Information on Organism Gluconobacter frateurii CHM 9

EC NUMBER
COMMENTARY hide
PATHWAY
BRENDA Link
KEGG Link
MetaCyc Link
(S)-propane-1,2-diol degradation
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3-methylbutanol biosynthesis (engineered)
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acetaldehyde biosynthesis I
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acetylene degradation (anaerobic)
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alpha-Linolenic acid metabolism
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Biosynthesis of secondary metabolites
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butanol and isobutanol biosynthesis (engineered)
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chitin degradation to ethanol
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Chloroalkane and chloroalkene degradation
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D-arabitol degradation
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D-sorbitol degradation I
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degradation of sugar alcohols
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Drug metabolism - cytochrome P450
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ethanol degradation I
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ethanol degradation II
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ethanol fermentation
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ethanolamine utilization
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Fatty acid degradation
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Fructose and mannose metabolism
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Glycine, serine and threonine metabolism
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Glycolysis / Gluconeogenesis
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heterolactic fermentation
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L-isoleucine degradation II
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L-leucine degradation III
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L-methionine degradation III
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L-phenylalanine degradation III
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L-tryptophan degradation V (side chain pathway)
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L-tyrosine degradation III
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L-valine degradation II
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leucine metabolism
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long chain fatty acid ester synthesis (engineered)
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Metabolic pathways
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Metabolism of xenobiotics by cytochrome P450
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methionine metabolism
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Microbial metabolism in diverse environments
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mixed acid fermentation
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Naphthalene degradation
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noradrenaline and adrenaline degradation
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Pentose and glucuronate interconversions
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phenylalanine metabolism
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Phenylalanine, tyrosine and tryptophan biosynthesis
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phenylethanol biosynthesis
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phytol degradation
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propanol degradation
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pyruvate fermentation to ethanol I
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pyruvate fermentation to ethanol II
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pyruvate fermentation to ethanol III
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pyruvate fermentation to isobutanol (engineered)
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Retinol metabolism
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salidroside biosynthesis
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serotonin degradation
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shikimate degradation II
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superpathway of fermentation (Chlamydomonas reinhardtii)
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Tyrosine metabolism
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tyrosine metabolism
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valine metabolism
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ORGANISM
COMMENTARY hide
LITERATURE
UNIPROT
SEQUENCE DB
SOURCE
LOCALIZATION
ORGANISM
UNIPROT
COMMENTARY hide
GeneOntology No.
LITERATURE
SOURCE
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localization of the enzyme on the outer surface of the organism is advantageous to facilitate the oxidative fermentation of the cyclic alcohols. Since cyclic alcohols have some biological toxicity to living cells, according to the mechanism of the oxidative fermentation, there is no need to incorporate such toxic compounds into the cytoplasm
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Manually annotated by BRENDA team
LINKS TO OTHER DATABASES (specific for Gluconobacter frateurii CHM 9)
NCBI: Taxonomy, PubMed, Genome