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Information on Organism Aspergillus tamarii

TaxTree of Organism Aspergillus tamarii
Condensed Tree View
Eukaryota can be found in Brenda BRENDA pathways(superkingdom)
Fungi can be found in Brenda BRENDA pathways(kingdom)
Dikarya can be found in Brenda BRENDA pathways(subkingdom)
Ascomycota can be found in Brenda BRENDA pathways(phylum)
Pezizomycotina can be found in Brenda BRENDA pathways(subphylum)
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PATHWAY
BRENDA Link
KEGG Link
MetaCyc Link
(1,4)-beta-D-xylan degradation
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(R)-cysteate degradation
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(S)-lactate fermentation to propanoate, acetate and hydrogen
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(S)-reticuline biosynthesis I
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1-butanol autotrophic biosynthesis (engineered)
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11-oxyandrogens biosynthesis
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24-epi-campesterol, fucosterol, and clionasterol biosynthesis (diatoms)
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3-(4-hydroxyphenyl)pyruvate biosynthesis
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4-hydroxybenzoate biosynthesis I (eukaryotes)
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aerobic respiration I (cytochrome c)
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aerobic respiration II (cytochrome c) (yeast)
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aerobic respiration III (alternative oxidase pathway)
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alanine metabolism
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Alanine, aspartate and glutamate metabolism
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alpha-tomatine degradation
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Amino sugar and nucleotide sugar metabolism
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anaerobic energy metabolism (invertebrates, cytosol)
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androgen and estrogen metabolism
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androgen biosynthesis
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anhydromuropeptides recycling I
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anhydromuropeptides recycling II
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Arginine and proline metabolism
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Arginine biosynthesis
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aspartate and asparagine metabolism
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atromentin biosynthesis
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backdoor pathway of androgen biosynthesis
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beta-(1,4)-mannan degradation
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Bifidobacterium shunt
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Biosynthesis of secondary metabolites
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brassinosteroid biosynthesis I
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brassinosteroid biosynthesis II
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Butanoate metabolism
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C4 and CAM-carbon fixation
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C4 photosynthetic carbon assimilation cycle, NAD-ME type
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C4 photosynthetic carbon assimilation cycle, PEPCK type
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Calvin-Benson-Bassham cycle
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Carbon fixation in photosynthetic organisms
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Carbon fixation pathways in prokaryotes
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cellulose and hemicellulose degradation (cellulolosome)
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cellulose degradation
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cellulose degradation II (fungi)
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chitin deacetylation
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chitin degradation II (Vibrio)
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chitin degradation III (Serratia)
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cholesterol biosynthesis
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cholesterol biosynthesis (algae, late side-chain reductase)
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cholesterol biosynthesis (diatoms)
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cholesterol biosynthesis (plants, early side-chain reductase)
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cholesterol biosynthesis II (via 24,25-dihydrolanosterol)
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cholesterol degradation to androstenedione I (cholesterol oxidase)
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cholesterol degradation to androstenedione II (cholesterol dehydrogenase)
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cholesterol degradation to androstenedione III (anaerobic)
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Citrate cycle (TCA cycle)
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citric acid cycle
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coenzyme M biosynthesis
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coenzyme M biosynthesis II
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coumarin biosynthesis (via 2-coumarate)
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crotonyl-CoA/ethylmalonyl-CoA/hydroxybutyryl-CoA cycle (engineered)
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Cyanoamino acid metabolism
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Cysteine and methionine metabolism
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cysteine metabolism
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d-mannose degradation
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d-xylose degradation
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D-xylose degradation IV
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digitoxigenin biosynthesis
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dimethyl sulfide biosynthesis from methionine
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Entner-Doudoroff pathway I
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ergosterol biosynthesis II
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ethanol degradation IV
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ethene biosynthesis III (microbes)
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firefly bioluminescence
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formaldehyde assimilation I (serine pathway)
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formaldehyde assimilation III (dihydroxyacetone cycle)
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fructan degradation
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Fructose and mannose metabolism
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Galactose metabolism
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gamma-glutamyl cycle
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ginsenoside metabolism
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gluconeogenesis
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gluconeogenesis I
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gluconeogenesis III
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glutamate and glutamine metabolism
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Glutathione metabolism
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glutathione metabolism
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glycerol degradation to butanol
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Glycerolipid metabolism
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Glycerophospholipid metabolism
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glycogen metabolism
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glycolate and glyoxylate degradation II
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glycolysis
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Glycolysis / Gluconeogenesis
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glycolysis I (from glucose 6-phosphate)
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glycolysis II (from fructose 6-phosphate)
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glycolysis III (from glucose)
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glycolysis IV
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Glycosaminoglycan degradation
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Glycosphingolipid biosynthesis - ganglio series
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Glycosphingolipid biosynthesis - globo and isoglobo series
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Glyoxylate and dicarboxylate metabolism
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glyoxylate cycle
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heterolactic fermentation
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hypoglycin biosynthesis
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incomplete reductive TCA cycle
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indole-3-acetate biosynthesis II
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indole-3-acetate biosynthesis VI (bacteria)
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inulin degradation
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Isoquinoline alkaloid biosynthesis
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L-alanine biosynthesis II
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L-alanine degradation II (to D-lactate)
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L-alanine degradation III
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L-alanine degradation V (oxidative Stickland reaction)
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L-alanine degradation VI (reductive Stickland reaction)
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L-arabinose degradation IV
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L-asparagine biosynthesis I
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L-asparagine degradation I
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L-asparagine degradation III (mammalian)
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L-aspartate biosynthesis
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L-aspartate degradation I
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L-glutamate degradation II
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L-phenylalanine biosynthesis I
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L-phenylalanine degradation II (anaerobic)
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L-phenylalanine degradation III
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L-phenylalanine degradation IV (mammalian, via side chain)
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L-phenylalanine degradation VI (reductive Stickland reaction)
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L-tryptophan degradation IV (via indole-3-lactate)
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L-tryptophan degradation VIII (to tryptophol)
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L-tryptophan degradation XIII (reductive Stickland reaction)
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L-tyrosine biosynthesis I
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L-tyrosine degradation I
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L-tyrosine degradation II
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L-tyrosine degradation III
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L-tyrosine degradation IV (to 4-methylphenol)
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L-tyrosine degradation V (reductive Stickland reaction)
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leukotriene biosynthesis
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linamarin degradation
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linustatin bioactivation
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lipid metabolism
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lotaustralin degradation
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malate/L-aspartate shuttle pathway
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melibiose degradation
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Metabolic pathways
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metabolism of disaccharids
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Methane metabolism
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methanol oxidation to formaldehyde IV
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methionine metabolism
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methylaspartate cycle
Microbial metabolism in diverse environments
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mixed acid fermentation
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neolinustatin bioactivation
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nitrate reduction II (assimilatory)
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Nitrogen metabolism
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non-pathway related
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Novobiocin biosynthesis
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Other glycan degradation
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Oxidative phosphorylation
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partial TCA cycle (obligate autotrophs)
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Phenylalanine metabolism
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Phenylalanine, tyrosine and tryptophan biosynthesis
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Phenylpropanoid biosynthesis
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photosynthesis
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phytosterol biosynthesis (plants)
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progesterone biosynthesis
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propionate fermentation
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pyruvate fermentation to propanoate I
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Pyruvate metabolism
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reactive oxygen species degradation
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reductive TCA cycle I
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reductive TCA cycle II
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retinol biosynthesis
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rosmarinic acid biosynthesis I
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seleno-amino acid detoxification and volatilization I
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seleno-amino acid detoxification and volatilization III
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Selenocompound metabolism
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sitosterol degradation to androstenedione
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Sphingolipid metabolism
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stachyose degradation
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Starch and sucrose metabolism
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starch degradation
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Steroid biosynthesis
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Steroid degradation
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Steroid hormone biosynthesis
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succinate to chytochrome c oxidase via cytochrome c6
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succinate to cytochrome bd oxidase electron transfer
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succinate to cytochrome bo oxidase electron transfer
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succinate to cytochrome c oxidase via plastocyanin
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succinate to plastoquinol oxidase
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sucrose biosynthesis I (from photosynthesis)
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sucrose degradation III (sucrose invertase)
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sucrose degradation V (sucrose alpha-glucosidase)
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sulfolactate degradation III
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superoxide radicals degradation
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superpathway of glucose and xylose degradation
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superpathway of glyoxylate cycle and fatty acid degradation
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superpathway of L-aspartate and L-asparagine biosynthesis
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Taurine and hypotaurine metabolism
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TCA cycle I (prokaryotic)
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TCA cycle II (plants and fungi)
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TCA cycle III (animals)
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TCA cycle IV (2-oxoglutarate decarboxylase)
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TCA cycle V (2-oxoglutarate synthase)
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TCA cycle VII (acetate-producers)
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TCA cycle VIII (Chlamydia)
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testosterone and androsterone degradation to androstendione (aerobic)
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triacylglycerol degradation
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Tropane, piperidine and pyridine alkaloid biosynthesis
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Tryptophan metabolism
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Tyrosine metabolism
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Various types of N-glycan biosynthesis
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xyloglucan degradation II (exoglucanase)
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zymosterol biosynthesis
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ORGANISM
COMMENTARY hide
LITERATURE
UNIPROT
SEQUENCE DB
SOURCE
SOURCE TISSUE
ORGANISM
UNIPROT
COMMENTARY hide
LITERATURE
SOURCE
additional information
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highest L-asparaginase production in 2% proline medium, the lowest L-asparaginase production levels is found in the presence of glutamine and urea as nitrogen sources
Manually annotated by BRENDA team
LOCALIZATION
ORGANISM
UNIPROT
COMMENTARY hide
GeneOntology No.
LITERATURE
SOURCE
LINKS TO OTHER DATABASES (specific for Aspergillus tamarii)