Information on Organism Aspergillus fumigatus Af293

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PATHWAY
BRENDA Link
KEGG Link
MetaCyc Link
anaerobic energy metabolism (invertebrates, mitochondrial)
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C4 photosynthetic carbon assimilation cycle, NAD-ME type
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chitin degradation to ethanol
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gluconeogenesis
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gluconeogenesis I
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L-carnitine degradation III
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L-malate degradation II
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Pyruvate metabolism
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Biosynthesis of secondary metabolites
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fumigaclavine biosynthesis
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Indole alkaloid biosynthesis
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3-chlorocatechol degradation
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Benzoate degradation
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catechol degradation to beta-ketoadipate
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Chlorocyclohexane and chlorobenzene degradation
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Fluorobenzoate degradation
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Metabolic pathways
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Microbial metabolism in diverse environments
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phenol degradation
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Toluene degradation
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Aminobenzoate degradation
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chlorinated phenols degradation
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phenol degradation I (aerobic)
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ferrichrome A biosynthesis
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pyoverdine I biosynthesis
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urea cycle
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cholesterol biosynthesis
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cholesterol biosynthesis (plants)
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ergosterol biosynthesis II
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Steroid biosynthesis
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Betalain biosynthesis
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firefly bioluminescence
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Isoquinoline alkaloid biosynthesis
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L-dopa and L-dopachrome biosynthesis
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pheomelanin biosynthesis
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Tyrosine metabolism
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ethylene biosynthesis III (microbes)
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non-pathway related
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reactive oxygen species degradation
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superoxide radicals degradation
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fumitremorgin biosynthesis
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fumitremorgin C biosynthesis
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Staurosporine biosynthesis
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cis-zeatin biosynthesis
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Zeatin biosynthesis
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Amino sugar and nucleotide sugar metabolism
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d-mannose degradation
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Fructose and mannose metabolism
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GDP-mannose biosynthesis
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L-ascorbate biosynthesis I (L-galactose pathway)
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acyl carrier protein activation
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acyl carrier protein metabolism
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enterobactin biosynthesis
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lipid metabolism
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Pantothenate and CoA biosynthesis
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petrobactin biosynthesis
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acyl-CoA hydrolysis
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bacterial bioluminescence
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Biosynthesis of unsaturated fatty acids
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cutin biosynthesis
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Fatty acid elongation
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oleate biosynthesis II (animals and fungi)
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palmitate biosynthesis (animals and fungi, cytoplasm)
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sporopollenin precursors biosynthesis
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stearate biosynthesis I (animals)
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stearate biosynthesis III (fungi)
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suberin monomers biosynthesis
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(1,4)-beta-D-xylan degradation
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cellulose and hemicellulose degradation (cellulolosome)
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d-xylose degradation
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chitin degradation I (archaea)
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chitin degradation II (Vibrio)
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chitin degradation III (Serratia)
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Other glycan degradation
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Sphingolipid metabolism
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fructan degradation
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Cyanoamino acid metabolism
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indole glucosinolate activation (herbivore attack)
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indole-3-acetate biosynthesis II
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indole-3-acetate biosynthesis V (bacteria and fungi)
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Nitrogen metabolism
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Styrene degradation
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Tryptophan metabolism
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2-methylcitrate cycle I
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2-methylcitrate cycle II
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Propanoate metabolism
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propionate fermentation
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Cysteine and methionine metabolism
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cysteine metabolism
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Glycine, serine and threonine metabolism
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homocysteine and cysteine interconversion
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hydrogen sulfide biosynthesis II (mammalian)
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L-cysteine biosynthesis III (from L-homocysteine)
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L-cysteine biosynthesis VI (from L-methionine)
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colanic acid building blocks biosynthesis
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D-galactose degradation I (Leloir pathway)
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D-galactose detoxification
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degradation of hexoses
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Galactose metabolism
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mycolyl-arabinogalactan-peptidoglycan complex biosynthesis
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stachyose degradation
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superpathway of UDP-glucose-derived O-antigen building blocks biosynthesis
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UDP-alpha-D-galactose biosynthesis
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Sesquiterpenoid and triterpenoid biosynthesis
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protein ubiquitination
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beta-Alanine metabolism
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pantothenate biosynthesis
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phosphopantothenate biosynthesis I
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ORGANISM
COMMENTARY hide
LITERATURE
UNIPROT
SEQUENCE DB
SOURCE
SOURCE TISSUE
ORGANISM
UNIPROT
COMMENTARY hide
LITERATURE
SOURCE
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the organism is unable to use either sialic acid or colominic acid as a sole source of carbon
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Manually annotated by BRENDA team
LOCALIZATION
ORGANISM
UNIPROT
COMMENTARY hide
GeneOntology No.
LITERATURE
SOURCE
LINKS TO OTHER DATABASES (specific for Aspergillus fumigatus Af293)