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Information on Organism Daucus carota

TaxTree of Organism Daucus carota
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PATHWAY
BRENDA Link
KEGG Link
MetaCyc Link
(1,4)-beta-D-xylan degradation
-
-
(3S)-linalool biosynthesis
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-
(5Z)-dodecenoate biosynthesis I
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-
(5Z)-dodecenoate biosynthesis II
-
-
(R)-cysteate degradation
-
-
(S)-lactate fermentation to propanoate, acetate and hydrogen
-
-
(S)-propane-1,2-diol degradation
-
-
(S)-reticuline biosynthesis
-
-
(S)-reticuline biosynthesis I
-
-
(S)-reticuline biosynthesis II
-
-
1,3-beta-D-glucan biosynthesis
-
-
1,3-propanediol biosynthesis (engineered)
-
-
1,5-anhydrofructose degradation
-
-
1-butanol autotrophic biosynthesis (engineered)
-
-
1D-myo-inositol hexakisphosphate biosynthesis III (Spirodela polyrrhiza)
-
-
1D-myo-inositol hexakisphosphate biosynthesis IV (Dictyostelium)
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-
2'-deoxymugineic acid phytosiderophore biosynthesis
-
-
2,4-xylenol degradation to protocatechuate
-
-
2-arachidonoylglycerol biosynthesis
-
-
2-deoxy-D-glucose 6-phosphate degradation
-
-
24-epi-campesterol, fucosterol, and clionasterol biosynthesis (diatoms)
-
-
3,8-divinyl-chlorophyllide a biosynthesis I (aerobic, light-dependent)
-
-
3-(4-hydroxyphenyl)pyruvate biosynthesis
-
-
3-dehydroquinate biosynthesis I
-
-
3-dehydroquinate biosynthesis II (archaea)
-
-
3-hydroxy-4-methyl-anthranilate biosynthesis I
-
-
3-hydroxy-4-methyl-anthranilate biosynthesis II
-
-
3-hydroxypropanoate cycle
-
-
3-hydroxypropanoate/4-hydroxybutanate cycle
-
-
3-methylbutanol biosynthesis (engineered)
-
-
3-phenylpropionate degradation
-
-
3-phosphoinositide biosynthesis
-
-
4-amino-2-methyl-5-diphosphomethylpyrimidine biosynthesis II
-
-
4-aminobutanoate degradation V
-
-
4-coumarate degradation (aerobic)
-
-
4-coumarate degradation (anaerobic)
-
-
4-hydroxy-2(1H)-quinolone biosynthesis
-
-
4-hydroxy-2-nonenal detoxification
-
-
4-hydroxybenzoate biosynthesis I (eukaryotes)
-
-
4-hydroxybenzoate biosynthesis III (plants)
-
-
4-hydroxybenzoate biosynthesis IV (plants)
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-
4-hydroxymandelate degradation
4-methylphenol degradation to protocatechuate
-
-
5-deoxystrigol biosynthesis
-
-
5-oxo-L-proline metabolism
-
-
6-gingerol analog biosynthesis (engineered)
-
-
6-methoxymellein biosynthesis
-
-
8-amino-7-oxononanoate biosynthesis I
-
-
8-amino-7-oxononanoate biosynthesis IV
-
-
9-lipoxygenase and 9-allene oxide synthase pathway
-
-
abscisic acid biosynthesis
-
-
acetaldehyde biosynthesis I
-
-
acetaldehyde biosynthesis II
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-
acetate and ATP formation from acetyl-CoA I
-
-
acetate fermentation
-
-
acetoin degradation
-
-
acetone degradation I (to methylglyoxal)
-
-
acetone degradation III (to propane-1,2-diol)
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-
acetylene degradation (anaerobic)
-
-
acridone alkaloid biosynthesis
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-
acrylonitrile degradation I
-
-
acyl-CoA hydrolysis
-
-
acylated cyanidin galactoside biosynthesis
-
-
adenine and adenosine salvage VI
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-
adenosine nucleotides degradation I
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-
adenosine nucleotides degradation II
-
-
adenosine ribonucleotides de novo biosynthesis
-
-
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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-
aerobic toluene degradation
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Aflatoxin biosynthesis
-
-
alanine metabolism
-
-
Alanine, aspartate and glutamate metabolism
-
-
alginate degradation
-
-
alpha-carotene biosynthesis
-
-
alpha-linolenate biosynthesis I (plants and red algae)
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-
alpha-linolenate metabolites biosynthesis
-
-
alpha-Linolenic acid metabolism
-
-
alpha-tomatine degradation
-
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Amaryllidacea alkaloids biosynthesis
-
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Amino sugar and nucleotide sugar metabolism
-
-
Aminoacyl-tRNA biosynthesis
-
-
Aminobenzoate degradation
-
-
aminopropylcadaverine biosynthesis
-
-
ammonia assimilation cycle I
-
-
ammonia assimilation cycle II
-
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ammonia assimilation cycle III
-
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ammonia oxidation II (anaerobic)
-
-
amygdalin and prunasin degradation
-
-
anaerobic energy metabolism (invertebrates, cytosol)
-
-
anaerobic energy metabolism (invertebrates, mitochondrial)
-
-
anandamide biosynthesis I
-
-
anandamide biosynthesis II
-
-
anapleurotic synthesis of oxalacetate
-
-
anteiso-branched-chain fatty acid biosynthesis
-
-
anthocyanidin modification (Arabidopsis)
-
-
anthocyanin biosynthesis
-
-
Anthocyanin biosynthesis
-
-
anthocyanin biosynthesis (delphinidin 3-O-glucoside)
-
-
anthocyanin biosynthesis (pelargonidin 3-O-glucoside)
-
-
arachidonate biosynthesis
-
-
arachidonate metabolites biosynthesis
-
-
Arachidonic acid metabolism
-
-
arachidonic acid metabolism
-
-
Arginine and proline metabolism
-
-
Arginine biosynthesis
-
-
arginine dependent acid resistance
-
-
arginine metabolism
-
-
aromatic glucosinolate activation
-
-
aromatic biogenic amine degradation (bacteria)
-
-
aromatic polyketides biosynthesis
-
-
arsenate detoxification I
-
-
arsenate detoxification II
-
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arsenate detoxification IV (mycothiol)
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arsenic detoxification (plants)
-
-
arsenic detoxification (yeast)
-
-
arsenite to oxygen electron transfer
-
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arsenite to oxygen electron transfer (via azurin)
-
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Ascorbate and aldarate metabolism
-
-
ascorbate glutathione cycle
-
-
ascorbate metabolism
-
-
ascorbate recycling (cytosolic)
-
-
aspartate and asparagine metabolism
-
-
aspirin triggered resolvin D biosynthesis
-
-
aspirin triggered resolvin E biosynthesis
-
-
assimilatory sulfate reduction II
-
-
assimilatory sulfate reduction III
-
-
assimilatory sulfate reduction IV
-
-
astaxanthin biosynthesis (bacteria, fungi, algae)
-
-
ATP biosynthesis
-
-
Atrazine degradation
-
-
atromentin biosynthesis
-
-
avenanthramide biosynthesis
-
-
bacilysin biosynthesis
-
-
bacterial bioluminescence
-
-
baicalein degradation (hydrogen peroxide detoxification)
-
-
benzoate biosynthesis II (CoA-independent, non-beta-oxidative)
-
-
beta-(1,4)-mannan degradation
-
-
beta-alanine biosynthesis I
-
-
beta-alanine biosynthesis IV
-
-
beta-Alanine metabolism
-
-
beta-carotene biosynthesis
-
-
beta-D-glucuronide and D-glucuronate degradation
-
-
beta-D-mannosyl phosphomycoketide biosynthesis
-
-
Betalain biosynthesis
-
-
betalamic acid biosynthesis
-
-
betanidin degradation
-
-
Bifidobacterium shunt
-
-
bile acid biosynthesis, neutral pathway
Biosynthesis of secondary metabolites
-
-
Biosynthesis of unsaturated fatty acids
-
-
Biotin metabolism
-
-
Bisphenol degradation
-
-
bisucaberin biosynthesis
-
-
brassicicene C biosynthesis
-
-
Brassinosteroid biosynthesis
-
-
bryostatin biosynthesis
-
-
bupropion degradation
-
-
Butanoate metabolism
-
-
butanol and isobutanol biosynthesis (engineered)
-
-
C20 prostanoid biosynthesis
-
-
C4 and CAM-carbon fixation
-
-
C4 photosynthetic carbon assimilation cycle, NAD-ME type
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C4 photosynthetic carbon assimilation cycle, NADP-ME type
-
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C4 photosynthetic carbon assimilation cycle, PEPCK type
-
-
C5-Branched dibasic acid metabolism
-
-
cadaverine biosynthesis
-
-
Caffeine metabolism
-
-
caffeoylglucarate biosynthesis
-
-
Calvin-Benson-Bassham cycle
-
-
camalexin biosynthesis
-
-
canavanine biosynthesis
-
-
canavanine degradation
-
-
capsaicin biosynthesis
-
-
capsanthin and capsorubin biosynthesis
-
-
capsiconiate biosynthesis
-
-
Carbon fixation in photosynthetic organisms
-
-
Carbon fixation pathways in prokaryotes
-
-
carnitine metabolism
-
-
Carotenoid biosynthesis
-
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carotenoid biosynthesis
-
-
catecholamine biosynthesis
CDP-6-deoxy-D-gulose biosynthesis
-
-
cellulose and hemicellulose degradation (cellulolosome)
-
-
cellulose biosynthesis
-
-
cellulose degradation
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cellulose degradation II (fungi)
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chitin biosynthesis
-
-
chitin deacetylation
-
-
chitin degradation I (archaea)
-
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chitin degradation II (Vibrio)
-
-
chitin degradation III (Serratia)
-
-
Chloroalkane and chloroalkene degradation
-
-
chlorobactene biosynthesis
-
-
chlorogenic acid biosynthesis I
-
-
chlorogenic acid biosynthesis II
-
-
chlorogenic acid degradation
-
-
chlorophyll metabolism
-
-
chlorosalicylate degradation
-
-
cholesterol biosynthesis
-
-
cholesterol biosynthesis (algae, late side-chain reductase)
-
-
cholesterol biosynthesis (diatoms)
-
-
cholesterol biosynthesis (plants, early side-chain reductase)
-
-
cholesterol biosynthesis II (via 24,25-dihydrolanosterol)
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cholesterol degradation to androstenedione I (cholesterol oxidase)
-
-
cholesterol degradation to androstenedione II (cholesterol dehydrogenase)
-
-
choline biosynthesis I
-
-
choline biosynthesis III
-
-
choline degradation I
-
-
choline degradation IV
-
-
chorismate biosynthesis from 3-dehydroquinate
-
-
chorismate metabolism
-
-
chrysin biosynthesis
-
-
cinnamoyl-CoA biosynthesis
-
-
cis-geranyl-CoA degradation
-
-
cis-vaccenate biosynthesis
Citrate cycle (TCA cycle)
-
-
citric acid cycle
-
-
CMP-3-deoxy-D-manno-octulosonate biosynthesis
-
-
CMP-8-amino-3,8-dideoxy-D-manno-octulosonate biosynthesis
-
-
CMP-KDO biosynthesis
-
-
CO2 fixation in Crenarchaeota
-
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CO2 fixation into oxaloacetate (anaplerotic)
-
-
coenzyme M biosynthesis
-
-
coenzyme M biosynthesis II
-
-
coumarin biosynthesis (via 2-coumarate)
-
-
coumarins biosynthesis (engineered)
-
-
creatine phosphate biosynthesis
-
-
cremeomycin biosynthesis
-
-
crotonyl-CoA/ethylmalonyl-CoA/hydroxybutyryl-CoA cycle (engineered)
-
-
curcuminoid biosynthesis
-
-
cutin biosynthesis
-
-
Cutin, suberine and wax biosynthesis
-
-
Cyanoamino acid metabolism
-
-
cyclic electron flow
-
-
cycloartenol biosynthesis
-
-
Cysteine and methionine metabolism
-
-
cysteine metabolism
-
-
cytosolic NADPH production (yeast)
-
-
D-galactose degradation I (Leloir pathway)
-
-
D-galactose degradation II
-
-
d-mannose degradation
-
-
D-myo-inositol (1,4,5)-trisphosphate biosynthesis
-
-
D-myo-inositol-5-phosphate metabolism
-
-
D-sorbitol biosynthesis I
-
-
D-sorbitol degradation I
-
-
d-xylose degradation
-
-
D-xylose degradation I
-
-
D-xylose degradation IV
-
-
degradation of aromatic, nitrogen containing compounds
-
-
degradation of hexoses
-
-
degradation of pentoses
-
-
degradation of sugar acids
-
-
degradation of sugar alcohols
-
-
denitrification
-
-
desferrioxamine B biosynthesis
-
-
desferrioxamine E biosynthesis
-
-
di-homo-gamma-linolenate metabolites biosynthesis
-
-
diacylglycerol and triacylglycerol biosynthesis
-
-
diethylphosphate degradation
-
-
dimethylsulfoniopropanoate biosynthesis I (Wollastonia)
-
-
dimethylsulfoniopropanoate biosynthesis II (Spartina)
-
-
Dioxin degradation
-
-
dipicolinate biosynthesis
-
-
dissimilatory sulfate reduction I (to hydrogen sufide))
-
-
Diterpenoid biosynthesis
-
-
divinyl ether biosynthesis I
-
-
divinyl ether biosynthesis II
-
-
docosahexaenoate metabolites biosynthesis
-
-
dopamine degradation
-
-
Drug metabolism - cytochrome P450
-
-
Drug metabolism - other enzymes
-
-
dTDP-beta-L-rhamnose biosynthesis
-
-
dTMP de novo biosynthesis (mitochondrial)
-
-
echinatin biosynthesis
-
-
ectoine biosynthesis
-
-
Entner Doudoroff pathway
-
-
Entner-Doudoroff pathway I
-
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Entner-Doudoroff pathway II (non-phosphorylative)
-
-
Entner-Doudoroff pathway III (semi-phosphorylative)
-
-
ephedrine biosynthesis
-
-
ergosterol biosynthesis II
-
-
Escherichia coli serotype O:127 O antigen biosynthesis
-
-
Escherichia coli serotype O:86 O antigen biosynthesis
-
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ethanol degradation I
-
-
ethanol degradation II
-
-
ethanol degradation IV
-
-
ethanol fermentation
-
-
ethanolamine utilization
-
-
ethene biosynthesis II (microbes)
-
-
ethene biosynthesis III (microbes)
-
-
ethene biosynthesis IV (engineered)
-
-
ethene biosynthesis V (engineered)
-
-
Ether lipid metabolism
-
-
eugenol and isoeugenol biosynthesis
-
-
even iso-branched-chain fatty acid biosynthesis
-
-
farnesene biosynthesis
-
-
farnesylcysteine salvage pathway
-
-
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
-
-
Fatty acid elongation
-
-
fatty acid elongation -- saturated
-
-
Fe(II) oxidation
-
-
ferulate and sinapate biosynthesis
-
-
firefly bioluminescence
-
-
flavin biosynthesis
-
-
flavin biosynthesis I (bacteria and plants)
-
-
flavin biosynthesis II (archaea)
-
-
flavin biosynthesis III (fungi)
-
-
Flavone and flavonol biosynthesis
-
-
flavonoid biosynthesis
-
-
Flavonoid biosynthesis
-
-
flavonoid biosynthesis (in equisetum)
-
-
flavonoid di-C-glucosylation
-
-
flavonol biosynthesis
-
-
flexixanthin biosynthesis
-
-
Folate biosynthesis
-
-
folate transformations I
-
-
folate transformations II (plants)
-
-
folate transformations III (E. coli)
-
-
formaldehyde assimilation I (serine pathway)
-
-
formaldehyde assimilation II (assimilatory RuMP Cycle)
-
-
formaldehyde assimilation III (dihydroxyacetone cycle)
-
-
formaldehyde oxidation
-
-
formaldehyde oxidation I
-
-
formaldehyde oxidation II (glutathione-dependent)
-
-
formate to nitrite electron transfer
-
-
free phenylpropanoid acid biosynthesis
-
-
fructan degradation
-
-
Fructose and mannose metabolism
-
-
fusicoccin A biosynthesis
-
-
GABA shunt I
-
-
GABA shunt II
-
-
Galactose metabolism
-
-
gallate degradation III (anaerobic)
-
-
gamma-glutamyl cycle
-
-
GDP-alpha-D-glucose biosynthesis
-
-
GDP-mannose biosynthesis
-
-
geraniol and geranial biosynthesis
-
-
Geraniol degradation
-
-
geranylgeranyl diphosphate biosynthesis
-
-
gibberellin biosynthesis III (early C-13 hydroxylation)
-
-
ginsenoside metabolism
-
-
gliotoxin biosynthesis
-
-
gluconeogenesis
-
-
gluconeogenesis I
-
-
gluconeogenesis II (Methanobacterium thermoautotrophicum)
-
-
gluconeogenesis III
-
-
glucose and glucose-1-phosphate degradation
-
-
glucose degradation (oxidative)
-
-
glucosinolate activation
-
-
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
-
-
glycerol-3-phosphate to fumarate electron transfer
-
-
Glycerolipid metabolism
-
-
glycerophosphodiester degradation
-
-
Glycerophospholipid metabolism
-
-
glycine betaine biosynthesis
-
-
glycine betaine biosynthesis I (Gram-negative bacteria)
-
-
glycine betaine biosynthesis II (Gram-positive bacteria)
-
-
glycine betaine biosynthesis III (plants)
-
-
glycine biosynthesis II
-
-
glycine cleavage
-
-
glycine degradation (reductive Stickland reaction)
-
-
glycine metabolism
-
-
Glycine, serine and threonine metabolism
-
-
glycogen biosynthesis
-
-
glycogen biosynthesis I (from ADP-D-Glucose)
-
-
glycogen biosynthesis II (from UDP-D-Glucose)
-
-
glycogen biosynthesis III (from alpha-maltose 1-phosphate)
-
-
glycogen degradation I
-
-
glycogen degradation II
-
-
glycogen metabolism
-
-
glycolate and glyoxylate degradation II
-
-
glycolysis
-
-
Glycolysis / Gluconeogenesis
-
-
glycolysis I (from glucose 6-phosphate)
-
-
glycolysis II (from fructose 6-phosphate)
-
-
glycolysis III (from glucose)
-
-
glycolysis IV
-
-
glycolysis V (Pyrococcus)
-
-
Glycosaminoglycan degradation
-
-
Glycosphingolipid biosynthesis - ganglio series
-
-
Glycosphingolipid biosynthesis - globo and isoglobo series
-
-
Glyoxylate and dicarboxylate metabolism
-
-
glyoxylate cycle
-
-
glyphosate degradation I
-
-
gondoate biosynthesis (anaerobic)
-
-
gossypol biosynthesis
-
-
grixazone biosynthesis
-
-
guanosine nucleotides degradation I
-
-
guanosine nucleotides degradation II
-
-
guanosine nucleotides degradation III
-
-
heme degradation I
-
-
heme metabolism
-
-
heterolactic fermentation
-
-
Histidine metabolism
-
-
homocysteine and cysteine interconversion
-
-
hyaluronan degradation
-
-
hydrogen sulfide biosynthesis II (mammalian)
-
-
hydrogen to fumarate electron transfer
-
-
hydroxycinnamic acid tyramine amides biosynthesis
-
-
hydroxylated fatty acid biosynthesis (plants)
-
-
hypoglycin biosynthesis
-
-
IAA biosynthesis
-
-
icosapentaenoate biosynthesis VI (fungi)
-
-
icosapentaenoate metabolites biosynthesis
-
-
incomplete reductive TCA cycle
-
-
indole glucosinolate activation (herbivore attack)
-
-
indole glucosinolate activation (intact plant cell)
-
-
indole-3-acetate biosynthesis II
-
-
indole-3-acetate biosynthesis III (bacteria)
-
-
indole-3-acetate biosynthesis IV (bacteria)
-
-
indole-3-acetate biosynthesis VI (bacteria)
-
-
inosine 5'-phosphate degradation
-
-
inosine-5'-phosphate biosynthesis I
-
-
inosine-5'-phosphate biosynthesis II
-
-
Inositol phosphate metabolism
-
-
inulin degradation
-
-
ipsdienol biosynthesis
-
-
Isoflavonoid biosynthesis
-
-
isoflavonoid biosynthesis I
-
-
isoflavonoid biosynthesis II
-
-
isoleucine metabolism
-
-
isoprene biosynthesis II (engineered)
-
-
isoprenoid biosynthesis
-
-
Isoquinoline alkaloid biosynthesis
-
-
isorenieratene biosynthesis I (actinobacteria)
-
-
jadomycin biosynthesis
-
-
jasmonic acid biosynthesis
-
-
justicidin B biosynthesis
-
-
L-alanine biosynthesis II
-
-
L-alanine degradation II (to D-lactate)
-
-
L-alanine degradation III
-
-
L-alanine degradation IV
-
-
L-alanine degradation V (oxidative Stickland reaction)
-
-
L-alanine degradation VI (reductive Stickland reaction)
-
-
L-arabinose degradation IV
-
-
L-arginine biosynthesis I (via L-ornithine)
-
-
L-arginine biosynthesis II (acetyl cycle)
-
-
L-arginine biosynthesis III (via N-acetyl-L-citrulline)
-
-
L-arginine biosynthesis IV (archaea)
-
-
L-arginine degradation I (arginase pathway)
-
-
L-arginine degradation III (arginine decarboxylase/agmatinase pathway)
-
-
L-arginine degradation IV (arginine decarboxylase/agmatine deiminase pathway)
-
-
L-arginine degradation V (arginine deiminase pathway)
-
-
L-arginine degradation VI (arginase 2 pathway)
-
-
L-arginine degradation VII (arginase 3 pathway)
-
-
L-arginine degradation X (arginine monooxygenase pathway)
-
-
L-arginine degradation XIII (reductive Stickland reaction)
-
-
L-arginine degradation XIV (oxidative Stickland reaction)
-
-
L-ascorbate biosynthesis I (plants, L-galactose pathway)
-
-
L-ascorbate biosynthesis VII (plants, D-galacturonate pathway)
-
-
L-ascorbate degradation II (bacterial, aerobic)
-
-
L-ascorbate degradation III
-
-
L-asparagine degradation III (mammalian)
-
-
L-aspartate biosynthesis
-
-
L-aspartate degradation I
-
-
L-aspartate degradation II (aerobic)
-
-
L-aspartate degradation III (anaerobic)
-
-
L-citrulline biosynthesis
-
-
L-citrulline degradation
-
-
L-cysteine biosynthesis III (from L-homocysteine)
-
-
L-cysteine biosynthesis IX (Trichomonas vaginalis)
-
-
L-dopa and L-dopachrome biosynthesis
-
-
L-glutamate degradation I
-
-
L-glutamate degradation II
-
-
L-glutamate degradation IX (via 4-aminobutanoate)
-
-
L-glutamate degradation V (via hydroxyglutarate)
-
-
L-glutamate degradation VI (to pyruvate)
-
-
L-glutamate degradation XI (reductive Stickland reaction)
-
-
L-glutamine biosynthesis I
-
-
L-glutamine degradation II
-
-
L-histidine degradation V
-
-
L-homoserine biosynthesis
-
-
L-isoleucine biosynthesis I (from threonine)
-
-
L-isoleucine biosynthesis II
-
-
L-isoleucine biosynthesis III
-
-
L-isoleucine biosynthesis IV
-
-
L-isoleucine degradation II
-
-
L-lactaldehyde degradation
-
-
L-leucine degradation I
-
-
L-leucine degradation III
-
-
L-lysine biosynthesis I
-
-
L-lysine biosynthesis II
-
-
L-lysine biosynthesis III
-
-
L-lysine biosynthesis VI
-
-
L-lysine degradation I
-
-
L-lysine degradation X
-
-
L-lysine fermentation to acetate and butanoate
-
-
L-methionine biosynthesis I
-
-
L-methionine biosynthesis II
-
-
L-methionine biosynthesis III
-
-
L-methionine biosynthesis IV
-
-
L-methionine degradation III
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L-methionine salvage from L-homocysteine
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L-Ndelta-acetylornithine biosynthesis
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L-nicotianamine biosynthesis
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L-ornithine biosynthesis I
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L-phenylalanine biosynthesis I
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L-phenylalanine biosynthesis II
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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-proline degradation I
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L-serine biosynthesis I
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L-serine biosynthesis II
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L-threonine degradation I
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L-tryptophan biosynthesis
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L-tryptophan degradation IV (via indole-3-lactate)
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L-tryptophan degradation to 2-amino-3-carboxymuconate semialdehyde
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L-tryptophan degradation V (side chain pathway)
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L-tryptophan degradation VI (via tryptamine)
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L-tryptophan degradation VIII (to tryptophol)
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