Information on Organism Streptococcus pneumoniae

TaxTree of Organism Streptococcus pneumoniae
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EC NUMBER
COMMENTARY hide
deleted, the activty is included in EC 1.3.5.1, succinate dehydrogenase (quinone)
preliminary BRENDA-supplied EC number
preliminary BRENDA-supplied EC number
preliminary BRENDA-supplied EC number
preliminary BRENDA-supplied EC number
preliminary BRENDA-supplied EC number
preliminary BRENDA-supplied EC number
preliminary BRENDA-supplied EC number
preliminary BRENDA-supplied EC number
preliminary BRENDA-supplied EC number
preliminary BRENDA-supplied EC number
preliminary BRENDA-supplied EC number
deleted 2008. Now divided into EC 4.3.1.23 (tyrosine ammonia-lyase), EC 4.3.1.24 (phenylalanine ammonia-lyase) and EC 4.3.1.25 (phenylalanine/tyrosine ammonia-lyase)
transferred to EC 5.4.2.11, EC 5.4.2.12. Now recognized as two separate enzymes EC 5.4.2.11, phosphoglycerate mutase (2,3-diphosphoglycerate-dependent) and EC 5.4.2.12, phosphoglycerate mutase (2,3-diphosphoglycerate-independent)
PATHWAY
BRENDA Link
KEGG Link
MetaCyc Link
(S)-propane-1,2-diol degradation
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-
3-methylbutanol biosynthesis (engineered)
-
-
acetaldehyde biosynthesis I
-
-
acetylene degradation (anaerobic)
-
-
alpha-Linolenic acid metabolism
-
-
Biosynthesis of secondary metabolites
-
-
butanol and isobutanol biosynthesis (engineered)
-
-
chitin degradation to ethanol
-
-
Chloroalkane and chloroalkene degradation
-
-
Drug metabolism - cytochrome P450
-
-
ethanol degradation I
-
-
ethanol degradation II
-
-
ethanol fermentation
-
-
ethanolamine utilization
-
-
Fatty acid degradation
-
-
Glycine, serine and threonine metabolism
-
-
Glycolysis / Gluconeogenesis
-
-
heterolactic fermentation
-
-
L-isoleucine degradation II
-
-
L-leucine degradation III
-
-
L-methionine degradation III
-
-
L-phenylalanine degradation III
-
-
L-tryptophan degradation V (side chain pathway)
-
-
L-tyrosine degradation III
-
-
L-valine degradation II
-
-
leucine metabolism
-
-
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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phenylalanine metabolism
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-
phenylethanol biosynthesis
-
-
phytol degradation
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-
propanol degradation
-
-
pyruvate fermentation to ethanol I
-
-
pyruvate fermentation to ethanol II
-
-
pyruvate fermentation to ethanol III
-
-
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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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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degradation of sugar alcohols
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Pentose and glucuronate interconversions
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xylitol degradation
-
-
Amino sugar and nucleotide sugar metabolism
-
-
Ascorbate and aldarate metabolism
-
-
non-pathway related
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teichuronic acid biosynthesis (B. subtilis 168)
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UDP-alpha-D-glucuronate biosynthesis (from UDP-glucose)
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(S)-lactate fermentation to propanoate, acetate and hydrogen
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Bifidobacterium shunt
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Cysteine and methionine metabolism
-
-
L-lactaldehyde degradation
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lactate fermentation
-
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Propanoate metabolism
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pyruvate fermentation to (S)-lactate
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Pyruvate metabolism
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superpathway of glucose and xylose degradation
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alanine metabolism
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L-alanine degradation II (to D-lactate)
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vancomycin resistance I
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isoprene biosynthesis II (engineered)
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mevalonate metabolism
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mevalonate pathway I
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mevalonate pathway II (archaea)
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mevalonate pathway III (archaea)
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Terpenoid backbone biosynthesis
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anaerobic energy metabolism (invertebrates, cytosol)
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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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Carbon fixation in photosynthetic organisms
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Carbon fixation pathways in prokaryotes
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Citrate cycle (TCA cycle)
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citric acid cycle
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formaldehyde assimilation I (serine pathway)
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gluconeogenesis I
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gluconeogenesis III
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Glyoxylate and dicarboxylate metabolism
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glyoxylate cycle
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incomplete reductive TCA cycle
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malate/L-aspartate shuttle pathway
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Methane metabolism
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methylaspartate cycle
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partial TCA cycle (obligate autotrophs)
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pyruvate fermentation to propanoate I
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reductive TCA cycle I
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reductive TCA cycle II
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superpathway of glyoxylate cycle and fatty acid degradation
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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:ferredoxin oxidoreductase)
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glucose degradation (oxidative)
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Glutathione metabolism
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Pentose phosphate pathway
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pentose phosphate pathway
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pentose phosphate pathway (oxidative branch) I
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Entner-Doudoroff pathway I
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formaldehyde oxidation I
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NAD/NADP-NADH/NADPH cytosolic interconversion (yeast)
-
-
superpathway of glycolysis and the Entner-Doudoroff pathway
-
-
CDP-diacylglycerol biosynthesis
-
-
CDP-diacylglycerol biosynthesis I
-
-
CDP-diacylglycerol biosynthesis II
-
-
CDP-diacylglycerol biosynthesis III
-
-
glucosylglycerol biosynthesis
-
-
Glycerophospholipid metabolism
-
-
(5Z)-dodecenoate biosynthesis I
-
-
(5Z)-dodecenoate biosynthesis II
-
-
8-amino-7-oxononanoate biosynthesis I
-
-
arachidonate biosynthesis
-
-
Biotin metabolism
-
-
cis-vaccenate biosynthesis
Fatty acid biosynthesis
-
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fatty acid elongation -- saturated
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gondoate biosynthesis (anaerobic)
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lipid metabolism
-
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mycolate biosynthesis
-
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myristate biosynthesis (mitochondria)
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octanoyl-[acyl-carrier protein] biosynthesis (mitochondria, yeast)
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oleate biosynthesis IV (anaerobic)
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palmitate biosynthesis
-
-
palmitate biosynthesis II (bacteria and plant cytoplasm)
-
-
palmitoleate biosynthesis I (from (5Z)-dodec-5-enoate)
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petroselinate biosynthesis
-
-
stearate biosynthesis II (bacteria and plants)
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superpathway of mycolate biosynthesis
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retinoate biosynthesis I
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Entner Doudoroff pathway
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adenosine nucleotides degradation I
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Drug metabolism - other enzymes
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guanosine ribonucleotides de novo biosynthesis
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inosine 5'-phosphate degradation
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Purine metabolism
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purine metabolism
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formaldehyde oxidation
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formaldehyde oxidation II (glutathione-dependent)
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protein S-nitrosylation and denitrosylation
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poly(ribitol phosphate) wall teichoic acid biosynthesis I (B. subtilis)
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poly(ribitol phosphate) wall teichoic acid biosynthesis II (S. aureus)
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type IV lipoteichoic acid biosynthesis (S. pneumoniae)
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glycine metabolism
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photorespiration
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3-dehydroquinate biosynthesis II (archaea)
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dipicolinate biosynthesis
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ectoine biosynthesis
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grixazone biosynthesis
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-
L-homoserine biosynthesis
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-
L-lysine biosynthesis I
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L-lysine biosynthesis II
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L-lysine biosynthesis III
-
-
L-lysine biosynthesis VI
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L-methionine biosynthesis IV (archaea)
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Lysine biosynthesis
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Monobactam biosynthesis
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norspermidine biosynthesis
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spermidine biosynthesis II
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threonine metabolism
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formaldehyde assimilation III (dihydroxyacetone cycle)
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glycerol degradation to butanol
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glycolysis
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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 (plant cytosol)
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sucrose biosynthesis I (from photosynthesis)
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acetate fermentation
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acetyl-CoA biosynthesis II (NADP-dependent pyruvate dehydrogenase)
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oxidative decarboxylation of pyruvate
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photosynthesis
-
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acetyl CoA biosynthesis
-
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pyruvate decarboxylation to acetyl CoA
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Butanoate metabolism
-
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Entner-Doudoroff pathway II (non-phosphorylative)
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gluconeogenesis II (Methanobacterium thermoautotrophicum)
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isopropanol biosynthesis (engineered)
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L-glutamate degradation VII (to butanoate)
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Nitrotoluene degradation
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purine nucleobases degradation II (anaerobic)
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pyruvate fermentation to acetate I
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pyruvate fermentation to acetate III
-
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pyruvate fermentation to acetate VI
-
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pyruvate fermentation to acetate VII
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pyruvate fermentation to acetone
-
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pyruvate fermentation to butanoate
-
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pyruvate fermentation to butanol I
-
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pyruvate fermentation to hexanol (engineered)
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reductive monocarboxylic acid cycle
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anhydromuropeptides recycling I
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Peptidoglycan biosynthesis
-
-
peptidoglycan biosynthesis
-
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UDP-N-acetylmuramoyl-pentapeptide biosynthesis I (meso-diaminopimelate containing)
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UDP-N-acetylmuramoyl-pentapeptide biosynthesis II (lysine-containing)
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UDP-N-acetylmuramoyl-pentapeptide biosynthesis III (meso-diaminopimelate containing)
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3,8-divinyl-chlorophyllide a biosynthesis I (aerobic, light-dependent)
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3,8-divinyl-chlorophyllide a biosynthesis III (aerobic, light independent)
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heme b biosynthesis I (aerobic)
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heme metabolism
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Porphyrin and chlorophyll metabolism
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superpathway of heme b biosynthesis from uroporphyrinogen-III
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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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Oxidative phosphorylation
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propionate fermentation
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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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TCA cycle VII (acetate-producers)
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3,8-divinyl-chlorophyllide a biosynthesis II (anaerobic)
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heme b biosynthesis II (oxygen-independent)
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4-aminobutanoate degradation V
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Alanine, aspartate and glutamate metabolism
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Arginine biosynthesis
-
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ethylene biosynthesis IV (engineered)
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glutamate and glutamine metabolism
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L-glutamate degradation I
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L-glutamate degradation V (via hydroxyglutarate)
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Nitrogen metabolism
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Taurine and hypotaurine metabolism
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Arginine and proline metabolism
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aromatic biogenic amine degradation (bacteria)
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dopamine degradation
-
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Histidine metabolism
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Isoquinoline alkaloid biosynthesis
-
-
L-phenylalanine degradation IV (mammalian, via side chain)
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L-tryptophan degradation VI (via tryptamine)
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L-tryptophan degradation X (mammalian, via tryptamine)
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melatonin degradation II
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Phenylalanine metabolism
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putrescine degradation III
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Tryptophan metabolism
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tryptophan metabolism
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glycine biosynthesis II
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glycine cleavage
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Folate biosynthesis
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folate transformations II (plants)
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folate transformations III (E. coli)
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One carbon pool by folate
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tetrahydrofolate biosynthesis
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tetrahydrofolate metabolism
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folate transformations I
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reductive acetyl coenzyme A pathway I (homoacetogenic bacteria)
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NAD metabolism
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NAD/NADH phosphorylation and dephosphorylation
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Nicotinate and nicotinamide metabolism
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ascorbate recycling (cytosolic)
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ammonia oxidation II (anaerobic)
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denitrification
-
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nitrate reduction I (denitrification)
-
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nitrate reduction VII (denitrification)
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nitrifier denitrification
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nitrite-dependent anaerobic methane oxidation
-
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2-oxoglutarate decarboxylation to succinyl-CoA
-
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2-oxoisovalerate decarboxylation to isobutanoyl-CoA
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Lysine degradation
-
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Valine, leucine and isoleucine degradation
-
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glutathione metabolism
-
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glutathione-peroxide redox reactions
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Selenocompound metabolism
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thioredoxin pathway
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dissimilatory sulfate reduction I (to hydrogen sufide))
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dissimilatory sulfate reduction II (to thiosulfate)
-
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sulfate reduction
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sulfite oxidation II
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sulfite oxidation III
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Sulfur metabolism
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o-diquinones biosynthesis
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ethanol degradation IV
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methanol oxidation to formaldehyde IV
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reactive oxygen species degradation
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superoxide radicals degradation
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baicalein degradation (hydrogen peroxide detoxification)
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betanidin degradation
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justicidin B biosynthesis
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luteolin triglucuronide degradation
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matairesinol biosynthesis
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Phenylpropanoid biosynthesis
-
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sesamin biosynthesis
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Arachidonic acid metabolism
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arachidonic acid metabolism
-
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2-nitrotoluene degradation
-
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Benzoate degradation
-
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catechol degradation to 2-hydroxypentadienoate I
-
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catechol degradation to 2-hydroxypentadienoate II
-
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Chlorocyclohexane and chlorobenzene degradation
-
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phenol degradation
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Styrene degradation
-
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toluene degradation to 2-hydroxypentadienoate (via 4-methylcatechol)
-
-
toluene degradation to 2-hydroxypentadienoate (via toluene-cis-diol)
-
-
toluene degradation to 2-hydroxypentadienoate I (via o-cresol)
-
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Xylene degradation
-
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divinyl ether biosynthesis II
-
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jasmonic acid biosynthesis
-
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Linoleic acid metabolism
-
-
traumatin and (Z)-3-hexen-1-yl acetate biosynthesis
-
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L-tyrosine degradation I
-
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plastoquinol-9 biosynthesis I
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Ubiquinone and other terpenoid-quinone biosynthesis
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vitamin E biosynthesis (tocopherols)
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anandamide lipoxygenation
-
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15-epi-lipoxin biosynthesis
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aspirin triggered resolvin D biosynthesis
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aspirin triggered resolvin E biosynthesis
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leukotriene biosynthesis
-
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lipoxin biosynthesis
-
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resolvin D biosynthesis
-
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3-hydroxy-4-methyl-anthranilate biosynthesis I
-
-
3-hydroxy-4-methyl-anthranilate biosynthesis II
-
-
L-tryptophan degradation I (via anthranilate)
-
-
L-tryptophan degradation to 2-amino-3-carboxymuconate semialdehyde
-
-
L-tryptophan degradation XI (mammalian, via kynurenine)
-
-
alkylnitronates degradation
-
-
nicotine degradation IV
-
-
nitric oxide biosynthesis II (mammals)
-
-
1,5-anhydrofructose degradation
-
-
acetone degradation I (to methylglyoxal)
-
-
acetone degradation III (to propane-1,2-diol)
-
-
Amaryllidacea alkaloids biosynthesis
-
-
Aminobenzoate degradation
-
-
bupropion degradation
-
-
Caffeine metabolism
-
-
melatonin degradation I
-
-
nicotine degradation V
-
-
Steroid hormone biosynthesis
-
-
vanillin biosynthesis I
-
-
bacterial bioluminescence
-
-
4-hydroxyphenylacetate degradation
heme degradation I
-
-
L-phenylalanine degradation I (aerobic)
-
-
L-phenylalanine degradation V
-
-
L-tyrosine biosynthesis IV
-
-
Phenylalanine, tyrosine and tryptophan biosynthesis
-
-
Betalain biosynthesis
-
-
firefly bioluminescence
-
-
L-dopa and L-dopachrome biosynthesis
-
-
pheomelanin biosynthesis
-
-
Biosynthesis of unsaturated fatty acids
-
-
oleate biosynthesis II (animals and fungi)
-
-
sorgoleone biosynthesis
-
-
C20 prostanoid biosynthesis
-
-
ethylene biosynthesis III (microbes)
-
-
adenosine nucleotides degradation II
-
-
caffeine degradation III (bacteria, via demethylation)
-
-
guanosine nucleotides degradation I
-
-
guanosine nucleotides degradation II
-
-
guanosine nucleotides degradation III
-
-
purine nucleobases degradation I (anaerobic)
-
-
theophylline degradation
-
-
Pyrimidine metabolism
-
-
thyroid hormone metabolism I (via deiodination)
-
-
thyroid hormone metabolism II (via conjugation and/or degradation)
-
-
L-methionine biosynthesis I
-
-
L-methionine biosynthesis III
-
-
L-methionine salvage from L-homocysteine
-
-
pyrimidine deoxyribonucleosides salvage
-
-
pyrimidine deoxyribonucleotides biosynthesis from CTP
-
-
pyrimidine deoxyribonucleotides de novo biosynthesis I
-
-
pyrimidine deoxyribonucleotides de novo biosynthesis II
-
-
pyrimidine deoxyribonucleotides de novo biosynthesis IV
-
-
pyrimidine metabolism
-
-
superpathway of pyrimidine deoxyribonucleotides de novo biosynthesis (E. coli)
-
-
pinitol biosynthesis I
-
-
7-(3-amino-3-carboxypropyl)-wyosine biosynthesis
-
-
methylwyosine biosynthesis
-
-
tRNA methylation (yeast)
-
-
Aminoacyl-tRNA biosynthesis
-
-
L-arginine biosynthesis I (via L-ornithine)
-
-
L-arginine biosynthesis II (acetyl cycle)
-
-
L-arginine biosynthesis IV (archaebacteria)
-
-
L-citrulline biosynthesis
-
-
L-citrulline degradation
-
-
L-proline biosynthesis II (from arginine)
-
-
urea cycle
Biosynthesis of ansamycins
-
-
Calvin-Benson-Bassham cycle
-
-
formaldehyde assimilation II (assimilatory RuMP Cycle)
-
-
pentose phosphate pathway (non-oxidative branch)
-
-
pentose phosphate pathway (partial)
-
-
Rubisco shunt
-
-
acetate and ATP formation from acetyl-CoA I
-
-
gallate degradation III (anaerobic)
-
-
L-lysine fermentation to acetate and butanoate
-
-
methanogenesis from acetate
-
-
pyruvate fermentation to acetate II
-
-
pyruvate fermentation to acetate IV
-
-
sulfoacetaldehyde degradation I
-
-
sulfolactate degradation II
-
-
(R)- and (S)-3-hydroxybutanoate biosynthesis (engineered)
-
-
2-deoxy-D-ribose degradation II
-
-
2-methylpropene degradation
-
-
3-hydroxypropanoate/4-hydroxybutanate cycle
-
-
acetoacetate degradation (to acetyl CoA)
-
-
acetyl-CoA fermentation to butanoate II
-
-
butanoate fermentation
-
-
CO2 fixation in Crenarchaeota
-
-
crotonate fermentation (to acetate and cyclohexane carboxylate)
-
-
ethylmalonyl-CoA pathway
-
-
glutaryl-CoA degradation
-
-
ketogenesis
-
-
ketolysis
-
-
methyl tert-butyl ether degradation
-
-
oleate beta-oxidation
-
-
polyhydroxybutanoate biosynthesis
-
-
pyruvate fermentation to butanol II (engineered)
-
-
Synthesis and degradation of ketone bodies
-
-
anandamide biosynthesis I
-
-
anandamide biosynthesis II
-
-
diacylglycerol and triacylglycerol biosynthesis
-
-
Glycerolipid metabolism
-
-
oleate biosynthesis III (cyanobacteria)
-
-
palmitoyl ethanolamide biosynthesis
-
-
phosphatidate biosynthesis (yeast)
-
-
stigma estolide biosynthesis
-
-
carnitine metabolism
-
-
mitochondrial L-carnitine shuttle
-
-
Steroid biosynthesis
-
-
sterol:steryl ester interconversion (yeast)
-
-
Biosynthesis of various secondary metabolites - part 3
-
-
cysteine metabolism
-
-
D-cycloserine biosynthesis
-
-
L-cysteine biosynthesis I
-
-
L-cysteine biosynthesis VII (from S-sulfo-L-cysteine)
-
-
N-3-oxalyl-L-2,3-diaminopropanoate biosynthesis
-
-
seleno-amino acid biosynthesis (plants)
-
-
bryostatin biosynthesis
-
-
fatty acid biosynthesis initiation (bacteria and plants)
-
-
fatty acid biosynthesis initiation (mitochondria)
-
-
fatty acid biosynthesis initiation (plant mitochondria)
-
-
mupirocin biosynthesis
-
-
pederin biosynthesis
-
-
superpathway of fatty acid biosynthesis initiation (E. coli)
-
-
fatty acid biosynthesis initiation (animals and fungi, cytoplasm)
-
-
palmitate biosynthesis (animals and fungi, cytoplasm)
-
-
UDP-GlcNAc biosynthesis
-
-
UDP-N-acetyl-D-glucosamine biosynthesis I
-
-
Biosynthesis of enediyne antibiotics
-
-
patulin biosynthesis
-
-
NAD salvage pathway V (PNC V cycle)
-
-
Cyanoamino acid metabolism
-
-
gamma-glutamyl cycle
-
-
hypoglycin biosynthesis
-
-
peptidoglycan cross-bridge biosynthesis IV (Weissella viridescens)
-
-
protein ubiquitination
-
-
ferrichrome A biosynthesis
-
-
coenzyme B biosynthesis
-
-
FeMo cofactor biosynthesis
-
-
L-lysine biosynthesis IV
-
-
L-lysine biosynthesis V
-
-
lysine metabolism
-
-
glycogen degradation I
-
-
glycogen degradation II
-
-
glycogen metabolism
-
-
Starch and sucrose metabolism
-
-
starch degradation III
-
-
starch degradation V
-
-
sucrose biosynthesis II
-
-
sucrose degradation IV (sucrose phosphorylase)
-
-
glycogen biosynthesis
-
-
glycogen biosynthesis II (from UDP-D-Glucose)
-
-
cellulose biosynthesis
-
-
sucrose biosynthesis III
-
-
glycogen biosynthesis I (from ADP-D-Glucose)
-
-
glycogen biosynthesis III (from alpha-maltose 1-phosphate)
-
-
starch biosynthesis
-
-
Galactose metabolism
-
-
starch degradation
-
-
starch degradation II
-
-
ABH and Lewis epitopes biosynthesis from type 1 precursor disaccharide
-
-
ABH and Lewis epitopes biosynthesis from type 2 precursor disaccharide
-
-
Glycosphingolipid biosynthesis - lacto and neolacto series
-
-
lipid A biosynthesis
-
-
lipid A-core biosynthesis (E. coli K-12)
-
-
Glycosphingolipid biosynthesis - globo and isoglobo series
-
-
terminal O-glycans residues modification (via type 2 precursor disaccharide)
-
-
Escherichia coli serotype O86 O-antigen biosynthesis
-
-
mucin core 1 and core 2 O-glycosylation
-
-
Mucin type O-glycan biosynthesis
-
-
O-antigen biosynthesis
-
-
Other types of O-glycan biosynthesis
-
-
peptidoglycan biosynthesis II (staphylococci)
-
-
peptidoglycan biosynthesis III (mycobacteria)
-
-
peptidoglycan biosynthesis IV (Enterococcus faecium)
-
-
peptidoglycan biosynthesis V (beta-lactam resistance)
-
-
peptidoglycan maturation (meso-diaminopimelate containing)
-
-
Glycosylphosphatidylinositol (GPI)-anchor biosynthesis
-
-
lacto-series glycosphingolipids biosynthesis
-
-
neolacto-series glycosphingolipids biosynthesis
-
-
alpha-diglucosyldiacylglycerol biosynthesis
-
-
ajmaline and sarpagine biosynthesis
-
-
Indole alkaloid biosynthesis
-
-
adenine and adenosine salvage I
-
-
adenine and adenosine salvage III
-
-
adenine and adenosine salvage V
-
-
arsenate detoxification I (mammalian)
-
-
fluoroacetate and fluorothreonine biosynthesis
-
-
guanine and guanosine salvage
-
-
nucleoside and nucleotide degradation (archaea)
-
-
purine deoxyribonucleosides degradation I
-
-
purine deoxyribonucleosides degradation II
-
-
purine ribonucleosides degradation
-
-
salinosporamide A biosynthesis
-
-
xanthine and xanthosine salvage
-
-
pyrimidine deoxyribonucleosides degradation
-
-
pyrimidine ribonucleosides degradation
-
-
UMP biosynthesis I
-
-
UMP biosynthesis II
-
-
UMP biosynthesis III
-
-
S-methyl-5'-thioadenosine degradation II
-
-
ganglio-series glycosphingolipids biosynthesis
-
-
biosynthesis of Lewis epitopes (H. pylori)
-
-
complex N-linked glycan biosynthesis (vertebrates)
-
-
Glycosaminoglycan biosynthesis - keratan sulfate
-
-
Mannose type O-glycan biosynthesis
-
-
Various types of N-glycan biosynthesis
-
-
N-Glycan biosynthesis
-
-
protein N-glycosylation initial phase (eukaryotic)
-
-
polyamine pathway
-
-
spermidine biosynthesis I
-
-
4-hydroxy-2-nonenal detoxification
-
-
camalexin biosynthesis
-
-
gliotoxin biosynthesis
-
-
glutathione-mediated detoxification I
-
-
glutathione-mediated detoxification II
-
-
indole glucosinolate activation (intact plant cell)
-
-
pentachlorophenol degradation
-
-
chorismate biosynthesis from 3-dehydroquinate
-
-
chorismate metabolism
-
-
rubber biosynthesis
-
-
di-trans,poly-cis-undecaprenyl phosphate biosynthesis
-
-
2'-deoxymugineic acid phytosiderophore biosynthesis
-
-
L-nicotianamine biosynthesis
-
-
CMP-N-acetylneuraminate biosynthesis II (bacteria)
-
-
metabolism of amino sugars and derivatives
-
-
L-cysteine biosynthesis IX (Trichomonas vaginalis)
-
-
L-cysteine biosynthesis VIII (Thermococcus kodakarensis)
-
-
cis-zeatin biosynthesis
-
-
Zeatin biosynthesis
-
-
all-trans-decaprenyl diphosphate biosynthesis
-
-
ubiquinol-10 biosynthesis (eukaryotic)
-
-
lipoprotein posttranslational modification
-
-
(R)-cysteate degradation
-
-
aspartate and asparagine metabolism
-
-
C4 photosynthetic carbon assimilation cycle, PEPCK type
-
-
coenzyme M biosynthesis
-
-
coenzyme M biosynthesis II
-
-
gluconeogenesis
-
-
L-asparagine degradation III (mammalian)
-
-
L-aspartate biosynthesis
-
-
L-aspartate degradation I
-
-
L-glutamate degradation II
-
-
L-phenylalanine biosynthesis I
-
-
L-phenylalanine degradation II (anaerobic)
-
-
L-phenylalanine degradation VI (Stickland reaction)
-
-
Novobiocin biosynthesis
-
-
sulfolactate degradation III
-
-
Tropane, piperidine and pyridine alkaloid biosynthesis
-
-
L-alanine biosynthesis II
-
-
L-alanine degradation III
-
-
(S)-reticuline biosynthesis I
-
-
4-hydroxybenzoate biosynthesis I (eukaryotes)
-
-
4-hydroxyphenylpyruvate biosynthesis
-
-
atromentin biosynthesis
-
-
L-tyrosine biosynthesis I
-
-
L-tyrosine degradation II
-
-
L-tyrosine degradation IV (to 4-methylphenol)
-
-
L-tyrosine degradation V (Stickland reaction)
-
-
rosmarinic acid biosynthesis I
-
-
D-Alanine metabolism
-
-
D-Arginine and D-ornithine metabolism
-
-
CMP-diacetamido-8-epilegionaminic acid biosynthesis
-
-
UDP-N,N'-diacetylbacillosamine biosynthesis
-
-
arginine metabolism
-
-
L-arginine degradation II (AST pathway)
-
-
1,3-propanediol biosynthesis (engineered)
-
-
GDP-glucose biosynthesis
-
-
glucose and glucose-1-phosphate degradation
-
-
Neomycin, kanamycin and gentamicin biosynthesis
-
-
Streptomycin biosynthesis
-
-
sucrose degradation III (sucrose invertase)
-
-
trehalose degradation I (low osmolarity)
-
-
trehalose degradation II (cytosolic)
-
-
trehalose degradation IV
-
-
trehalose degradation V
-
-
UDP-N-acetyl-D-galactosamine biosynthesis II
-
-
UDP-N-acetyl-D-glucosamine biosynthesis II
-
-
D-sorbitol degradation I
-
-
Fructose and mannose metabolism
-
-
mannitol cycle
-
-
metabolism of disaccharids
-
-
sucrose degradation I (sucrose phosphotransferase)
-
-
sucrose degradation II (sucrose synthase)
-
-
sucrose degradation VII (sucrose 3-dehydrogenase)
-
-
D-galactose degradation I (Leloir pathway)
-
-
D-galactose detoxification
-
-
degradation of hexoses
-
-
stachyose degradation
-
-
adenine and adenosine salvage VI
-
-
5,6-dimethylbenzimidazole biosynthesis I (aerobic)
-
-
flavin biosynthesis
-
-
flavin biosynthesis I (bacteria and plants)
-
-
flavin biosynthesis III (fungi)
-
-
flavin biosynthesis IV (mammalian)
-
-
Riboflavin metabolism
-
-
roseoflavin biosynthesis
-
-
cell-surface glycoconjugate-linked phosphocholine biosynthesis
-
-
phosphatidylcholine biosynthesis I
-
-
phosphatidylethanolamine bioynthesis
-
-
plasmalogen biosynthesis
-
-
L-methionine biosynthesis II (plants)
-
-
L-threonine biosynthesis
-
-
1-butanol autotrophic biosynthesis (engineered)
-
-
Entner-Doudoroff pathway III (semi-phosphorylative)
-
-
glycolysis V (Pyrococcus)
-
-
photosynthetic 3-hydroxybutanoate biosynthesis (engineered)
-
-
1D-myo-inositol hexakisphosphate biosynthesis III (Spirodela polyrrhiza)
-
-
1D-myo-inositol hexakisphosphate biosynthesis IV (Dictyostelium)
-
-
Inositol phosphate metabolism
-
-
streptomycin biosynthesis
-
-
ceramide and sphingolipid recycling and degradation (yeast)
-
-
ceramide degradation (generic)
-
-
sphingolipid biosynthesis (plants)
-
-
Sphingolipid metabolism
-
-
sphingosine and sphingosine-1-phosphate metabolism
-
-
sphingosine metabolism
-
-
3-phosphoinositide biosynthesis
-
-
ascorbate metabolism
-
-
glycine degradation (Stickland reaction)
-
-
L-threonine degradation I
-
-
Carbapenem biosynthesis
-
-
L-Ndelta-acetylornithine biosynthesis
-
-
L-ornithine biosynthesis II
-
-
L-proline biosynthesis I (from L-glutamate)
-
-
proline metabolism
-
-
creatine-phosphate biosynthesis
-
-
adenosine ribonucleotides de novo biosynthesis
-
-
Thiamine metabolism
-
-
adenosine deoxyribonucleotides de novo biosynthesis
-
-
adenosine deoxyribonucleotides de novo biosynthesis II
-
-
CMP phosphorylation
-
-
guanosine deoxyribonucleotides de novo biosynthesis I
-
-
guanosine deoxyribonucleotides de novo biosynthesis II
-
-
ppGpp metabolism
-
-
purine deoxyribonucleosides salvage
-
-
pyrimidine deoxyribonucleotide phosphorylation
-
-
pyrimidine deoxyribonucleotides de novo biosynthesis III
-
-
UTP and CTP de novo biosynthesis
-
-
histidine metabolism
-
-
PRPP biosynthesis
-
-
thiamine diphosphate biosynthesis III (Staphylococcus)
-
-
thiamine diphosphate biosynthesis IV (eukaryotes)
-
-
thiamine salvage III
-
-
thiamine salvage IV (yeast)
-
-
vitamin B1 metabolism
-
-
6-hydroxymethyl-dihydropterin diphosphate biosynthesis
-
-
6-hydroxymethyl-dihydropterin diphosphate biosynthesis I
-
-
6-hydroxymethyl-dihydropterin diphosphate biosynthesis II (Methanocaldococcus)
-
-
6-hydroxymethyl-dihydropterin diphosphate biosynthesis III (Chlamydia)
-
-
6-hydroxymethyl-dihydropterin diphosphate biosynthesis IV (Plasmodium)
-
-
6-hydroxymethyl-dihydropterin diphosphate biosynthesis V (Pyrococcus)
-
-
tetrahydromethanopterin biosynthesis
-
-
ppGpp biosynthesis
-
-
flavin biosynthesis II (archaea)
-
-
coenzyme A biosynthesis I (prokaryotic)
-
-
coenzyme A biosynthesis II (eukaryotic)
-
-
coenzyme A metabolism
-
-
Pantothenate and CoA biosynthesis
-
-
type I lipoteichoic acid biosynthesis (S. aureus)
-
-
UDP-alpha-D-glucose biosynthesis I
-
-
d-mannose degradation
-
-
GDP-mannose biosynthesis
-
-
L-ascorbate biosynthesis I (L-galactose pathway)
-
-
choline biosynthesis III
-
-
phosphatidylcholine biosynthesis II
-
-
Phosphonate and phosphinate metabolism
-
-
Acarbose and validamycin biosynthesis
-
-
dTDP-3-acetamido-3,6-dideoxy-alpha-D-glucose biosynthesis
-
-
dTDP-3-acetamido-alpha-D-fucose biosynthesis
-
-
dTDP-4-O-demethyl-beta-L-noviose biosynthesis
-
-
dTDP-6-deoxy-alpha-D-allose biosynthesis
-
-
dTDP-alpha-D-mycaminose biosynthesis
-
-
dTDP-beta-L-4-epi-vancosamine biosynthesis
-
-
dTDP-beta-L-digitoxose biosynthesis
-
-
dTDP-D-beta-fucofuranose biosynthesis
-
-
dTDP-D-desosamine biosynthesis
-
-
dTDP-D-forosamine biosynthesis
-
-
dTDP-D-olivose, dTDP-D-oliose and dTDP-D-mycarose biosynthesis
-
-
dTDP-D-ravidosamine and dTDP-4-acetyl-D-ravidosamine biosynthesis
-
-
dTDP-L-daunosamine biosynthesis
-
-
dTDP-L-megosamine biosynthesis
-
-
dTDP-L-mycarose biosynthesis
-
-
dTDP-L-olivose biosynthesis
-
-
dTDP-L-rhamnose biosynthesis
-
-
dTDP-N-acetylthomosamine biosynthesis
-
-
dTDP-N-acetylviosamine biosynthesis
-
-
dTDPLrhamnose biosynthesis
-
-
Polyketide sugar unit biosynthesis
-
-
alpha-dystroglycan glycosylation
-
-
isoprenoid biosynthesis
-
-
methylerythritol phosphate pathway I
-
-
methylerythritol phosphate pathway II
-
-
Ether lipid metabolism
-
-
phosphatidylethanolamine biosynthesis II
-
-
acyl carrier protein activation
-
-
acyl carrier protein metabolism
-
-
enterobactin biosynthesis
-
-
petrobactin biosynthesis
-
-
cardiolipin biosynthesis
-
-
sulfide oxidation IV (mitochondria)
-
-
thiosulfate disproportionation IV (rhodanese)
-
-
methyl indole-3-acetate interconversion
-
-
methylsalicylate degradation
-
-
retinol biosynthesis
-
-
superpathway of methylsalicylate metabolism
-
-
triacylglycerol degradation
-
-
phosphatidylcholine acyl editing
-
-
phospholipases
-
-
phospholipid remodeling (phosphatidate, yeast)
-
-
phospholipid remodeling (phosphatidylcholine, yeast)
-
-
phospholipid remodeling (phosphatidylethanolamine, yeast)
-
-
plasmalogen degradation
-
-
sophorosyloxydocosanoate deacetylation
-
-
Caprolactam degradation
-
-
L-ascorbate biosynthesis IV
-
-
L-ascorbate biosynthesis VI (engineered pathway)
-
-
sorbitol biosynthesis II
-
-
chlorogenic acid degradation
-
-
acyl-CoA hydrolysis
-
-
cutin biosynthesis
-
-
Fatty acid elongation
-
-
sporopollenin precursors biosynthesis
-
-
stearate biosynthesis I (animals)
-
-
stearate biosynthesis III (fungi)
-
-
suberin monomers biosynthesis
-
-
phenylacetate degradation II (anaerobic)
-
-
diethylphosphate degradation
-
-
sulfopterin metabolism
-
-
phosphate acquisition
-
-
L-serine biosynthesis I
-
-
serine metabolism
-
-
L-histidine biosynthesis
-
-
phytate degradation I
-
-
3-phosphoinositide degradation
-
-
phosphatidylcholine resynthesis via glycerophosphocholine
-
-
2-arachidonoylglycerol biosynthesis
-
-
glycine betaine biosynthesis
-
-
phosphatidate metabolism, as a signaling molecule
-
-
D-myo-inositol (1,4,5)-trisphosphate biosynthesis
-
-
D-myo-inositol-5-phosphate metabolism
-
-
sphingolipid biosynthesis (mammals)
-
-
sphingomyelin metabolism
-
-
glycerophosphodiester degradation
-
-
tRNA processing
-
-
cellulose degradation
-
-
cellulose degradation II (fungi)
-
-
chitin degradation I (archaea)
-
-
chitin degradation II (Vibrio)
-
-
chitin degradation III (Serratia)
-
-
Other glycan degradation
-
-
starch degradation I
-
-
alpha-tomatine degradation
-
-
coumarin biosynthesis (via 2-coumarate)
-
-
ginsenoside metabolism
-
-
linamarin degradation
-
-
linustatin bioactivation
-
-
lotaustralin degradation
-
-
neolinustatin bioactivation
-
-
melibiose degradation
-
-
Glycosaminoglycan degradation
-
-
Glycosphingolipid biosynthesis - ganglio series
-
-
lactose degradation II
-
-
xyloglucan degradation II (exoglucanase)
-
-
beta-D-glucuronide and D-glucuronate degradation
-
-
degradation of sugar acids
-
-
Flavone and flavonol biosynthesis
-
-
sucrose degradation V (sucrose alpha-glucosidase)
-
-
anhydromuropeptides recycling II
-
-
fructan degradation
-
-
chitobiose degradation
-
-
complex N-linked glycan biosynthesis (plants)
-
-
amygdalin and prunasin degradation
-
-
tea aroma glycosidic precursor bioactivation
-
-
chondroitin sulfate degradation I (bacterial)
-
-
dermatan sulfate degradation I (bacterial)
-
-
gellan degradation
-
-
hyaluronan degradation
-
-
CMP-N-acetylneuraminate biosynthesis I (eukaryotes)
-
-
autoinducer AI-2 biosynthesis I
-
-
autoinducer AI-2 biosynthesis II (Vibrio)
-
-
L-cysteine biosynthesis VI (from L-methionine)
-
-
S-adenosyl-L-methionine cycle I
-
-
S-methyl-5'-thioadenosine degradation I
-
-
S-methyl-5'-thioadenosine degradation IV
-
-
alliin metabolism
-
-
methiin metabolism
-
-
propanethial S-oxide biosynthesis
-
-
Ac/N-end rule pathway
-
-
Arg/N-end rule pathway (eukaryotic)
-
-
muropeptide degradation
-
-
5-oxo-L-proline metabolism
-
-
nocardicin A biosynthesis
-
-
L-asparagine degradation I
-
-
superpathway of L-aspartate and L-asparagine biosynthesis
-
-
D-Glutamine and D-glutamate metabolism
-
-
glutaminyl-tRNAgln biosynthesis via transamidation
-
-
L-asparagine biosynthesis III (tRNA-dependent)
-
-
L-glutamine degradation I
-
-
acrylonitrile degradation I
-
-
degradation of aromatic, nitrogen containing compounds
-
-
IAA biosynthesis
-
-
indole-3-acetate biosynthesis II
-
-
indole-3-acetate biosynthesis III (bacteria)
-
-
indole-3-acetate biosynthesis IV (bacteria)
-
-
L-arginine degradation X (arginine monooxygenase pathway)
-
-
aldoxime degradation
-
-
NAD salvage pathway I (PNC VI cycle)
-
-
pyridine nucleotide cycling (plants)
-
-
bile acid biosynthesis, neutral pathway
-
-
bile acids degradation
-
-
glycocholate metabolism (bacteria)
-
-
Primary bile acid biosynthesis
-
-
Secondary bile acid biosynthesis
-
-
chitin derivatives degradation
-
-
D-galactosamine and N-acetyl-D-galactosamine degradation
-
-
N-acetyl-D-galactosamine degradation
-
-
N-acetylglucosamine degradation I
-
-
lipid IVA biosynthesis (E. coli)
-
-
lipid IVA biosynthesis (P. putida)
-
-
Lipopolysaccharide biosynthesis
-
-
aniline degradation
-
-
beta-Alanine metabolism
-
-
thymine degradation
-
-
uracil degradation I (reductive)
-
-
Penicillin and cephalosporin biosynthesis
-
-
allantoin degradation
-
-
urate conversion to allantoin I
-
-
urate conversion to allantoin II
-
-
urate conversion to allantoin III
-
-
canavanine degradation
-
-
L-arginine degradation I (arginase pathway)
-
-
L-arginine degradation VI (arginase 2 pathway)
-
-
L-arginine degradation VII (arginase 3 pathway)
-
-
putrescine biosynthesis III
-
-
L-arginine degradation V (arginine deiminase pathway)
-
-
protein citrullination
-
-
pyrimidine ribonucleosides salvage I
-
-
pyrimidine ribonucleosides salvage II
-
-
drosopterin and aurodrosopterin biosynthesis
-
-
erythro-tetrahydrobiopterin biosynthesis I
-
-
erythro-tetrahydrobiopterin biosynthesis II
-
-
preQ0 biosynthesis
-
-
tetrahydromonapterin biosynthesis
-
-
threo-tetrahydrobiopterin biosynthesis
-
-
(aminomethyl)phosphonate degradation
-
-
glyphosate degradation III
-
-
pyrimidine deoxyribonucleotides dephosphorylation
-
-
tunicamycin biosynthesis
-
-
oxidative phosphorylation
-
-
UTP and CTP dephosphorylation I
-
-
acetaldehyde biosynthesis II
-
-
long chain fatty acid ester synthesis (engineered)
-
-
pyruvate fermentation to acetate VIII
-
-
pyruvate fermentation to acetoin III
-
-
GABA shunt
-
-
L-glutamate degradation IV
-
-
L-glutamate degradation IX (via 4-aminobutanoate)
-
-
aminopropylcadaverine biosynthesis
-
-
bisucaberin biosynthesis
-
-
cadaverine biosynthesis
-
-
desferrioxamine B biosynthesis
-
-
desferrioxamine E biosynthesis
-
-
L-lysine degradation I
-
-
L-lysine degradation X
-
-
lupanine biosynthesis
-
-
C4 photosynthetic carbon assimilation cycle, NADP-ME type
-
-
CO2 fixation into oxaloacetate (anaplerotic)
-
-
ethylene biosynthesis V (engineered)
-
-
L-glutamine biosynthesis III
-
-
Methanobacterium thermoautotrophicum biosynthetic metabolism
-
-
heme b biosynthesis IV (Gram-positive bacteria)
-
-
coenzyme M biosynthesis I
-
-
vitamin K-epoxide cycle
-
-
D-arabinose degradation I
-
-
degradation of pentoses
-
-
fucose degradation
-
-
lactate biosynthesis (archaea)
-
-
3-hydroxypropanoate cycle
-
-
cyanate degradation
glyoxylate assimilation
-
-
homocysteine and cysteine interconversion
-
-
hydrogen sulfide biosynthesis II (mammalian)
-
-
L-cysteine biosynthesis III (from L-homocysteine)
-
-
GDP-6-deoxy-D-talose biosynthesis
-
-
GDP-D-perosamine biosynthesis
-
-
GDP-D-rhamnose biosynthesis
-
-
GDP-L-colitose biosynthesis
-
-
GDP-L-fucose biosynthesis I (from GDP-D-mannose)
-
-
GDP-mycosamine biosynthesis
-
-
heparan sulfate degradation
-
-
Diterpenoid biosynthesis
-
-
taxadiene biosynthesis (engineered)
-
-
taxol biosynthesis
isoprene biosynthesis I
-
-
C5-Branched dibasic acid metabolism
-
-
L-glutamate degradation VI (to pyruvate)
-
-
L-threonine degradation V
-
-
Valine, leucine and isoleucine biosynthesis
-
-
allantoin degradation to glyoxylate I
-
-
allantoin degradation to glyoxylate III
-
-
pyridoxal 5'-phosphate biosynthesis II
-
-
Vitamin B6 metabolism
-
-
vitamin B6 metabolism
-
-
dimethyl sulfide biosynthesis from methionine
-
-
selenocysteine biosynthesis
-
-
alanine racemization
-
-
ansatrienin biosynthesis
-
-
L-alanine degradation I
-
-
colanic acid building blocks biosynthesis
-
-
mycolyl-arabinogalactan-peptidoglycan complex biosynthesis
-
-
superpathway of UDP-glucose-derived O-antigen building blocks biosynthesis
-
-
UDP-alpha-D-galactose biosynthesis
-
-
trehalose degradation VI (periplasmic)
-
-
L-ascorbate biosynthesis V
-
-
UDP-alpha-D-galacturonate biosynthesis I (from UDP-D-glucuronate)
-
-
UDP-N-acetyl-D-galactosamine biosynthesis I
-
-
N-acetylneuraminate and N-acetylmannosamine degradation II
-
-
poly(3-O-beta-D-glucopyranosyl-N-acetylgalactosamine 1-phosphate) wall teichoic acid biosynthesis
-
-
poly(glycerol phosphate) wall teichoic acid biosynthesis
-
-
UDP-N-acetyl-alpha-D-mannosaminouronate biosynthesis
-
-
all-trans-farnesol biosynthesis
-
-
bisabolene biosynthesis (engineered)
-
-
mono-trans, poly-cis decaprenyl phosphate biosynthesis
-
-
trans, trans-farnesyl diphosphate biosynthesis
-
-
chitin biosynthesis
-
-
beta-(1,4)-mannan degradation
-
-
beta-1,4-D-mannosyl-N-acetyl-D-glucosamine degradation
-
-
2-aminoethylphosphonate biosynthesis
-
-
Biosynthesis of various secondary metabolites - part 2
-
-
dehydrophos biosynthesis
-
-
fosfomycin biosynthesis
-
-
FR-900098 and FR-33289 antibiotics biosynthesis
-
-
methylphosphonate biosynthesis
-
-
phosalacine biosynthesis
-
-
phosphinothricin tripeptide biosynthesis
-
-
rhizocticin A and B biosynthesis
-
-
CMP-legionaminate biosynthesis I
-
-
2,3-dihydroxybenzoate biosynthesis
-
-
2-carboxy-1,4-naphthoquinol biosynthesis
-
-
Biosynthesis of siderophore group nonribosomal peptides
-
-
enterobactin biosynthesis
-
-
salicylate biosynthesis I
-
-
vitamin K metabolism
-
-
cholesterol biosynthesis
-
-
lanosterol biosynthesis
-
-
trehalose biosynthesis IV
-
-
echinatin biosynthesis
-
-
flavonoid biosynthesis
-
-
Flavonoid biosynthesis
-
-
flavonoid biosynthesis (in equisetum)
-
-
flavonoid di-C-glucosylation
-
-
isoflavonoid biosynthesis I
-
-
naringenin biosynthesis (engineered)
-
-
pinobanksin biosynthesis
-
-
tRNA charging
-
-
isoleucine metabolism
-
-
tetrapyrrole biosynthesis I (from glutamate)
-
-
alkane biosynthesis I
-
-
heptadecane biosynthesis
-
-
lipoate biosynthesis
-
-
ammonia assimilation cycle I
-
-
ammonia assimilation cycle II
-
-
L-glutamine biosynthesis I
-
-
nitrate reduction II (assimilatory)
-
-
nitrate reduction V (assimilatory)
-
-
nitrate reduction VI (assimilatory)
-
-
lipoate biosynthesis and incorporation II
-
-
Lipoic acid metabolism
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pantothenate biosynthesis
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phosphopantothenate biosynthesis I
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inosine-5'-phosphate biosynthesis I
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inosine-5'-phosphate biosynthesis II
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inosine-5'-phosphate biosynthesis III
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vancomycin resistance II
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bacilysin biosynthesis
taurine biosynthesis II
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folate polyglutamylation
formate assimilation into 5,10-methylenetetrahydrofolate
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reductive acetyl coenzyme A pathway
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anapleurotic synthesis of oxalacetate
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Aflatoxin biosynthesis
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jadomycin biosynthesis
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Fe(II) oxidation
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NADH to cytochrome bd oxidase electron transfer I
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NADH to cytochrome bo oxidase electron transfer I
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arsenite oxidation I (respiratory)
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ATP biosynthesis
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Photosynthesis
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oleandomycin activation/inactivation
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ORGANISM
COMMENTARY hide
LITERATURE
UNIPROT
SEQUENCE DB
SOURCE
SOURCE TISSUE
ORGANISM
UNIPROT
COMMENTARY hide
LITERATURE
SOURCE
-
the H2O2 produced by pyruvate oxidase activity inhibits growth of Staphylococcus aureus
Manually annotated by BRENDA team
peptidoglycan modifications during colonizing the mucosal surface of the upper respiratory tract, lysozyme M-sufficient mice
Manually annotated by BRENDA team
additional information
LOCALIZATION
ORGANISM
UNIPROT
COMMENTARY hide
GeneOntology No.
LITERATURE
SOURCE
-
FhuD protein
-
Manually annotated by BRENDA team
additional information
LINKS TO OTHER DATABASES (specific for Streptococcus pneumoniae)