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LotjaGi1g1v0293300.5

Overview

Field Value
Gene ID LotjaGi1g1v0293300
Transcript ID LotjaGi1g1v0293300.5
Related isoforms 6
Lotus japonicus genome version Gifu v1.2
Description Glucosamine-6-phosphate deaminase; TAIR: AT5G24400.1 NagB/RpiA/CoA transferase-like superfamily protein; Swiss-Prot: sp|A2Z3C4|6PGL4_ORYSI Probable 6-phosphogluconolactonase 4, chloroplastic; TrEMBL-Plants: tr|G7J870|G7J870_MEDTR Glucosamine-6-phosphate isomerase/6-phosphogluconolactonase; Found in the gene: LotjaGi1g1v0293300
Working Lj name n.a.

Sequence information

Genomic sequence (LjG1.1_chr1:71162959..71172456) extracted from Lotus japonicus Gifu genome v1.2.

CTAGAATTATTCCATAACCTTAATTTATTATTGGAAATGAACATTGATTCTCTGTGGAATTTTCCCTTCCTATATAAACT TGTGTTATTGCACAGTGCATTTCTTCTTCCTTATTCTCTCCCTTGATCATCAACCCAAAACGCTGTCGTTTCGATCTCTG CAGCGTTCCTCTCTTCCTTTCACGCGCGACGCCACACCAACCTCTCTCTGAATCTCTGCTGCTTCTGGACACCAAGGTTT TCCCTCTTCCTCTAACCTATTTCATCATTCGTTTCTTCGAATTAGGTTTTCAAGCGCTGAATTGGGGTTCAATTTTGATA AGGGTTTCAATTTCTCTGCAAATTCTGTTTTGATCGATTTTTAATTTTCTTTTTGTGTATTAAGAATGTTGATGGAATAT AAGGATTGAAAATGGTGTTTATTAGTTTTAGGTTTTGATGCTTGCATTTTGTTCCTTCTTCAAGTTTGGATTGACTGTAT TGGTGAAATCTGTTTGGGGAAAATGTAAATTAGGTATGGGCATGGATTCCCTAATTTTCAGCGTTTTCTCCTTCGGTTTA TCTAGGTGAATGGATTTAGAGGATTGTTGTTTTTAGAGTAGGGAATAGAAAAATAGAGCTAGTTGCACGCGAAGAGCAAT AGGAAGAAAGCTGTATAGGTAGACATTCATCTTTACCACATTGATTCAACTCTAATGCTTGCTTTCCTTTCATAAAATCG ATGTAGTAGTATTCCCATTTGTACAACAACCCTGTGGGTCATCATGGCTCACACTCACTCTTCCTTGTTGCTCTCCAGCA CTCCGCGAATCCAATTCGCACCACCGTCCCTGTCAATCCCAACCCTGAATCCACCCTCCTCTCGATTCTCCACCCCTCAC CCCTTCAGATTCATAGGCCTCACTTCCAAACCCAGCATCAACAAGCTCGTTTGCCAAGCTCAGAAAGCTTCAATGGCGGC AGCGGTTGAGGTTTTCGAGAAGGAGGAGCTCGCGGCGTCTCTGGCCAAATACGTCGCCGATCTTTCCAATAAGTTCACTG CTGAAAGAGGGGCTTTCACTGTTTGTTTGTCTGGTGGGTCTTTGATCAGCTATCTCCGGTGAGTTTCATATGAAGGTTCC TTTTTTGTTGTTGAAACTGAATAATGATGATGATGATGATGATGATGATCAATTGAGCTGAAAAAAATGGGTTTTTTGTT GTTGGGTTTTCAGGAAATTGCTTGAGGCTCCTTATGTTGATTCTCTTGAATGGTCTAAATGGCATGTGTTTTGGTTGGAT GAGAGGGTTGTGCCTAAGACTCATGAAGATAGTAACTACAAGCTTGCTTTTGATGGGTTTCTCTCCAAGGTGTGTATGTT ATGTTTTGTTGTCCATGACTTTTGTTTTTGGTGTTGGATCATATAATTGTTTATTTTGCTTGAACATTGTCTTCCAATTG TTGAAAATTTATTTTCTGTTCATTATGTGTTGTTGTCAGAAGTTGAGAAATTTATAGGAGGATTGTGCAAAAACAGCCAC TAGATTTCTGTTCATTATGTGTGTAAGATGGGTATTGTTTGACATGTTTAAAGAGAAAGGATGAGTATTGTTATCGCGTG GATGAAAGCCACCAGTCCCTATTTCACTAAATTAAAACCAGATAGATGGAACTAAATGTAGATCAAATGAAAAAAACAAC TATAGCTCAATTAGAAAATGGTATATTTAGTTATACTGAAAATAAAACGGAGCAATTAATACTAGTAGTTCATGAGAAAG TTGTTAGGGTACTGATTGCATCTGATCCTTCATACAGAACCTAGCTAAATTCCATTCAAATGTCTAATACCAGATTTAAA GGTTAAATCCTCTATATGAATTAACTACGAGTTCCTTGGTTAGTTAATCATCTATTAATCAAATGAAGTCCCTAATTCCT TAGTAACTTTTGATGAGAACAAAGGAATGATCAAAATTCAAAACAATAGGGTTTCAGCAAAAGCACATCAAATTACTAAA TCAATTCCTTAACATATTAATAGTAGTAAACCTTAGATCTAGCTCATGGCAGAATTTTTCTATTCATTTGTAAACCCATT TTCAATCCTTGGCTAGATACACCAAAGAAGCATTAATTAAGCAAAGTGCAAACAGTCCTCAAATCTTGGGAAAAGGAGAT TAGATTGGAAAGTCGAGCATTCTTTACATAATCCAAAGTGAACTACAACACTAACTGGGAATTTAGTTGTAAACTAATGC AAAGCAAAAAAAGATTAAGAGAGGAACACCATTGATGAATGAAGGAAGAGATGTTGGTTGATGGAGAAGAGTGGATCACT GATGAAGGAGGGAAGAGATGTTGGTTGGTCGCCCAGAAGGTGTACTTCAATTGCCTTATGTATGCAAACGGCAAAGTGTA CTTTCAGATCCTTTCCTTCTTCTATTTAAAGCTACAATTCCATTAAGTGAGATTTTACTGATGGCCCTTAAGCACTGCAA AGCAAAACTCAATTTTTTCGGCCATTGATATAGCATTGGATTCTTAATGCTCAAGCACTGGGTATACAAAGACTCGGAGA AAATTTGCTTGTTTCTTATTATCAAACTAGCTTCACTGCCTTCCTCGCTCCTTTCATCAATTATATTGCCTCTTCAATGA AATTTAAGTCAGAATATGGACTACCAACCTTAAATTTCATGAAATTAGCATAAAACTTAATTAAAAATCTACAACTTACA GCAGAACTACAATTGCTTAAGAAAAAGTATATGTTAGGAACAATTGACTAAAAAGACATCAATATTGTGGTATATGGGCA TGTTTTCATTCAGGCTAACTGCAAGATGTTGGGGGCAGTGATATCCCTTCCAAGGACAAGGGTTGGAGCATCGGTTACTC CACTTGTTGGGGTGGTCTATCCTTATATTTCCATATTTGAAGTGATTAGTACCAAACCTGAAGGATGTCATGATATCCTT GGAAACTAAAATACATATAAAACGTATTTTAAGTGGTGAAGTGAATGCACAAGTACAAACATTTCAGAGACTTCTAGTCT ACACTGTAACAATGGTCAGGCAAATGAGTCCCCTTGTTGGATAGGATGGTATTACGTTGAGAAGCTTGTTAAATGTATTG TTCATTCCTATAAATTGATGCCACATGAAAAAAAAAAGAATCGCTATCGGTTTCAAGTTATATGCTATATTTCATTCATG TCTGAGTCTTCTTTTTAATGATTGGATGACAAGTGTACCTCCCTAGTCTTCTGTTTGGATGAGATGATTTTATCTCAATC TAACATGTTGGCACTTTCATCACGGTTCTTTGACAGGTTCCGATTCCACCCGGTAATGTTTATGCAATTAATGATGCCCT GTCAGCTGAGGGAGCAGCTGATGATTATGAGACATGTCTCAGACACTTGGTCAAGAGCAATGTGATAACTTCATCAGTCA GCGGATTTCCGAAATTTGATCTCATGCTGCTGGGCATGGGCCCTGATGGGCACGTTGCTTCTTTGTTCCCAGGGCATCCT CTTGTGGAGGAGAATAAAAGATGGGTTGCCTTCATCAAGGACTCGCCAAAACCACCACCAGAGAGAATAACTTTTACCTT TCCGGTGATCAATTCCTCTGCTTATGCTGCACTTGTGGTGACTGGTTCTGGTAAAGCAGATGCAGTTCACTCTGTACTGC GTGGCGGATCGCAAAACTCTAATAAGCTTCCTGCTGCATTGGTTTCACCTGAAGGGGAGTTGAAATGGTTCTTGGACAAA GGTGCAGCCTCCAAGCTGTAGATCCTCCATGTAAGGTGGTTAATCTATATGTTGTGCTAGTGTATTTTTACCTTTACAAT ATTGAGTTTTGTATGAGAACACATATCTAGTGCTGGATCTCCTTATCTCAGTGATAGTTAACACCGGGGAGATGAGTGTT TGTATGTCTTTTGTATTAGCAATAAGAGGACTAGAGTGAAGATACAGAGTGCAATAAAAAGTTTGTTTGCTTCAAAATTT ATGAATTCCTATTAATGTGAAGCAATCAAACCACCCTTCCCTCTTCATCCAACCGAGATGCACTCAGCGAAAGCCTGAGT TTTCTTCATGACTCGCCTGATCAGATTCCTATGTCTGGCCAGTCTGGGGATGGAATCAATGAATGAGGTCACATTTGAAA GAGCTTATTAAACCTTATAACATTAGTGCTTTCGCTGTTTCGCAAGTGTTTGGGGAAAGTTCTGAAAATAATTCTTGACA TACCTACCTATAAGTTGTGTTAAGCCTATTTATTTTCATAAGCGGTTCATGGTAGCTAGAATAAGTGTTTACACTAATTA TAAGTTATTTTGAGTTTATTTCAATCAACCTATCAAATTAGCTCATGAATTAACTGTTTACTTAATACACATTTATTATC GTAAACACTTAATTAGGCTATTTACTCAAAAACATCATAAGTGGACTTACATTACTTTCTTTCAAGTCTTGCTTTGAGTT GTGTTCATCCTAGTTTTGAATGTCATGGTTAATTGGTCTCATCTTTGTCATTTAAATGAATCAAGTGATCATTCCATGCT AATTTTGTTTCTTCCTGATTTTTTCCCCGCAATCAATGCAAGTTATTGACCCCTGCATGTTCCTTGATGCTTTTTGACGG GCATATCTTTTTTTGAGTTGTGTGTGGTATTGTTAAATGATGGATGATACGTTATTGTATTATAATTTATAAGGACTTGC TTTCTACCACAAGTCCACGAGCGTAGGGATATATATAAATTACAGGAGAGTGCTAAGCAATTTTTTGTTCATCCACACCG TTTCTTATCAGTAATAAGATTCATATAAAATTAGGAGGTGATCTATCAATTAGCAATAAGTCTACGGTTATAATATAATG AAACTCACATTAATTATAAATAACCAGAAATAGTGTGTTGAAAAAATAATGTTAAGAGGGCGTGTAACTAGAATTTCTAT GTAGATTATGCAGAAGAATTACTGAGCTGAAAAGTCAAGATGAGAAGTAAGATGATAACCGAAGAAAGGAAAACGCAATG CTTGCATTCTTACCTTGTGAGTGAAAGAGTAACTTCCTTTGAGACCCGAGTCATAAGATTCGGTGTTTTTCTTGTTGTAT ACACCATAACCAAGGTTTAAAGCTCCCACAAGTTCGCATCCATTGGATGGAATTCGGATCATGGTGGCCCAACCCAAGTG CATTAGCAGTTTAGCACTTCACCTTGTTGTTATGTTGTTTGAGCTCTTATTAGCAATTTTTCTTAGGGCGGGTAGAAATC AGGAATTCGTGACATTCAATTGACATACACTTTAGTGATACCGTGAAGTGAAAAAAAAAATATTGTTAAACACGTGTCTC GATTGAATATCGCGGATTTATGGTGGTTAACAATCATTACTTTTTTTTTCAGGCATGAAGTTTTCACTCTTTTTTCATTT TGTTTTTCTCTCTCTTAACAAGGCAAAGAACATATACAACTGCTGATGAATGAGTTCATAGCTTTATTTTAACACATAGG ACTAGGGGAATTTCCTTTCCTCATCAATAATTCTGAGTTTTCAAATGATTCATTCAGAAATTCGTGACACTCAATTGACA TCCACTTTAGTGATAACGTGAAGTGGGAAAAAAACATAAAACATGTTTAGTGGGGGATTTTCAACCGTCGAGAAATGTGT GTTGTGTTTTATTTACACTCTGTGTTCAGCGGAATACTGCCGCTAAACACGTATGTCGATTGAATATCACAGATTTATGG TGTTCAACAATCATTACTTTTTTTATTATTTTATTTTAGTTCTTTGTATTCACTAAAAAATCATAAAGTTTTCACTCTTC TTTCATTCCCTTTTTTTCTCCCTTAACAAGGCAAACAACATATACAACTGCTGATGAAGGAGGTAATAGCTTTACTTTAA CACATAGGACTAGGGGAATTTCCTTTCCTCATAGCTAACCTGAGTTTTCAAATGATTCATACTTGGATTAACTTTTTTTT TTATCAGAATTAGTATTGACATGTAAGAACCATTCACAGAAACTTCTCATCAGAATTGATTAGGTCTTTAGAAATTAATT ATAAAAGAGTTTTCAAACATCCACTAACCATGGACTCATTTAACATGAGATACATATATTTGGCCTTCATCTCATCCTTA ACAGCCACTCCAGGAATATCCACATGTTAGAGATAAAAACACCTCCGCTTGACTCAAGCTTAGTGAGTAAGAGTCAAGCT TAGTAGTAGTAGTTTTGTTAGTTATACTACTGTTATACTTGTTGAAGTTAGTTAGGAATTAGATACATTAGATTGTCTAG GTTCATTCACTTTGTATCCAAGCTGCAACTATATTAAGCAGCATTGTATCTTGTTCACAGTATCAATAATATCACAATGT AGTTTCTACATTTCTGTTATGGTATCAGAGCCCCATGTGGGGATTCTGTCATGCTTTCCGCACTGTGATTTTGCATCGTT TCTGCATTCTTCTTTTCTGGATCGTCTTCCAATGGCGATCATTCGGTGATTTCTGGATCGTTGTTCAGCGAAGCTTTGCT TCATTCGAGTGTCTGTTTCAGCAACCGCTTGCGATTTTCGCTTCAGATTCGACGGGTCTCTGATTGACGTTTTGTGCTTC ATCTTCGATTGCGTTTTTTGTGTCTGATTCAGGATCAGCTTCTACTTCGGGTTATGATTTCTGGTTTCATGAGCGTTTTG TGATTTGCATTTTGGTTCGTGATTTGAGATCTTCTTCAGTTTCGATCTTGTTCTCAGTGCATATGGATTTCGCATCTTCT CAGCCTCACGTGTCTGATTCACGACTTGCATCTGAATTGCGATTTGTTCGCGATTTCGCATCTTTTCTGACTGTCTCTGT TACGCATTCTGATTCGTGGTTTGGTCTAGGATTCACGTTGTTTGATTCCGGCTTCTCTTCATCGAAGCTCATCTTCTTCA ATCTCGTTTCTGCCAGTTTCAGATTCGGTTTTGTTGTAACCGTTGGTTCAGGTTCGCGATTTCAGGTTCTTATTAGTTCG TGATTTACTGATTTCTATTTTCCTGCATCGCGATTTTGCATCGTTTTTGCCTCGCGATTTCGGATTTCTGTGTTGGTCTT GTTGCGTATTTCACAGAACTCGTACAGTTTGTTGGTGATGAGGAATCTGCATCCTCTTAATTTGCAGTTGTTGGCTTCAA TTGATTGAATCTGGCTTCGATTGCTTCAGTTTTCTGGCTTCGATTGCTTCAGATTTTGGTCCCGATTGTTGTTTCCTGGT TTGTTCTCTCTACGTCACCCGTGGTAGAGCTTTTATGCAGTCGTCGATCCTCGTTTGTTCGTCACTGCAATTGGTTTCAT TCACACCGCTGCCTATGTACGTGTGATTTGCTTGTTGATTTCGGTTTGATTCTTGCACCAATGCCTATGTACTTGGTGAT TTTGTTGTATCTCTGCTTCTTTGTTCATGGAATTCAGCCATGGACGCCATGTGTATGCGGCAATGCACTGCAGATTTTTT TTCTGGTTTCTGTTTCAGTTCTGGACTTGCACAACATGCAAGCCGCTTCTGATATAGATTTGCATCTCTTGCTTGAATAA TATCCATCACAAGTTTTCCACAGGGTGATTTCTTCCCTTTGTATTTGGTGCTTTTATGCTTACCTTTGGTGTAGTTTTGG GTTTTGCCTCTGCAATTGGTGGCATTGGTATGATGTTGCAATGCATTCCATAGAGTCTCTACTGACAGGATATGCAAGGA GAAATGATGTTACTGTGTCATTCAAATTTGTTTCACCATGTTGCAGTTCCAATCCTCTTGGAAGAGTTTACATCTTGAAC TTTGTTGAACTTTCTAGATCTCACCTTGGGAAGTCCGTGCTACTTTATTGATACCACGCTTCAGATGTTACTGATTTTGC TTCAGATGCAAAAAGAACAGATCTTGCTTCAGATGCTGCTGATTTTGCTTCAGATGCTGCAGCAACAAGAAGAACAGATT TTGCTTCAGATGCTACTGATTTTGCTTCAGATGCTGCGGCAACAAGAAGAAACTCCACTAGAATTAGACATCAACCAACT CATCTCAAGGATTACATCTGTTCTTCCTCTTGTGCAGCCATTCCAACATCTTCCAAGATTTTCTTGGCAAATTTCATGAT ATGGGAACATTGTCCTGGAGACCGTTAGAATTGAAATGGGTGAACCACTTTGAGCAGGACCTCTGTACTGCACAGCTAGA GCTGGATTGTGTACGATGTTCTTGAGCATGCTGTAGTAAGCAATTGAGAGCATCCAAGGACACCACCTTCCAGCTACAAA TTTTCTCTTGTCCAAGCTTGGAATGTATGCTGTACATTCCAGCTTGAGGGGGGGTGTTAGAGATAAAAACACCTCCGCTT GACTCAAGCTTAGTGAGTAAGAGTCAAGCTTAGTAGTAGTAGTTTTGTTAGTTATACTTCTGTTATACTTGTTGAAGTTA GTTAGGAATTAGATACATTAGATTGGCTAGGTTCATTCACTTTGTATCCAAGCTGCAACTATATTAGGCAGCATTGTATC TTGTTCACAGTATCAATAATATCACAATGTAGTTTCTACATTTCTGTTACCACACACAACAAATTGCAGCTTCTTGTAAA ATAAGCAAGAAAAGGTCCTATGAGCACATGGGCAGCGCAAGTTTGGGGATGCATACAATGCACTATTTGCCTCGATTTCA CACTAATATTTTCACACGACGTTTTATGTGTCTTTTGTGGTTTTAGATGGCATTGGTTTCTGCAAACCTTTCTTTTCCAT ACAAAGTACATACAAGTTTCTAATCCTGCATTAGTTTCTAATAATATTGCCGACGATTCCACCGCCATCAACTTGTCTTA ACTCACTTTTATTATAATCAATTTTATCAAAATCAAATGTATCTAAAATCAATTCTGAGAACATTTATCCAAACACACAC TTTGATCTTGTGTTTCTGTAGTTTTTTTTGAGTTTGCAAGGCTCACTGTTCATAGACCCTGAAGAAGTTAATGAAAACTG TGTAATTGGTTGAGGCTCACTGTTCATAGACCCTGAAGAAGTTAATGAAAACTGTGTAATTGGTTGGCTAGTAGTTTTAA TCATATAATGAATAGCTGATGCTAATCAAAGGTTGAAGTTAAATTCGTTATCCTTGCAGGCACTATTATGAATGAAAAAG CAGAGAAAGATCTCCAAGATTTCAACACACCCACATTATTTTCAAACCTGTAAAATACTCTAAACTGCTCGTTTTAAAAC CGGGATCAAATATGTATGTACTTTAACACTATATTCGAATATCAAAAGAGATAGGAAGTGAAGAAACTGAAAGAAAGAAA TGAGTTGCAAGAGAAGGATTAGATAAAGATTATAAATTGTTTAGATAGGTACAAATAAGAAAACAAAAGATATCAAAATT TCTCTTTGCTTCTTTAAACAAATAGAGAAATTAATTAAATTTGGATAAGGAGTCGACT
Download Genomic Sequence

CDS sequence (LotjaGi1g1v0293300.5) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGGCGGCAGCGGTTGAGGTTTTCGAGAAGGAGGAGCTCGCGGCGTCTCTGGCCAAATACGTCGCCGATCTTTCCAATAA GTTCACTGCTGAAAGAGGGGCTTTCACTGTTTGTTTGTCTGGTGGGTCTTTGATCAGCTATCTCCGGAAATTGCTTGAGG CTCCTTATGTTGATTCTCTTGAATGGTCTAAATGGCATGTGTTTTGGTTGGATGAGAGGGTTGTGCCTAAGACTCATGAA GATAGTAACTACAAGCTTGCTTTTGATGGGTTTCTCTCCAAGGTTCCGATTCCACCCGGTAATGTTTATGCAATTAATGA TGCCCTGTCAGCTGAGGGAGCAGCTGATGATTATGAGACATGTCTCAGACACTTGGTCAAGAGCAATGTGATAACTTCAT CAGTCAGCGGATTTCCGAAATTTGATCTCATGCTGCTGGGCATGGGCCCTGATGGGCACGTTGCTTCTTTGTTCCCAGGG CATCCTCTTGTGGAGGAGAATAAAAGATGGGTTGCCTTCATCAAGGACTCGCCAAAACCACCACCAGAGAGAATAACTTT TACCTTTCCGGTGATCAATTCCTCTGCTTATGCTGCACTTGTGGTGACTGGTTCTGGTAAAGCAGATGCAGTTCACTCTG TACTGCGTGGCGGATCGCAAAACTCTAATAAGCTTCCTGCTGCATTGGTTTCACCTGAAGGGGAGTTGAAATGGTTCTTG GACAAAGGTGCAGCCTCCAAGCTGTAG
Download CDS Sequence

Protein sequence (LotjaGi1g1v0293300.5) extracted from Lotus japonicus Gifu v1.2 Proteins.

MAAAVEVFEKEELAASLAKYVADLSNKFTAERGAFTVCLSGGSLISYLRKLLEAPYVDSLEWSKWHVFWLDERVVPKTHE DSNYKLAFDGFLSKVPIPPGNVYAINDALSAEGAADDYETCLRHLVKSNVITSSVSGFPKFDLMLLGMGPDGHVASLFPG HPLVEENKRWVAFIKDSPKPPPERITFTFPVINSSAYAALVVTGSGKADAVHSVLRGGSQNSNKLPAALVSPEGELKWFL DKGAASKL
Download Protein Sequence

Domain prediction

Data for domain prediction are obtained with InterProScan, and merged with InterPro data obtained from the EB-eye REST service.

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Domains

Sorting

Prediction algorithm Identifier Start End Length E-value InterPro ID
Gene3D
G3DSA:3.40.50.1360
2 248 247 1.6E-82
PANTHER
PTHR11054:SF19
4 248 245 2.8E-130
PANTHER
PTHR11054
4 248 245 2.8E-130
IPR039104
TIGRFAM
TIGR01198
9 248 240 9.9E-67
IPR005900
Pfam
PF01182
10 238 229 3.9E-74
IPR006148
SUPERFAMILY
SSF100950
10 248 239 2.77E-70
IPR037171
CDD
cd01400
11 240 230 3.01735E-101
IPR005900

Gene function (GO predictions)

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
GO:0005975
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.
Subterm of
GO:0006098
Biological process Pentose-phosphate shunt The glucose-6-phosphate catabolic process in which, coupled to NADPH synthesis, glucose-6-P is oxidized with the formation of carbon dioxide (CO2) and ribulose 5-phosphate; ribulose 5-P then enters a series of reactions interconverting sugar phosphates. The pentose phosphate pathway is a major source of reducing equivalents for biosynthesis reactions and is also important for the conversion of hexoses to pentoses.
Subterm of
GO:0017057
Molecular function 6-phosphogluconolactonase activity Catalysis of the reaction: 6-O-phosphono-D-glucono-1,5-lactone + H(2)O = 6-phospho-D-gluconate + H(+).
Subterm of

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Expression data

Expression pattern

Expression pattern of LotjaGi1g1v0293300.5, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

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