Please wait a moment until all data is loaded. This message will disappear when all data is loaded.
Please wait a moment until the data is sorted. This message will disappear when the data is sorted.
Please wait a moment until the data is sorted. This message will disappear when the data is sorted.
(3R)-linalool biosynthesis
-
-
(3S)-linalool biosynthesis
-
-
(S)-reticuline biosynthesis I
-
-
(S)-reticuline biosynthesis II
-
-
1,3-propanediol biosynthesis (engineered)
-
-
1,5-anhydrofructose degradation
-
-
1-butanol autotrophic biosynthesis (engineered)
-
-
2'-deoxymugineic acid phytosiderophore biosynthesis
-
-
2-deoxy-D-glucose 6-phosphate degradation
-
-
4-hydroxy-2(1H)-quinolone biosynthesis
-
-
4-hydroxy-2-nonenal detoxification
-
-
acetone degradation I (to methylglyoxal)
-
-
acetone degradation III (to propane-1,2-diol)
-
-
acridone alkaloid biosynthesis
-
-
adenine and adenosine salvage I
-
-
adenine and adenosine salvage III
-
-
adenine and adenosine salvage V
-
-
adenosine nucleotides degradation II
-
-
adenosine ribonucleotides de novo biosynthesis
-
-
aerobic respiration I (cytochrome c)
-
-
aerobic respiration II (cytochrome c) (yeast)
-
-
aerobic respiration III (alternative oxidase pathway)
-
-
Aflatoxin biosynthesis
-
-
ajmaline and sarpagine biosynthesis
-
-
Alanine, aspartate and glutamate metabolism
-
-
all-trans-farnesol biosynthesis
-
-
alpha-Linolenic acid metabolism
-
-
Amaryllidacea alkaloids biosynthesis
-
-
Amino sugar and nucleotide sugar metabolism
-
-
Aminobenzoate degradation
-
-
ammonia assimilation cycle I
-
-
ammonia assimilation cycle II
-
-
ammonia assimilation cycle III
-
-
anaerobic energy metabolism (invertebrates, cytosol)
-
-
anhydromuropeptides recycling I
-
-
anhydromuropeptides recycling II
-
-
anteiso-branched-chain fatty acid biosynthesis
-
-
Arachidonic acid metabolism
-
-
arachidonic acid metabolism
-
-
Arginine and proline metabolism
-
-
Arginine biosynthesis
-
-
aromatic polyketides biosynthesis
-
-
arsenic detoxification (mammals)
-
-
arsenite to oxygen electron transfer
-
-
arsenite to oxygen electron transfer (via azurin)
-
-
Ascorbate and aldarate metabolism
-
-
avenanthramide biosynthesis
-
-
bacilysin biosynthesis
-
-
benzoate biosynthesis II (CoA-independent, non-beta-oxidative)
-
-
beta-alanine biosynthesis II
-
-
beta-Alanine metabolism
-
-
betalamic acid biosynthesis
-
-
Bifidobacterium shunt
-
-
Biosynthesis of 12-, 14- and 16-membered macrolides
-
-
Biosynthesis of secondary metabolites
-
-
bisabolene biosynthesis (engineered)
-
-
brassicicene C biosynthesis
-
-
bryostatin biosynthesis
-
-
bupropion degradation
-
-
butanoate fermentation
-
-
C4 and CAM-carbon fixation
-
-
C4 photosynthetic carbon assimilation cycle, NAD-ME type
-
-
C4 photosynthetic carbon assimilation cycle, PEPCK type
-
-
caffeine degradation III (bacteria, via demethylation)
-
-
camalexin biosynthesis
-
-
Caprolactam degradation
-
-
Carbon fixation in photosynthetic organisms
-
-
Carbon fixation pathways in prokaryotes
-
-
Carotenoid biosynthesis
-
-
carotenoid biosynthesis
-
-
catecholamine biosynthesis
cellulose degradation
-
-
cellulose degradation II (fungi)
-
-
chitin degradation I (archaea)
-
-
chitin degradation II (Vibrio)
-
-
chitin degradation III (Serratia)
-
-
chlorpyrifos degradation
-
-
cholesterol biosynthesis
-
-
cinnamoyl-CoA biosynthesis
-
-
cis-zeatin biosynthesis
-
-
Citrate cycle (TCA cycle)
-
-
CO2 fixation in Crenarchaeota
-
-
coenzyme B biosynthesis
-
-
Cutin, suberine and wax biosynthesis
-
-
Cyanoamino acid metabolism
-
-
cycloartenol biosynthesis
-
-
Cysteine and methionine metabolism
-
-
D-Amino acid metabolism
-
-
D-sorbitol biosynthesis I
-
-
degradation of aromatic, nitrogen containing compounds
-
-
diacylglycerol and triacylglycerol biosynthesis
-
-
diethylphosphate degradation
-
-
dissimilatory sulfate reduction I (to hydrogen sufide))
-
-
divinyl ether biosynthesis II
-
-
Drug metabolism - cytochrome P450
-
-
Drug metabolism - other enzymes
-
-
dTMP de novo biosynthesis (mitochondrial)
-
-
Entner Doudoroff pathway
-
-
Entner-Doudoroff pathway I
-
-
Entner-Doudoroff pathway II (non-phosphorylative)
-
-
Entner-Doudoroff pathway III (semi-phosphorylative)
-
-
ephedrine biosynthesis
-
-
erythromycin D biosynthesis
-
-
ethanol degradation IV
-
-
ethene biosynthesis I (plants)
-
-
ethene biosynthesis III (microbes)
-
-
ethene biosynthesis V (engineered)
-
-
even iso-branched-chain fatty acid biosynthesis
-
-
Fatty acid biosynthesis
-
-
fatty acid biosynthesis initiation (mitochondria)
-
-
fatty acid biosynthesis initiation (plant mitochondria)
-
-
fatty acid biosynthesis initiation (type I)
-
-
fatty acid biosynthesis initiation (type II)
-
-
Fatty acid degradation
-
-
FeMo cofactor biosynthesis
-
-
flavin biosynthesis I (bacteria and plants)
-
-
flavin biosynthesis II (archaea)
-
-
flavin biosynthesis III (fungi)
-
-
flavonoid biosynthesis
-
-
Flavonoid biosynthesis
-
-
flavonoid biosynthesis (in equisetum)
-
-
flavonoid di-C-glucosylation
-
-
fluoroacetate and fluorothreonine biosynthesis
-
-
folate transformations II (plants)
-
-
folate transformations III (E. coli)
-
-
formaldehyde assimilation I (serine pathway)
-
-
formaldehyde oxidation I
-
-
Fructose and mannose metabolism
-
-
fusicoccin A biosynthesis
-
-
GDP-mannose biosynthesis
-
-
geranyl diphosphate biosynthesis
-
-
geranylgeranyl diphosphate biosynthesis
-
-
gliotoxin biosynthesis
-
-
gluconeogenesis II (Methanobacterium thermoautotrophicum)
-
-
glucose and glucose-1-phosphate degradation
-
-
glucose degradation (oxidative)
-
-
Glucosinolate biosynthesis
-
-
glucosylglycerol biosynthesis
-
-
glutamate and glutamine metabolism
-
-
glutamate removal from folates
-
-
Glutathione metabolism
-
-
glutathione metabolism
-
-
glutathione-mediated detoxification I
-
-
glutathione-mediated detoxification II
-
-
glutathione-peroxide redox reactions
-
-
glycerol degradation to butanol
-
-
Glycerolipid metabolism
-
-
Glycerophospholipid metabolism
-
-
Glycine, serine and threonine metabolism
-
-
glycogen degradation I
-
-
Glycolysis / Gluconeogenesis
-
-
glycolysis I (from glucose 6-phosphate)
-
-
glycolysis II (from fructose 6-phosphate)
-
-
glycolysis III (from glucose)
-
-
glycolysis V (Pyrococcus)
-
-
Glycosaminoglycan degradation
-
-
Glyoxylate and dicarboxylate metabolism
-
-
gossypol biosynthesis
-
-
guanine and guanosine salvage I
-
-
guanosine nucleotides degradation III
-
-
heterolactic fermentation
-
-
hypoglycin biosynthesis
-
-
Indole alkaloid biosynthesis
-
-
indole glucosinolate activation (intact plant cell)
-
-
inosine 5'-phosphate degradation
-
-
inosine-5'-phosphate biosynthesis I
-
-
inosine-5'-phosphate biosynthesis II
-
-
Insect hormone biosynthesis
-
-
ipsdienol biosynthesis
-
-
Isoflavonoid biosynthesis
-
-
isoflavonoid biosynthesis I
-
-
isoflavonoid biosynthesis II
-
-
isoleucine metabolism
-
-
isoprenoid biosynthesis
-
-
Isoquinoline alkaloid biosynthesis
-
-
jadomycin biosynthesis
-
-
jasmonic acid biosynthesis
-
-
justicidin B biosynthesis
-
-
juvenile hormone III biosynthesis I
-
-
juvenile hormone III biosynthesis II
-
-
L-alanine biosynthesis I
-
-
L-alanine biosynthesis II
-
-
L-alanine degradation II (to D-lactate)
-
-
L-alanine degradation III
-
-
L-alanine degradation V (oxidative Stickland reaction)
-
-
L-alanine degradation VI (reductive Stickland reaction)
-
-
L-arginine biosynthesis II (acetyl cycle)
-
-
L-arginine biosynthesis III (via N-acetyl-L-citrulline)
-
-
L-ascorbate biosynthesis IV (animals, D-glucuronate pathway)
-
-
L-ascorbate biosynthesis VI (plants, myo-inositol pathway)
-
-
L-ascorbate biosynthesis VIII (engineered pathway)
-
-
L-aspartate degradation II (aerobic)
-
-
L-aspartate degradation II (anaerobic)
-
-
L-glutamate degradation IX (via 4-aminobutanoate)
-
-
L-glutamine biosynthesis I
-
-
L-glutamine degradation II
-
-
L-isoleucine biosynthesis I (from threonine)
-
-
L-isoleucine biosynthesis II
-
-
L-isoleucine biosynthesis III
-
-
L-isoleucine biosynthesis IV
-
-
L-isoleucine biosynthesis V
-
-
L-isoleucine degradation I
-
-
L-isoleucine degradation II
-
-
L-isoleucine degradation III (oxidative Stickland reaction)
-
-
L-leucine biosynthesis
-
-
L-leucine degradation I
-
-
L-leucine degradation III
-
-
L-leucine degradation IV (reductive Stickland reaction)
-
-
L-leucine degradation V (oxidative Stickland reaction)
-
-
L-lysine biosynthesis IV
-
-
L-lysine biosynthesis V
-
-
L-methionine biosynthesis II
-
-
L-methionine degradation I (to L-homocysteine)
-
-
L-ornithine biosynthesis I
-
-
L-phenylalanine biosynthesis I
-
-
L-phenylalanine biosynthesis II
-
-
L-phenylalanine biosynthesis III (cytosolic, plants)
-
-
L-phenylalanine degradation I (aerobic)
-
-
L-phenylalanine degradation V
-
-
L-threonine biosynthesis
-
-
L-threonine degradation V
-
-
L-tryptophan biosynthesis
-
-
L-tyrosine biosynthesis I
-
-
L-tyrosine biosynthesis II
-
-
L-tyrosine biosynthesis III
-
-
L-tyrosine biosynthesis IV
-
-
L-valine biosynthesis
-
-
L-valine degradation I
-
-
L-valine degradation II
-
-
L-valine degradation III (oxidative Stickland reaction)
-
-
lanosterol biosynthesis
-
-
leukotriene biosynthesis
-
-
linalool biosynthesis I
-
-
Linoleic acid metabolism
-
-
macrolide antibiotic biosynthesis
-
-
mangrove triterpenoid biosynthesis
-
-
matairesinol biosynthesis
-
-
melatonin degradation I
-
-
metabolism of disaccharids
-
-
Metabolism of xenobiotics by cytochrome P450
-
-
methanol oxidation to formaldehyde IV
-
-
methionine metabolism
-
-
methyl indole-3-acetate interconversion
-
-
methyl parathion degradation
-
-
methyl phomopsenoate biosynthesis
-
-
methylsalicylate degradation
-
-
Microbial metabolism in diverse environments
-
-
mixed acid fermentation
-
-
mono-trans, poly-cis decaprenyl phosphate biosynthesis
-
-
Monoterpenoid biosynthesis
-
-
mupirocin biosynthesis
-
-
muropeptide degradation
-
-
NAD(P)/NADPH interconversion
-
-
NADH to cytochrome bd oxidase electron transfer I
-
-
NADH to cytochrome bo oxidase electron transfer I
-
-
NADPH to cytochrome c oxidase via plastocyanin
-
-
naringenin biosynthesis (engineered)
-
-
nepetalactone biosynthesis
-
-
Nicotinate and nicotinamide metabolism
-
-
nicotine degradation IV
-
-
nicotine degradation V
-
-
nitric oxide biosynthesis II (mammals)
-
-
nitrogen remobilization from senescing leaves
-
-
nocardicin A biosynthesis
-
-
nucleoside and nucleotide degradation (archaea)
-
-
o-diquinones biosynthesis
-
-
odd iso-branched-chain fatty acid biosynthesis
-
-
oleandomycin activation/inactivation
-
-
oleate beta-oxidation
-
-
One carbon pool by folate
-
-
ophiobolin F biosynthesis
-
-
Other glycan degradation
-
-
Oxidative phosphorylation
-
-
oxidative phosphorylation
-
-
Pantothenate and CoA biosynthesis
-
-
pantothenate biosynthesis
-
-
parathion degradation
-
-
partial TCA cycle (obligate autotrophs)
-
-
paspaline biosynthesis
-
-
pectin degradation II
-
-
pentachlorophenol degradation
-
-
Pentose and glucuronate interconversions
-
-
Pentose phosphate pathway
-
-
peptidoglycan maturation (meso-diaminopimelate containing)
-
-
Phenazine biosynthesis
-
-
Phenylalanine metabolism
-
-
phenylalanine metabolism
-
-
Phenylalanine, tyrosine and tryptophan biosynthesis
-
-
Phenylpropanoid biosynthesis
-
-
phenylpropanoid biosynthesis
-
-
phenylpropanoid biosynthesis, initial reactions
-
-
phloridzin biosynthesis
-
-
phosphopantothenate biosynthesis I
-
-
phosphopantothenate biosynthesis III (archaea)
-
-
photosynthetic 3-hydroxybutanoate biosynthesis (engineered)
-
-
plaunotol biosynthesis
-
-
Porphyrin and chlorophyll metabolism
-
-
Propanoate metabolism
-
-
propionate fermentation
-
-
purine deoxyribonucleosides degradation I
-
-
purine deoxyribonucleosides degradation II
-
-
purine ribonucleosides degradation
-
-
Pyrimidine metabolism
-
-
reactive oxygen species degradation
-
-
Riboflavin metabolism
-
-
rosmarinic acid biosynthesis I
-
-
rosmarinic acid biosynthesis II
-
-
S-adenosyl-L-methionine biosynthesis
-
-
S-adenosyl-L-methionine salvage I
-
-
S-adenosyl-L-methionine salvage II
-
-
salinosporamide A biosynthesis
-
-
secologanin and strictosidine biosynthesis
-
-
serotonin and melatonin biosynthesis
-
-
sorbitol biosynthesis II
-
-
Starch and sucrose metabolism
-
-
stellatic acid biosynthesis
-
-
Steroid hormone biosynthesis
-
-
sterol:steryl ester interconversion (yeast)
-
-
suberin monomers biosynthesis
succinate to chytochrome c oxidase via cytochrome c6
-
-
succinate to cytochrome bd oxidase electron transfer
-
-
succinate to cytochrome bo oxidase electron transfer
-
-
succinate to cytochrome c oxidase via plastocyanin
-
-
succinate to plastoquinol oxidase
-
-
sucrose biosynthesis I (from photosynthesis)
-
-
sucrose biosynthesis II
-
-
sucrose biosynthesis III
-
-
sucrose degradation II (sucrose synthase)
-
-
sucrose degradation III (sucrose invertase)
-
-
sucrose degradation IV (sucrose phosphorylase)
-
-
sucrose degradation V (sucrose alpha-glucosidase)
-
-
sulfite oxidation III
-
-
sulfopterin metabolism
-
-
superoxide radicals degradation
-
-
superpathway of glucose and xylose degradation
-
-
superpathway of glyoxylate cycle and fatty acid degradation
-
-
superpathway of methylsalicylate metabolism
-
-
Taurine and hypotaurine metabolism
-
-
TCA cycle I (prokaryotic)
-
-
TCA cycle II (plants and fungi)
-
-
TCA cycle III (animals)
-
-
TCA cycle IV (2-oxoglutarate decarboxylase)
-
-
TCA cycle V (2-oxoglutarate synthase)
-
-
TCA cycle VI (Helicobacter)
-
-
TCA cycle VII (acetate-producers)
-
-
TCA cycle VIII (Chlamydia)
-
-
Terpenoid backbone biosynthesis
-
-
tetrahydrofolate biosynthesis
-
-
tetrahydrofolate metabolism
-
-
theophylline degradation
-
-
trans, trans-farnesyl diphosphate biosynthesis
-
-
traumatin and (Z)-3-hexen-1-yl acetate biosynthesis
-
-
trehalose biosynthesis I
-
-
trehalose degradation II (cytosolic)
-
-
trehalose degradation VI (periplasmic)
-
-
triacylglycerol degradation
-
-
Tryptophan metabolism
-
-
tryptophan metabolism
-
-
UDP-N-acetyl-D-galactosamine biosynthesis II
-
-
UDP-N-acetyl-D-galactosamine biosynthesis III
-
-
UDP-N-acetyl-D-glucosamine biosynthesis I
-
-
UDP-N-acetyl-D-glucosamine biosynthesis II
-
-
Valine, leucine and isoleucine biosynthesis
-
-
Valine, leucine and isoleucine degradation
-
-
vanillin biosynthesis I
-
-
viridicatumtoxin biosynthesis
-
-
xanthine and xanthosine salvage
-
-
xanthohumol biosynthesis
-
-
catecholamine biosynthesis
-
-
catecholamine biosynthesis
-
-
methylaspartate cycle
-
-
methylaspartate cycle
-
-
suberin monomers biosynthesis
-
-
suberin monomers biosynthesis
-
-
Please wait a moment until the data is sorted. This message will disappear when the data is sorted.
Please wait a moment until the data is sorted. This message will disappear when the data is sorted.
Please wait a moment until the data is sorted. This message will disappear when the data is sorted.
BRENDA home
Organism related
top
