCAGTG GACAATTGGATCCTCGCATGGTTCTTTATGGCTTTCACTGA
Protein sequence (LotjaGi2g1v0240300.3) 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 LotjaGi2g1v0240300.3, 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…