MetaCyc Pathways for Synechococcus elongatus PCC 7942

Metacyc Pathways for Synechococcus elongatus PCC 7942

Pathway	Steps Found
superpathway of histidine, purine, and pyrimidine biosynthesis	43 / 46
superpathway of fatty acids biosynthesis (E. coli)	48 / 53
palmitate biosynthesis II (type II fatty acid synthase)	29 / 31
superpathway of fatty acid biosynthesis II (plant)	37 / 43
ethene biosynthesis V (engineered)	24 / 25
superpathway of purine nucleotides de novo biosynthesis I	21 / 21
superpathway of purine nucleotides de novo biosynthesis II	24 / 26
adenosylcobalamin biosynthesis II (aerobic)	29 / 33
adenosylcobalamin biosynthesis I (anaerobic)	31 / 36
tRNA charging	20 / 21
oxygenic photosynthesis	17 / 17
superpathway of aromatic amino acid biosynthesis	17 / 18
superpathway of branched chain amino acid biosynthesis	16 / 17
Calvin-Benson-Bassham cycle	13 / 13
superpathway of L-tryptophan biosynthesis	13 / 13
Bifidobacterium shunt	14 / 15
cob(II)yrinate a,c-diamide biosynthesis I (early cobalt insertion)	14 / 15
aspartate superpathway	21 / 25
oleate biosynthesis IV (anaerobic)	13 / 14
L-arginine biosynthesis II (acetyl cycle)	10 / 10
L-histidine biosynthesis	10 / 10
Rubisco shunt	10 / 10
superpathway of L-phenylalanine biosynthesis	10 / 10
superpathway of heme b biosynthesis from glutamate	10 / 10
superpathway of menaquinol-9 biosynthesis	10 / 10
tRNA processing	10 / 10
cob(II)yrinate a,c-diamide biosynthesis II (late cobalt incorporation)	12 / 13
gluconeogenesis I	12 / 13
superpathway of L-isoleucine biosynthesis I	12 / 13
superpathway of unsaturated fatty acids biosynthesis (E. coli)	17 / 20
3,8-divinyl-chlorophyllide a biosynthesis I (aerobic, light-dependent)	9 / 9
3,8-divinyl-chlorophyllide a biosynthesis III (aerobic, light independent)	9 / 9
methylerythritol phosphate pathway II	9 / 9
superpathway of demethylmenaquinol-9 biosynthesis	9 / 9
superpathway of fatty acid biosynthesis I (E. coli)	14 / 16
peptidoglycan biosynthesis I (meso-diaminopimelate containing)	11 / 12
photosynthetic 3-hydroxybutanoate biosynthesis (engineered)	21 / 26
UDP-N-acetylmuramoyl-pentapeptide biosynthesis I (meso-diaminopimelate containing)	8 / 8
pentose phosphate pathway	8 / 8
superpathway of adenosylcobalamin salvage from cobinamide I	8 / 8
biotin biosynthesis I	13 / 15
superpathway of L-lysine, L-threonine and L-methionine biosynthesis II	13 / 15
O-antigen building blocks biosynthesis (E. coli)	10 / 11
colanic acid building blocks biosynthesis	10 / 11
glycolysis II (from fructose 6-phosphate)	10 / 11
glycolysis III (from glucose)	10 / 11
superpathway of pyrimidine deoxyribonucleotides de novo biosynthesis	15 / 18
2-carboxy-1,4-naphthoquinol biosynthesis	7 / 7
L-lysine biosynthesis VI	7 / 7
chorismate biosynthesis I	7 / 7
superpathway of L-tyrosine biosynthesis	9 / 10
superpathway of menaquinol-10 biosynthesis	9 / 10
superpathway of menaquinol-11 biosynthesis	9 / 10
superpathway of menaquinol-12 biosynthesis	9 / 10
superpathway of menaquinol-13 biosynthesis	9 / 10
superpathway of menaquinol-6 biosynthesis	9 / 10
superpathway of menaquinol-7 biosynthesis	9 / 10
superpathway of menaquinol-8 biosynthesis I	9 / 10
superpathway of glucose and xylose degradation	14 / 17
superpathway of glycolysis and the Entner-Doudoroff pathway	14 / 17
L-leucine biosynthesis	6 / 6
L-tryptophan biosynthesis	6 / 6
NAD de novo biosynthesis I	6 / 6
UMP biosynthesis II	6 / 6
adenosylcobinamide-GDP biosynthesis from cobyrinate a,c-diamide	6 / 6
inosine-5'-phosphate biosynthesis I	6 / 6
ppGpp metabolism	6 / 6
superpathway of 5-aminoimidazole ribonucleotide biosynthesis	6 / 6
superpathway of L-threonine biosynthesis	6 / 6
superpathway of guanosine nucleotides de novo biosynthesis I	6 / 6
tetrapyrrole biosynthesis I (from glutamate)	6 / 6
glycolysis I (from glucose 6-phosphate)	11 / 13
1-butanol autotrophic biosynthesis (engineered)	21 / 27
L-arginine biosynthesis I (via L-ornithine)	8 / 9
flavin biosynthesis I (bacteria and plants)	8 / 9
palmitoleate biosynthesis I (from (5Z)-dodec-5-enoate)	8 / 9
photorespiration I	8 / 9
photorespiration III	8 / 9
pyrimidine deoxyribonucleotides de novo biosynthesis III	8 / 9
superpathway of adenosylcobalamin salvage from cobinamide II	8 / 9
superpathway of coenzyme A biosynthesis I (bacteria)	8 / 9
superpathway of demethylmenaquinol-6 biosynthesis I	8 / 9
superpathway of demethylmenaquinol-8 biosynthesis I	8 / 9
superpathway of pyrimidine ribonucleotides de novo biosynthesis	8 / 9
5-aminoimidazole ribonucleotide biosynthesis I	5 / 5
5-aminoimidazole ribonucleotide biosynthesis II	5 / 5
CMP-3-deoxy-D-manno-octulosonate biosynthesis	5 / 5
UDP-N-acetyl-D-glucosamine biosynthesis I	5 / 5
adenosylcobalamin salvage from cobalamin	5 / 5
adenosylcobinamide-GDP salvage from cobinamide I	5 / 5
chlorophyll a biosynthesis II	5 / 5
chorismate biosynthesis from 3-dehydroquinate	5 / 5
dTDP-β-L-rhamnose biosynthesis	5 / 5
fatty acid elongation -- saturated	5 / 5
inosine-5'-phosphate biosynthesis II	5 / 5
pentose phosphate pathway (non-oxidative branch) I	5 / 5
superpathway of adenosine nucleotides de novo biosynthesis I	5 / 5
superpathway of coenzyme A biosynthesis III (mammals)	5 / 5
formaldehyde assimilation III (dihydroxyacetone cycle)	10 / 12
homolactic fermentation	10 / 12
superpathway of L-methionine biosynthesis (by sulfhydrylation)	10 / 12
superpathway of tetrahydrofolate biosynthesis and salvage	10 / 12
UDP-N-acetylmuramoyl-pentapeptide biosynthesis II (lysine-containing)	7 / 8
superpathway of guanosine nucleotides de novo biosynthesis II	7 / 8
superpathway of heme b biosynthesis from glycine	7 / 8
superpathway of phylloquinol biosynthesis	12 / 15
superpathway of cytosolic glycolysis (plants), pyruvate dehydrogenase and TCA cycle	17 / 22
erythro-tetrahydrobiopterin biosynthesis I	4 / 4
CDP-diacylglycerol biosynthesis I	4 / 4
CDP-diacylglycerol biosynthesis II	4 / 4
GDP-mannose biosynthesis	4 / 4
L-asparagine biosynthesis III (tRNA-dependent)	4 / 4
L-proline biosynthesis I (from L-glutamate)	4 / 4
L-valine biosynthesis	4 / 4
NAD biosynthesis from 2-amino-3-carboxymuconate semialdehyde	4 / 4
assimilatory sulfate reduction IV	4 / 4
biotin biosynthesis from 8-amino-7-oxononanoate I	4 / 4
biotin-carboxyl carrier protein assembly	4 / 4
coenzyme A biosynthesis I (bacteria)	4 / 4
coenzyme A biosynthesis II (eukaryotic)	4 / 4
formaldehyde oxidation VII (THF pathway)	4 / 4
glutaminyl-tRNA^gln biosynthesis via transamidation	4 / 4
glycogen biosynthesis I (from ADP-D-Glucose)	4 / 4
gondoate biosynthesis (anaerobic)	4 / 4
guanosine ribonucleotides de novo biosynthesis	4 / 4
heme b biosynthesis I (aerobic)	4 / 4
phosphopantothenate biosynthesis I	4 / 4
photosynthesis light reactions	4 / 4
pyrimidine deoxyribonucleotide phosphorylation	4 / 4
reactive oxygen species degradation	4 / 4
superpathway of L-alanine biosynthesis	4 / 4
superpathway of pyrimidine nucleobases salvage	4 / 4
8-amino-7-oxononanoate biosynthesis I	9 / 11
L-methionine salvage cycle III	9 / 11
superpathway of thiamine diphosphate biosynthesis II	9 / 11
superpathway of L-lysine, L-threonine and L-methionine biosynthesis I	14 / 18
3-methylbutanol biosynthesis (engineered)	6 / 7
L-isoleucine biosynthesis I (from threonine)	6 / 7
L-lysine biosynthesis III	6 / 7
superpathway of adenosine nucleotides de novo biosynthesis II	6 / 7
2-methyladeninyl adenosylcobamide biosynthesis from adenosylcobinamide-GDP	3 / 3
5-hydroxybenzimidazolyl adenosylcobamide biosynthesis from adenosylcobinamide-GDP	3 / 3
5-methoxy-6-methylbenzimidazolyl adenosylcobamide biosynthesis from adenosylcobinamide-GDP	3 / 3
5-methoxybenzimidazolyl adenosylcobamide biosynthesis from adenosylcobinamide-GDP	3 / 3
5-methylbenzimidazolyl adenosylcobamide biosynthesis from adenosylcobinamide-GDP	3 / 3
GDP-L-fucose biosynthesis I (from GDP-D-mannose)	3 / 3
L-arginine degradation IV (arginine decarboxylase/agmatine deiminase pathway)	3 / 3
L-citrulline degradation	3 / 3
L-homoserine biosynthesis	3 / 3
L-phenylalanine biosynthesis I	3 / 3
UTP and CTP de novo biosynthesis	3 / 3
adeninyl adenosylcobamide biosynthesis from adenosylcobinamide-GDP	3 / 3
adenosine ribonucleotides de novo biosynthesis	3 / 3
adenosylcobalamin biosynthesis from adenosylcobinamide-GDP I	3 / 3
aerobic respiration III (alternative oxidase pathway)	3 / 3
alkane biosynthesis I	3 / 3
ammonia assimilation cycle III	3 / 3
benzimidazolyl adenosylcobamide biosynthesis from adenosylcobinamide-GDP	3 / 3
cyanate degradation	3 / 3
ethanol degradation II	3 / 3
ethanol degradation IV	3 / 3
fatty acid biosynthesis initiation (type II)	3 / 3
formaldehyde oxidation II (glutathione-dependent)	3 / 3
glycine biosynthesis II	3 / 3
glycine cleavage	3 / 3
heptadecane biosynthesis	3 / 3
oleate biosynthesis III (cyanobacteria)	3 / 3
pentose phosphate pathway (oxidative branch) I	3 / 3
pentose phosphate pathway (partial)	3 / 3
phycocyanobilin biosynthesis	3 / 3
phytyl diphosphate biosynthesis	3 / 3
putrescine biosynthesis II	3 / 3
pyruvate decarboxylation to acetyl CoA I	3 / 3
succinate to cytochrome c oxidase via plastocyanin (thylakoid membrane)	3 / 3
tetrahydrofolate biosynthesis I	3 / 3
glycolysis IV	8 / 10
photorespiration II	8 / 10
superpathway of tetrahydrofolate biosynthesis	8 / 10
(5Z)-dodecenoate biosynthesis I	5 / 6
NAD de novo biosynthesis III	5 / 6
NAD de novo biosynthesis IV (anaerobic)	5 / 6
UMP biosynthesis I	5 / 6
UMP biosynthesis III	5 / 6
adenosylcobinamide-GDP salvage from cobinamide II	5 / 6
inosine-5'-phosphate biosynthesis III	5 / 6
pentose phosphate pathway (non-oxidative branch) II	5 / 6
phosphatidylglycerol biosynthesis I	5 / 6
phosphatidylglycerol biosynthesis II	5 / 6
superpathway of photosynthetic hydrogen production	5 / 6
3-dehydroquinate biosynthesis I	2 / 2
4-amino-2-methyl-5-diphosphomethylpyrimidine biosynthesis I	2 / 2
4-aminobenzoate biosynthesis I	2 / 2
N-acetylglucosamine degradation I	2 / 2
trans, trans-farnesyl diphosphate biosynthesis	2 / 2
CMP phosphorylation	2 / 2
CO₂ fixation into oxaloacetate (anaplerotic)	2 / 2
GDP-D-perosamine biosynthesis	2 / 2
L-alanine biosynthesis I	2 / 2
L-alanine degradation V (oxidative Stickland reaction)	2 / 2
L-cysteine biosynthesis I	2 / 2
L-glutamate biosynthesis I	2 / 2
L-homocysteine biosynthesis	2 / 2
L-threonine biosynthesis	2 / 2
N-end rule pathway I (prokaryotic)	2 / 2
NAD biosynthesis from nicotinamide	2 / 2
UDP-α-D-xylose biosynthesis	2 / 2
adenosine deoxyribonucleotides de novo biosynthesis I	2 / 2
ammonia assimilation cycle II	2 / 2
chlorophyll a biosynthesis I	2 / 2
chlorophyll a biosynthesis III	2 / 2
di-trans,poly-cis-undecaprenyl phosphate biosynthesis	2 / 2
flavin salvage	2 / 2
glutathione biosynthesis	2 / 2
guanosine deoxyribonucleotides de novo biosynthesis I	2 / 2
hydroxymethylpyrimidine salvage	2 / 2
lipoate biosynthesis and incorporation I	2 / 2
malate/L-aspartate shuttle pathway	2 / 2
menaquinol-10 biosynthesis	2 / 2
menaquinol-11 biosynthesis	2 / 2
menaquinol-12 biosynthesis	2 / 2
menaquinol-13 biosynthesis	2 / 2
menaquinol-7 biosynthesis	2 / 2
nitrate reduction VI (assimilatory)	2 / 2
phenylethylamine degradation I	2 / 2
polyphosphate metabolism	2 / 2
pyrimidine nucleobases salvage II	2 / 2
sedoheptulose bisphosphate bypass	2 / 2
spermidine biosynthesis I	2 / 2
sulfate activation for sulfonation	2 / 2
sulfoquinovosyl diacylglycerol biosynthesis	2 / 2
superoxide radicals degradation	2 / 2
tetrahydrofolate salvage from 5,10-methenyltetrahydrofolate	2 / 2
tetrahydropteridine recycling	2 / 2
thiamine diphosphate biosynthesis I (E. coli)	2 / 2
thiamine diphosphate biosynthesis II (Bacillus)	2 / 2
zeaxanthin biosynthesis	2 / 2
Entner-Doudoroff pathway I	7 / 9
L-arginine biosynthesis III (via N-acetyl-L-citrulline)	7 / 9
L-lysine biosynthesis I	7 / 9
flavin biosynthesis III (fungi)	7 / 9
folate transformations III (E. coli)	7 / 9
formaldehyde assimilation II (assimilatory RuMP Cycle)	7 / 9
lipid IV_A biosynthesis (P. gingivalis)	7 / 9
pyrimidine deoxyribonucleotides de novo biosynthesis I	7 / 9
sucrose biosynthesis I (from photosynthesis)	7 / 9
superpathway of S-adenosyl-L-methionine biosynthesis	7 / 9
superpathway of L-methionine biosynthesis (transsulfuration)	7 / 9
superpathway of sulfate assimilation and cysteine biosynthesis	7 / 9
8-amino-7-oxononanoate biosynthesis IV	4 / 5
cis-vaccenate biosynthesis	4 / 5
L-ornithine biosynthesis I	4 / 5
NAD salvage pathway II (PNC IV cycle)	4 / 5
folate polyglutamylation	4 / 5
polyisoprenoid biosynthesis (E. coli)	4 / 5
pyruvate fermentation to isobutanol (engineered)	4 / 5
superpathway of fatty acid biosynthesis initiation	4 / 5
thiamine diphosphate salvage II	4 / 5
octanoyl-[acyl-carrier protein] biosynthesis (mitochondria, yeast)	9 / 12
superpathway of geranylgeranyl diphosphate biosynthesis II (via MEP)	9 / 12
superpathway of anaerobic sucrose degradation	14 / 19
superpathway of glycolysis, pyruvate dehydrogenase, TCA, and glyoxylate bypass	19 / 26
3-(4-hydroxyphenyl)pyruvate biosynthesis	1 / 1
3-methylthiopropanoate biosynthesis	1 / 1
5-hydroxybenzimidazole biosynthesis (anaerobic)	1 / 1
S-methyl-5'-thioadenosine degradation II	1 / 1
ATP biosynthesis	1 / 1
L-alanine biosynthesis II	1 / 1
L-alanine biosynthesis III	1 / 1
L-alanine degradation III	1 / 1
L-alanine degradation IV	1 / 1
L-asparagine degradation I	1 / 1
L-aspartate biosynthesis	1 / 1
L-aspartate degradation I	1 / 1
L-cysteine degradation IV	1 / 1
L-glutamate biosynthesis V	1 / 1
L-glutamine biosynthesis I	1 / 1
L-glutamine degradation I	1 / 1
L-glutamine degradation II	1 / 1
L-malate degradation II	1 / 1
NADP biosynthesis	1 / 1
PRPP biosynthesis	1 / 1
S-adenosyl-L-methionine biosynthesis	1 / 1
UDP-α-D-galactose biosynthesis	1 / 1
UDP-α-D-glucuronate biosynthesis (from UDP-glucose)	1 / 1
UDP-β-L-arabinose biosynthesis I (from UDP-α-D-xylose)	1 / 1
UDP-N-acetyl-α-D-mannosamine biosynthesis	1 / 1
UDP-N-acetyl-D-galactosamine biosynthesis I	1 / 1
acetaldehyde biosynthesis I	1 / 1
acetate and ATP formation from acetyl-CoA III	1 / 1
acetate conversion to acetyl-CoA	1 / 1
acrylonitrile degradation II	1 / 1
alanine racemization	1 / 1
arginine dependent acid resistance	1 / 1
betanidin degradation	1 / 1
cadaverine biosynthesis	1 / 1
cellulose biosynthesis	1 / 1
chlorophyll a₂ biosynthesis	1 / 1
demethylmenaquinol-4 biosynthesis	1 / 1
demethylmenaquinol-6 biosynthesis I	1 / 1
demethylmenaquinol-8 biosynthesis I	1 / 1
demethylmenaquinol-9 biosynthesis	1 / 1
geranyl diphosphate biosynthesis	1 / 1
geranylgeranyl diphosphate biosynthesis	1 / 1
glycine biosynthesis I	1 / 1
glycine biosynthesis III	1 / 1
glyphosate degradation II	1 / 1
heme degradation II	1 / 1
hydrogen oxidation II (aerobic, NAD)	1 / 1
hydrogen production II	1 / 1
indole-3-acetate biosynthesis V (bacteria and fungi)	1 / 1
long-chain fatty acid activation	1 / 1
menaquinol-4 biosynthesis I	1 / 1
menaquinol-6 biosynthesis	1 / 1
menaquinol-8 biosynthesis	1 / 1
menaquinol-9 biosynthesis	1 / 1
nonaprenyl diphosphate biosynthesis I	1 / 1
nonaprenyl diphosphate biosynthesis II	1 / 1
oxalate degradation V	1 / 1
pyrimidine nucleobases salvage I	1 / 1
pyruvate decarboxylation to acetyl CoA III	1 / 1
pyruvate fermentation to (R)-lactate	1 / 1
thiosulfate disproportionation IV (rhodanese)	1 / 1
trans-lycopene biosynthesis II (oxygenic phototrophs and green sulfur bacteria)	6 / 8
UDP-N-acetylmuramoyl-pentapeptide biosynthesis III (meso-diaminopimelate containing)	6 / 8
glycogen degradation I	6 / 8
nitrogen remobilization from senescing leaves	6 / 8
partial TCA cycle (obligate autotrophs)	6 / 8
sucrose biosynthesis II	6 / 8
superpathway of L-homoserine and L-methionine biosynthesis	6 / 8
peptidoglycan biosynthesis III (mycobacteria)	11 / 15
palmitate biosynthesis III	21 / 29
all-trans-farnesol biosynthesis	3 / 4
threo-tetrahydrobiopterin biosynthesis	3 / 4
L-arginine degradation V (arginine deiminase pathway)	3 / 4
L-methionine biosynthesis III	3 / 4
NADPH to cytochrome c oxidase via plastocyanin (thylakoid membrane)	3 / 4
adenosine deoxyribonucleotides de novo biosynthesis II	3 / 4
aerobic respiration I (cytochrome c)	3 / 4
assimilatory sulfate reduction I	3 / 4
biotin biosynthesis from 8-amino-7-oxononanoate II	3 / 4
coenzyme A biosynthesis III (archaea)	3 / 4
dipicolinate biosynthesis	3 / 4
dipyrromethane cofactor biosynthesis	3 / 4
echinenone and zeaxanthin biosynthesis (Synechocystis)	3 / 4
guanosine deoxyribonucleotides de novo biosynthesis II	3 / 4
heme b biosynthesis V (aerobic)	3 / 4
phycoviolobilin biosynthesis	3 / 4
phytol degradation	3 / 4
queuosine biosynthesis I (de novo)	3 / 4
siroheme biosynthesis	3 / 4
starch degradation V	3 / 4
sucrose degradation III (sucrose invertase)	3 / 4
sucrose degradation IV (sucrose phosphorylase)	3 / 4
superpathway of L-serine and glycine biosynthesis I	3 / 4
tetrapyrrole biosynthesis II (from glycine)	3 / 4
heterolactic fermentation	13 / 18
S-methyl-5-thio-α-D-ribose 1-phosphate degradation I	5 / 7
UDP-N-acetyl-D-galactosamine biosynthesis II	5 / 7
UTP and CTP dephosphorylation I	5 / 7
anaerobic energy metabolism (invertebrates, cytosol)	5 / 7
ethene biosynthesis III (microbes)	5 / 7
pyrimidine deoxyribonucleotides de novo biosynthesis IV	5 / 7
thiazole component of thiamine diphosphate biosynthesis II	5 / 7
peptidoglycan recycling I	10 / 14
superpathway of GDP-mannose-derived O-antigen building blocks biosynthesis	10 / 14
superpathway of purine nucleotide salvage	10 / 14
superpathway of pyrimidine deoxyribonucleotides de novo biosynthesis (E. coli)	10 / 14
β-1,4-D-mannosyl-N-acetyl-D-glucosamine degradation	2 / 3
4-methylphenyl adenosylcobamide biosynthesis from adenosylcobinamide-GDP	2 / 3
5'-deoxyadenosine degradation I	2 / 3
6-hydroxymethyl-dihydropterin diphosphate biosynthesis IV (Plasmodium)	2 / 3
N-acetylglucosamine degradation II	2 / 3
S-adenosyl-L-methionine salvage II	2 / 3
CDP-4-dehydro-3,6-dideoxy-D-glucose biosynthesis	2 / 3
D-serine degradation	2 / 3
D-sorbitol degradation I	2 / 3
GDP-α-D-glucose biosynthesis	2 / 3
GDP-N-acetyl-α-D-perosamine biosynthesis	2 / 3
GDP-N-formyl-α-D-perosamine biosynthesis	2 / 3
L-alanine degradation II (to D-lactate)	2 / 3
L-asparagine degradation III (mammalian)	2 / 3
L-cysteine biosynthesis IX (Trichomonas vaginalis)	2 / 3
L-cysteine degradation II	2 / 3
L-isoleucine biosynthesis V	2 / 3
L-isoleucine degradation II	2 / 3
L-leucine degradation III	2 / 3
L-methionine degradation I (to L-homocysteine)	2 / 3
L-methionine degradation II	2 / 3
L-ornithine biosynthesis II	2 / 3
L-phenylalanine degradation II (anaerobic)	2 / 3
L-phenylalanine degradation V	2 / 3
L-proline biosynthesis III (from L-ornithine)	2 / 3
L-serine biosynthesis I	2 / 3
L-serine degradation	2 / 3
L-tryptophan degradation II (via pyruvate)	2 / 3
L-tyrosine biosynthesis I	2 / 3
L-valine degradation II	2 / 3
NAD salvage pathway III (to nicotinamide riboside)	2 / 3
aminopropylcadaverine biosynthesis	2 / 3
assimilatory sulfate reduction II	2 / 3
assimilatory sulfate reduction III	2 / 3
cyclic electron flow	2 / 3
dTMP de novo biosynthesis (mitochondrial)	2 / 3
ethanol degradation III	2 / 3
formate assimilation into 5,10-methylenetetrahydrofolate	2 / 3
gallate biosynthesis	2 / 3
glutathione-peroxide redox reactions	2 / 3
glycine degradation	2 / 3
hypotaurine degradation	2 / 3
lipoate biosynthesis and incorporation III (Bacillus)	2 / 3
lipoate biosynthesis and incorporation V (mammals)	2 / 3
methylglyoxal degradation I	2 / 3
methylglyoxal degradation VIII	2 / 3
neolinustatin bioactivation	2 / 3
nitric oxide biosynthesis II (mammals)	2 / 3
ophiobolin F biosynthesis	2 / 3
ophthalmate biosynthesis	2 / 3
phenyl adenosylcobamide biosynthesis from adenosylcobinamide-GDP	2 / 3
phycoerythrobilin biosynthesis II	2 / 3
putrescine degradation IV	2 / 3
pyruvate fermentation to (R)-acetoin I	2 / 3
pyruvate fermentation to (S)-acetoin	2 / 3
pyruvate fermentation to acetate I	2 / 3
pyruvate fermentation to acetate II	2 / 3
pyruvate fermentation to acetate VII	2 / 3
pyruvate fermentation to acetate and alanine	2 / 3
pyruvate fermentation to ethanol III	2 / 3
salicylate biosynthesis II	2 / 3
scopoletin biosynthesis	2 / 3
succinate to chytochrome c oxidase via cytochrome c₆ (thylakoid membrane)	2 / 3
sucrose biosynthesis III	2 / 3
superpathway of acetate utilization and formation	2 / 3
superpathway of acrylonitrile degradation	2 / 3
superpathway of ammonia assimilation (plants)	2 / 3
tetrahydrofolate biosynthesis II	2 / 3
thiamine diphosphate salvage V	2 / 3
trehalose degradation V	2 / 3
vancomycin resistance I	2 / 3
TCA cycle I (prokaryotic)	7 / 10
TCA cycle III (animals)	7 / 10
glycolysis V (Pyrococcus)	7 / 10
superpathway of pyrimidine ribonucleosides salvage	7 / 10
superpathway of thiamine diphosphate biosynthesis I	7 / 10
peptidoglycan biosynthesis II (staphylococci)	12 / 17
peptidoglycan biosynthesis IV (Enterococcus faecium)	12 / 17
superpathway of arginine and polyamine biosynthesis	12 / 17
γ-glutamyl cycle	4 / 6
(5Z)-dodecenoate biosynthesis II	4 / 6
5-oxo-L-proline metabolism	4 / 6
L-isoleucine biosynthesis IV	4 / 6
L-methionine biosynthesis II	4 / 6
TCA cycle VIII (Chlamydia)	4 / 6
UDP-N-acetyl-D-glucosamine biosynthesis II	4 / 6
biotin biosynthesis II	4 / 6
glycogen degradation II	4 / 6
glyoxylate cycle	4 / 6
lipid IV_A biosynthesis (E. coli)	4 / 6
lipid IV_A biosynthesis (H. pylori)	4 / 6
lipid IV_A biosynthesis (P. putida)	4 / 6
lipid IV_A biosynthesis (Vibrio cholerae serogroup O1 El Tor)	4 / 6
lipid IV_A biosynthesis (generic)	4 / 6
purine deoxyribonucleosides salvage	4 / 6
stearate biosynthesis II (bacteria and plants)	4 / 6
taxadiene biosynthesis (engineered)	9 / 13
anteiso-branched-chain fatty acid biosynthesis	24 / 34
even iso-branched-chain fatty acid biosynthesis	24 / 34
odd iso-branched-chain fatty acid biosynthesis	24 / 34
γ-linolenate biosynthesis II (animals)	1 / 2
(1,4)-β-D-xylan degradation	1 / 2
(3R)-linalool biosynthesis	1 / 2
(3S)-linalool biosynthesis	1 / 2
4-aminobenzoate biosynthesis II	1 / 2
4-aminobutanoate degradation I	1 / 2
4-aminobutanoate degradation II	1 / 2
4-aminobutanoate degradation III	1 / 2
5-methoxybenzimidazole biosynthesis (anaerobic)	1 / 2
8-amino-7-oxononanoate biosynthesis II	1 / 2
8-amino-7-oxononanoate biosynthesis III	1 / 2
Helicobacter pylori 26695 lipopolysaccharide biosynthesis (final steps)	1 / 2
myo-inositol biosynthesis	1 / 2
D-mannose degradation I	1 / 2
D-mannose degradation II	1 / 2
Entner-Doudoroff shunt	1 / 2
GDP-6-deoxy-D-talose biosynthesis	1 / 2
GDP-D-rhamnose biosynthesis	1 / 2
L-alanine degradation I	1 / 2
L-arginine degradation III (arginine decarboxylase/agmatinase pathway)	1 / 2
L-cysteine degradation III	1 / 2
L-glutamate degradation II	1 / 2
L-phenylalanine biosynthesis III (cytosolic, plants)	1 / 2
L-tryptophan degradation IV (via indole-3-lactate)	1 / 2
L-tyrosine degradation II	1 / 2
NAD phosphorylation and transhydrogenation	1 / 2
NAD salvage pathway IV (from nicotinamide riboside)	1 / 2
NADH to cytochrome bd oxidase electron transfer I	1 / 2
NADH to cytochrome bo oxidase electron transfer I	1 / 2
UDP-α-D-galactofuranose biosynthesis	1 / 2
UDP-α-D-glucose biosynthesis	1 / 2
acetate and ATP formation from acetyl-CoA I	1 / 2
acrylonitrile degradation I	1 / 2
adenine and adenosine salvage I	1 / 2
adenine and adenosine salvage II	1 / 2
adenosylcobinamide-GDP salvage from assorted adenosylcobamides	1 / 2
aminopropanol phosphate biosynthesis I	1 / 2
ammonia assimilation cycle I	1 / 2
arsenate detoxification V	1 / 2
arsenite to oxygen electron transfer	1 / 2
atromentin biosynthesis	1 / 2
baicalein degradation (hydrogen peroxide detoxification)	1 / 2
base-degraded thiamine salvage	1 / 2
cytidylyl molybdenum cofactor sulfurylation	1 / 2
diethylphosphate degradation	1 / 2
ethanol degradation I	1 / 2
ethylene glycol degradation	1 / 2
glutathione degradation (DUG pathway)	1 / 2
glycerol degradation II	1 / 2
glycerol degradation V	1 / 2
glycerol-3-phosphate shuttle	1 / 2
glycine degradation (reductive Stickland reaction)	1 / 2
glycolate and glyoxylate degradation II	1 / 2
homoglutathione biosynthesis	1 / 2
indole-3-acetate biosynthesis III (bacteria)	1 / 2
indole-3-acetate biosynthesis IV (bacteria)	1 / 2
linalool biosynthesis I	1 / 2
linamarin degradation	1 / 2
linoleate biosynthesis II (animals)	1 / 2
lipoate salvage I	1 / 2
lotaustralin degradation	1 / 2
methanol oxidation to formaldehyde IV	1 / 2
nitrate reduction II (assimilatory)	1 / 2
oleate biosynthesis II (animals and fungi)	1 / 2
palmitoleate biosynthesis III (cyanobacteria)	1 / 2
palmitoleate biosynthesis IV (fungi and animals)	1 / 2
periplasmic disulfide bond reduction	1 / 2
phenylethanol degradation	1 / 2
phenylethylamine degradation II	1 / 2
phenylmercury acetate degradation	1 / 2
phospholipid remodeling (phosphatidate, yeast)	1 / 2
protective electron sinks in the thylakoid membrane (PSII to PTOX)	1 / 2
pseudouridine degradation	1 / 2
putrescine biosynthesis I	1 / 2
putrescine degradation I	1 / 2
putrescine degradation V	1 / 2
pyrimidine ribonucleosides degradation	1 / 2
pyrimidine ribonucleosides salvage II	1 / 2
pyrimidine ribonucleosides salvage III	1 / 2
pyruvate fermentation to (R)-acetoin II	1 / 2
pyruvate fermentation to acetate III	1 / 2
pyruvate fermentation to ethanol II	1 / 2
reductive monocarboxylic acid cycle	1 / 2
salicylate biosynthesis I	1 / 2
spermine biosynthesis	1 / 2
succinate to cytochrome bd oxidase electron transfer	1 / 2
succinate to cytochrome bo oxidase electron transfer	1 / 2
succinate to cytochrome bo quinol oxidase (cyanobacteria, cytoplamic membrane)	1 / 2
superpathway of hydrogen production	1 / 2
thiamine diphosphate salvage I	1 / 2
thioredoxin pathway	1 / 2
trehalose degradation I (low osmolarity)	1 / 2
trehalose degradation II (cytosolic)	1 / 2
3,8-divinyl-chlorophyllide a biosynthesis II (anaerobic)	6 / 9
L-lysine biosynthesis II	6 / 9
TCA cycle II (plants and fungi)	6 / 9
TCA cycle IV (2-oxoglutarate decarboxylase)	6 / 9
TCA cycle V (2-oxoglutarate synthase)	6 / 9
methylerythritol phosphate pathway I	6 / 9
reductive glycine pathway of autotrophic CO₂ fixation	6 / 9
mixed acid fermentation	11 / 16
6-hydroxymethyl-dihydropterin diphosphate biosynthesis I	3 / 5
6-hydroxymethyl-dihydropterin diphosphate biosynthesis III (Chlamydia)	3 / 5
trans-4-hydroxy-L-proline degradation I	3 / 5
CDP-6-deoxy-D-gulose biosynthesis	3 / 5
CDP-diacylglycerol biosynthesis III	3 / 5
GDP-L-colitose biosynthesis	3 / 5
L-arginine degradation XIII (reductive Stickland reaction)	3 / 5
L-methionine biosynthesis I	3 / 5
biotin biosynthesis from 8-amino-7-oxononanoate III	3 / 5
cytosolic NADPH production (yeast)	3 / 5
dTDP-4-O-demethyl-β-L-noviose biosynthesis	3 / 5
dZTP biosynthesis	3 / 5
glucose and glucose-1-phosphate degradation	3 / 5
glucosylglycerol biosynthesis	3 / 5
phosphatidate biosynthesis (yeast)	3 / 5
plastoquinol-9 biosynthesis II	3 / 5
protein S-nitrosylation and denitrosylation	3 / 5
sucrose degradation II (sucrose synthase)	3 / 5
superpathway of plastoquinol biosynthesis	3 / 5
urea cycle	3 / 5
L-methionine salvage cycle I (bacteria and plants)	8 / 12
chorismate biosynthesis II (archaea)	8 / 12
gluconeogenesis III	8 / 12
L-citrulline biosynthesis	5 / 8
pyrimidine deoxyribonucleotides biosynthesis from CTP	5 / 8
superpathway of polyamine biosynthesis II	5 / 8
superpathway of N-acetylneuraminate degradation	15 / 22
D-galactosamine and N-acetyl-D-galactosamine degradation	2 / 4
GABA shunt II	2 / 4
L-arginine degradation VI (arginase 2 pathway)	2 / 4
L-cysteine biosynthesis VII (from S-sulfo-L-cysteine)	2 / 4
L-methionine biosynthesis IV	2 / 4
L-phenylalanine degradation III	2 / 4
L-serine biosynthesis II	2 / 4
L-tryptophan degradation X (mammalian, via tryptamine)	2 / 4
L-tyrosine biosynthesis II	2 / 4
L-tyrosine biosynthesis III	2 / 4
L-tyrosine degradation III	2 / 4
NADH repair (eukaryotes)	2 / 4
NADH repair (prokaryotes)	2 / 4
adenosylcobalamin biosynthesis from adenosylcobinamide-GDP II	2 / 4
aerobic respiration II (cytochrome c) (yeast)	2 / 4
canavanine biosynthesis	2 / 4
chitin deacetylation	2 / 4
dTDP-β-D-fucofuranose biosynthesis	2 / 4
dTDP-6-deoxy-α-D-allose biosynthesis	2 / 4
dTDP-N-acetylthomosamine biosynthesis	2 / 4
dTDP-N-acetylviosamine biosynthesis	2 / 4
fatty acid α-oxidation I (plants)	2 / 4
fatty acid biosynthesis initiation (mitochondria)	2 / 4
glycolate and glyoxylate degradation I	2 / 4
heme b biosynthesis II (oxygen-independent)	2 / 4
inosine 5'-phosphate degradation	2 / 4
linustatin bioactivation	2 / 4
mannitol degradation II	2 / 4
methyl phomopsenoate biosynthesis	2 / 4
phosphopantothenate biosynthesis III (archaea)	2 / 4
phycoerythrobilin biosynthesis I	2 / 4
putrescine degradation III	2 / 4
pyruvate fermentation to acetate and (S)-lactate I	2 / 4
pyruvate fermentation to acetate and lactate II	2 / 4
salidroside biosynthesis	2 / 4
spermidine biosynthesis II	2 / 4
spermidine biosynthesis III	2 / 4
starch degradation III	2 / 4
superpathway of L-aspartate and L-asparagine biosynthesis	2 / 4
C4 photosynthetic carbon assimilation cycle, NAD-ME type	7 / 11
folate transformations II (plants)	7 / 11
glycolysis VI (from fructose)	7 / 11
superpathway of hexitol degradation (bacteria)	12 / 18
C4 photosynthetic carbon assimilation cycle, NADP-ME type	4 / 7
CMP-8-amino-3,8-dideoxy-D-manno-octulosonate biosynthesis	4 / 7
L-glutamate and L-glutamine biosynthesis	4 / 7
L-isoleucine biosynthesis III	4 / 7
NAD salvage pathway I (PNC VI cycle)	4 / 7
drosopterin and aurodrosopterin biosynthesis	4 / 7
lipoate biosynthesis and incorporation IV (yeast)	4 / 7
pyridoxal 5'-phosphate biosynthesis I	4 / 7
serotonin degradation	4 / 7
thiamine diphosphate salvage IV (yeast)	4 / 7
(R)-cysteate degradation	1 / 3
2,3-dihydroxybenzoate biosynthesis	1 / 3
2-deoxy-α-D-ribose 1-phosphate degradation	1 / 3
2-deoxy-D-ribose degradation I	1 / 3
2-oxoglutarate decarboxylation to succinyl-CoA	1 / 3
2-oxoisovalerate decarboxylation to isobutanoyl-CoA	1 / 3
5,6-dimethylbenzimidazole biosynthesis I (aerobic)	1 / 3
5-methoxy-6-methylbenzimidazole biosynthesis (anaerobic)	1 / 3
bis(guanylyl molybdopterin) cofactor sulfurylation	1 / 3
CMP-N-acetylneuraminate biosynthesis II (bacteria)	1 / 3
D-myo-inositol (1,4,5)-trisphosphate degradation	1 / 3
D-galactose detoxification	1 / 3
D-glucosaminate degradation	1 / 3
D-sorbitol biosynthesis I	1 / 3
GDP-mycosamine biosynthesis	1 / 3
L-arginine degradation X (arginine monooxygenase pathway)	1 / 3
L-aspartate degradation II (aerobic)	1 / 3
L-aspartate degradation III (anaerobic)	1 / 3
L-carnitine degradation II	1 / 3
L-isoleucine degradation III (oxidative Stickland reaction)	1 / 3
L-leucine degradation V (oxidative Stickland reaction)	1 / 3
L-methionine degradation III	1 / 3
L-methionine salvage from L-homocysteine	1 / 3
L-selenocysteine biosynthesis I (bacteria)	1 / 3
L-tryptophan degradation VI (via tryptamine)	1 / 3
L-tyrosine degradation IV (to 4-methylphenol)	1 / 3
L-valine degradation III (oxidative Stickland reaction)	1 / 3
NAD phosphorylation and dephosphorylation	1 / 3
UTP and CTP dephosphorylation II	1 / 3
adenine and adenosine salvage V	1 / 3
adenine salvage	1 / 3
alkane biosynthesis II	1 / 3
arsenite to oxygen electron transfer (via azurin)	1 / 3
cardiolipin biosynthesis I	1 / 3
cardiolipin biosynthesis II	1 / 3
cardiolipin biosynthesis III	1 / 3
cellulose and hemicellulose degradation (cellulolosome)	1 / 3
cellulose degradation II (fungi)	1 / 3
ethene biosynthesis I (plants)	1 / 3
fatty acid biosynthesis initiation (type I)	1 / 3
galactolipid biosynthesis II	1 / 3
glycolate and glyoxylate degradation III	1 / 3
histamine degradation	1 / 3
indole-3-acetate biosynthesis VI (bacteria)	1 / 3
lipoate biosynthesis and incorporation II	1 / 3
mannitol biosynthesis	1 / 3
molybdenum cofactor biosynthesis	1 / 3
oleate biosynthesis I (plants)	1 / 3
phosphopantothenate biosynthesis II	1 / 3
phytochromobilin biosynthesis	1 / 3
plastoquinol-9 biosynthesis I	1 / 3
plaunotol biosynthesis	1 / 3
prenylated FMNH₂ biosynthesis	1 / 3
propanoyl CoA degradation I	1 / 3
purine deoxyribonucleosides degradation II	1 / 3
pyrimidine deoxyribonucleosides degradation	1 / 3
pyrimidine ribonucleosides salvage I	1 / 3
pyruvate fermentation to acetate IV	1 / 3
pyruvate fermentation to acetate V	1 / 3
pyruvate fermentation to acetate VI	1 / 3
pyruvate fermentation to ethanol I	1 / 3
quinate degradation I	1 / 3
quinate degradation II	1 / 3
styrene degradation	1 / 3
sucrose degradation I (sucrose phosphotransferase)	1 / 3
sulfite oxidation III	1 / 3
sulfolactate degradation III	1 / 3
superpathway of 4-aminobutanoate degradation	1 / 3
superpathway of linalool biosynthesis	1 / 3
thiamine diphosphate biosynthesis III (Staphylococcus)	1 / 3
thiamine diphosphate biosynthesis IV (eukaryotes)	1 / 3
trehalose degradation IV	1 / 3
urea degradation I	1 / 3
vancomycin resistance II	1 / 3
isoprene biosynthesis I	6 / 10
starch biosynthesis	6 / 10
superpathway of sulfur amino acid biosynthesis (Saccharomyces cerevisiae)	6 / 10
peptidoglycan biosynthesis V (β-lactam resistance)	11 / 17
3-methyl-branched fatty acid α-oxidation	3 / 6
L-threonine degradation I	3 / 6
NAD(P)/NADPH interconversion	3 / 6
bisabolene biosynthesis (engineered)	3 / 6
dTDP-L-daunosamine biosynthesis	3 / 6
dTDP-sibirosamine biosynthesis	3 / 6
formaldehyde oxidation I	3 / 6
lipid IV_A biosynthesis (2,3-diamino-2,3-dideoxy-D-glucopyranose-containing)	3 / 6
stearate biosynthesis IV	3 / 6
superpathway of N-acetylglucosamine, N-acetylmannosamine and N-acetylneuraminate degradation	3 / 6
superpathway of L-cysteine biosynthesis (fungi)	3 / 6
superpathway of UDP-glucose-derived O-antigen building blocks biosynthesis	3 / 6
superpathway of heme b biosynthesis from uroporphyrinogen-III	3 / 6
superpathway of stearidonate biosynthesis (cyanobacteria)	3 / 6
thiazole component of thiamine diphosphate biosynthesis I	3 / 6
folate transformations I	8 / 13
indole glucosinolate activation (herbivore attack)	8 / 13
noradrenaline and adrenaline degradation	8 / 13
1,3-propanediol biosynthesis (engineered)	5 / 9
Entner-Doudoroff pathway II (non-phosphorylative)	5 / 9
Entner-Doudoroff pathway III (semi-phosphorylative)	5 / 9
L-arginine biosynthesis IV (archaea)	5 / 9
TCA cycle VI (Helicobacter)	5 / 9
TCA cycle VII (acetate-producers)	5 / 9
chitin biosynthesis	5 / 9
superpathway of pyrimidine deoxyribonucleoside salvage	5 / 9
(S)-propane-1,2-diol degradation	2 / 5
1,5-anhydrofructose degradation	2 / 5
2-methylcitrate cycle I	2 / 5
4-chlorocatechol degradation	2 / 5
4-hydroxy-2(1H)-quinolone biosynthesis	2 / 5
N-(1-deoxy-D-fructos-1-yl)-L-asparagine degradation	2 / 5
N-acetyl-D-galactosamine degradation	2 / 5
S-methyl-5-thio-α-D-ribose 1-phosphate degradation II	2 / 5
S-methyl-5-thio-α-D-ribose 1-phosphate degradation III	2 / 5
ADP-L-glycero-β-D-manno-heptose biosynthesis	2 / 5
D-galactose degradation I (Leloir pathway)	2 / 5
NAD salvage pathway V (PNC V cycle)	2 / 5
acetylene degradation (anaerobic)	2 / 5
adenosine nucleotides degradation II	2 / 5
bile acids deconjugation	2 / 5
coumarin biosynthesis (via 2-coumarate)	2 / 5
cyanuric acid degradation II	2 / 5
dTDP-α-D-mycaminose biosynthesis	2 / 5
dTDP-3-acetamido-α-D-fucose biosynthesis	2 / 5
dTDP-3-acetamido-3,6-dideoxy-α-D-glucose biosynthesis	2 / 5
dopamine degradation	2 / 5
ectoine biosynthesis	2 / 5
ethanolamine utilization	2 / 5
felinine and 3-methyl-3-sulfanylbutan-1-ol biosynthesis	2 / 5
galactitol degradation	2 / 5
mannitol cycle	2 / 5
mitochondrial NADPH production (yeast)	2 / 5
mono-trans, poly-cis decaprenyl phosphate biosynthesis	2 / 5
neurosporene biosynthesis	2 / 5
octane oxidation	2 / 5
phenylethanol biosynthesis	2 / 5
phycourobilin biosynthesis	2 / 5
queuosine biosynthesis III (queuosine salvage)	2 / 5
selenate reduction	2 / 5
seleno-amino acid biosynthesis (plants)	2 / 5
spermine and spermidine degradation I	2 / 5
sucrose degradation V (sucrose α-glucosidase)	2 / 5
sulfide oxidation IV (mitochondria)	2 / 5
superpathway of (R,R)-butanediol biosynthesis	2 / 5
superpathway of L-cysteine biosynthesis (mammalian)	2 / 5
superpathway of L-phenylalanine and L-tyrosine biosynthesis	2 / 5
uracil degradation III	2 / 5
superpathway of L-citrulline metabolism	7 / 12
superpathway of glyoxylate bypass and TCA	7 / 12
superpathway of phospholipid biosynthesis III (E. coli)	7 / 12
hexitol fermentation to lactate, formate, ethanol and acetate	12 / 19
L-isoleucine biosynthesis II	4 / 8
L-mimosine degradation	4 / 8
cobalamin salvage (eukaryotic)	4 / 8
stellatic acid biosynthesis	4 / 8
superpathway of NAD/NADP - NADH/NADPH interconversion (yeast)	4 / 8
superpathway of polyamine biosynthesis I	4 / 8
1,2-dichloroethane degradation	1 / 4
2'-deoxymugineic acid phytosiderophore biosynthesis	1 / 4
2-oxobutanoate degradation I	1 / 4
4-hydroxy-2-nonenal detoxification	1 / 4
5'-deoxyadenosine degradation II	1 / 4
5,6-dimethylbenzimidazole biosynthesis II (anaerobic)	1 / 4
6-hydroxymethyl-dihydropterin diphosphate biosynthesis V (Pyrococcus)	1 / 4
7-(3-amino-3-carboxypropyl)-wyosine biosynthesis	1 / 4
D-glucarate degradation I	1 / 4
N-3-oxalyl-L-2,3-diaminopropanoate biosynthesis	1 / 4
N-acetylneuraminate and N-acetylmannosamine degradation I	1 / 4
S-adenosyl-L-methionine salvage I	1 / 4
D-arabinose degradation II	1 / 4
D-fructuronate degradation	1 / 4
D-galactarate degradation I	1 / 4
GABA shunt I	1 / 4
L-phenylalanine biosynthesis II	1 / 4
L-selenocysteine biosynthesis II (archaea and eukaryotes)	1 / 4
L-tryptophan degradation VIII (to tryptophol)	1 / 4
acridone alkaloid biosynthesis	1 / 4
adenine and adenosine salvage III	1 / 4
arsenic detoxification (bacteria)	1 / 4
bacimethrin and bacimethrin pyrophosphate biosynthesis	1 / 4
chlorophyll b₂ biosynthesis	1 / 4
coenzyme B/coenzyme M regeneration I (methanophenazine-dependent)	1 / 4
creatinine degradation I	1 / 4
fatty acid biosynthesis initiation (plant mitochondria)	1 / 4
glycine betaine degradation II (mammalian)	1 / 4
glycogen biosynthesis II (from UDP-D-Glucose)	1 / 4
guanosine nucleotides degradation I	1 / 4
guanosine nucleotides degradation II	1 / 4
guanosine nucleotides degradation III	1 / 4
homocysteine and cysteine interconversion	1 / 4
ipsdienol biosynthesis	1 / 4
lipoate salvage II	1 / 4
long chain fatty acid ester synthesis (engineered)	1 / 4
luteolin triglucuronide degradation	1 / 4
melatonin degradation II	1 / 4
methylwyosine biosynthesis	1 / 4
muropeptide degradation	1 / 4
phosphatidylcholine acyl editing	1 / 4
phylloquinol biosynthesis	1 / 4
preQ₀ biosynthesis	1 / 4
purine deoxyribonucleosides degradation I	1 / 4
sucrose degradation VII (sucrose 3-dehydrogenase)	1 / 4
superpathway of glycerol degradation to 1,3-propanediol	1 / 4
superpathway of putrescine biosynthesis	1 / 4
tRNA-uridine 2-thiolation (mammalian mitochondria)	1 / 4
tRNA-uridine 2-thiolation (yeast mitochondria)	1 / 4
taurine biosynthesis II	1 / 4
tetrahydromonapterin biosynthesis	1 / 4
vitamin K-epoxide cycle	1 / 4
wax esters biosynthesis II	1 / 4
xanthommatin biosynthesis	1 / 4
L-methionine salvage cycle II (plants)	6 / 11
reductive TCA cycle I	6 / 11
3-dehydroquinate biosynthesis II (archaea)	3 / 7
4,5-dichlorocatechol degradation	3 / 7
L-N^δ-acetylornithine biosynthesis	3 / 7
chlorophyll cycle	3 / 7
dTDP-β-L-digitoxose biosynthesis	3 / 7
dTDP-β-L-olivose biosynthesis	3 / 7
diacylglycerol and triacylglycerol biosynthesis	3 / 7
ergothioneine biosynthesis I (bacteria)	3 / 7
factor 430 biosynthesis	3 / 7
glycine betaine degradation III	3 / 7
incomplete reductive TCA cycle	3 / 7
pyrimidine deoxyribonucleotides de novo biosynthesis II	3 / 7
superpathway of glycol metabolism and degradation	3 / 7
superpathway of thiamine diphosphate biosynthesis III (eukaryotes)	3 / 7
toxoflavin biosynthesis	3 / 7
flavin biosynthesis II (archaea)	5 / 10
superpathway of coenzyme A biosynthesis II (plants)	5 / 10
superpathway of chorismate metabolism	40 / 59
2-methylcitrate cycle II	2 / 6
trans-lycopene biosynthesis I	2 / 6
Fe(II) oxidation	2 / 6
L-alanine degradation VI (reductive Stickland reaction)	2 / 6
UDP-N-acetyl-D-galactosamine biosynthesis III	2 / 6
arsenate detoxification I	2 / 6
chitin degradation II (Vibrio)	2 / 6
dTDP-α-D-ravidosamine and dTDP-4-acetyl-α-D-ravidosamine biosynthesis	2 / 6
dTDP-D-desosamine biosynthesis	2 / 6
methylgallate degradation	2 / 6
molybdopterin biosynthesis	2 / 6
norspermidine biosynthesis	2 / 6
palmitoyl ethanolamide biosynthesis	2 / 6
petroselinate biosynthesis	2 / 6
superpathway of 2,3-butanediol biosynthesis	2 / 6
superpathway of pyrimidine deoxyribonucleosides degradation	2 / 6
formaldehyde assimilation I (serine pathway)	7 / 13
3,4,6-trichlorocatechol degradation	4 / 9
NAD de novo biosynthesis II (from tryptophan)	4 / 9
UDP-sugars interconversion	4 / 9
superpathway of L-alanine fermentation (Stickland reaction)	4 / 9
superpathway of fermentation (Chlamydomonas reinhardtii)	4 / 9
3-chlorocatechol degradation I (ortho)	1 / 5
3-chlorocatechol degradation II (ortho)	1 / 5
4-deoxy-L-threo-hex-4-enopyranuronate degradation	1 / 5
4-hydroxybenzoate biosynthesis I (eukaryotes)	1 / 5
Escherichia coli serotype O:15 O antigen biosynthesis	1 / 5
Salmonella enterica serotype O:54 O antigen biosynthesis	1 / 5
cis-zeatin biosynthesis	1 / 5
CMP-N-acetylneuraminate biosynthesis I (eukaryotes)	1 / 5
D-galacturonate degradation I	1 / 5
L-leucine degradation IV (reductive Stickland reaction)	1 / 5
L-phenylalanine degradation VI (reductive Stickland reaction)	1 / 5
L-tryptophan degradation XIII (reductive Stickland reaction)	1 / 5
L-tyrosine degradation I	1 / 5
L-tyrosine degradation V (reductive Stickland reaction)	1 / 5
bisucaberin biosynthesis	1 / 5
creatinine degradation II	1 / 5
cyanuric acid degradation I	1 / 5
desferrioxamine B biosynthesis	1 / 5
desferrioxamine E biosynthesis	1 / 5
dissimilatory sulfate reduction I (to hydrogen sufide))	1 / 5
enterobacterial common antigen biosynthesis	1 / 5
galactolipid biosynthesis I	1 / 5
heme b biosynthesis IV (Gram-positive bacteria)	1 / 5
isopropanol biosynthesis (engineered)	1 / 5
juvenile hormone III biosynthesis II	1 / 5
lactose degradation I	1 / 5
lupanine biosynthesis	1 / 5
phosphatidate metabolism, as a signaling molecule	1 / 5
protein O-mannosylation II (mammals, core M1 and core M2)	1 / 5
protein O-mannosylation III (mammals, core M3)	1 / 5
pyrimidine deoxyribonucleosides salvage	1 / 5
pyruvate fermentation to acetone	1 / 5
superpathway of D-glucarate and D-galactarate degradation	1 / 5
superpathway of pyrimidine ribonucleosides degradation	1 / 5
tRNA-uridine 2-thiolation (thermophilic bacteria)	1 / 5
toyocamycin biosynthesis	1 / 5
3,5-dichlorocatechol degradation	3 / 8
adenosine nucleotides degradation I	3 / 8
aromatic biogenic amine degradation (bacteria)	3 / 8
butanol and isobutanol biosynthesis (engineered)	3 / 8
dTDP-β-L-4-epi-vancosamine biosynthesis	3 / 8
dTDP-β-L-megosamine biosynthesis	3 / 8
glutathione-mediated detoxification I	3 / 8
glycine betaine degradation I	3 / 8
lactate fermentation to acetate, CO₂ and hydrogen (Desulfovibrionales)	3 / 8
protocatechuate degradation I (meta-cleavage pathway)	3 / 8
shinorine biosynthesis	3 / 8
thiamine diphosphate formation from pyrithiamine and oxythiamine (yeast)	3 / 8
ubiquinol-8 biosynthesis (early decarboxylation)	3 / 8
ubiquinol-9 biosynthesis (early decarboxylation)	3 / 8
γ-hexachlorocyclohexane degradation	5 / 11
purine nucleotides degradation II (aerobic)	5 / 11
β-(1,4)-mannan degradation	2 / 7
3,6-anhydro-α-L-galactopyranose degradation	2 / 7
6-hydroxymethyl-dihydropterin diphosphate biosynthesis II (Methanocaldococcus)	2 / 7
L-ascorbate biosynthesis VIII (engineered pathway)	2 / 7
L-cysteine biosynthesis VI (reverse transsulfuration)	2 / 7
capsaicin biosynthesis	2 / 7
ceramide degradation by α-oxidation	2 / 7
chitin degradation III (Serratia)	2 / 7
cremeomycin biosynthesis	2 / 7
dTDP-β-L-mycarose biosynthesis	2 / 7
glyphosate degradation III	2 / 7
lipoprotein posttranslational modification (Gram-negative bacteria)	2 / 7
pyruvate fermentation to propanoate I	2 / 7
stigma estolide biosynthesis	2 / 7
superpathway of β-D-glucuronosides degradation	2 / 7
superpathway of purine deoxyribonucleosides degradation	2 / 7
ureide biosynthesis	2 / 7
C4 photosynthetic carbon assimilation cycle, PEPCK type	7 / 14
anaerobic energy metabolism (invertebrates, mitochondrial)	4 / 10
sphingosine and sphingosine-1-phosphate metabolism	4 / 10
superpathway of geranylgeranyldiphosphate biosynthesis I (via mevalonate)	4 / 10
superpathway of (Kdo)₂-lipid A biosynthesis	9 / 17
superpathway of anaerobic energy metabolism (invertebrates)	9 / 17
α-tomatine degradation	1 / 6
β-alanine biosynthesis II	1 / 6
6-gingerol analog biosynthesis (engineered)	1 / 6
Escherichia coli serotype O:149/Shigella boydii serotype O1 O antigen biosynthesis	1 / 6
Escherichia coli serotype O:177 O antigen biosynthesis	1 / 6
Escherichia coli serotype O:50 O antigen biosynthesis	1 / 6
Escherichia coli serotype O:56 O antigen biosynthesis	1 / 6
Escherichia coli serotype O:77/Salmonella enterica serotype O:6,14 O antigen biosynthesis	1 / 6
Salmonella enterica serotype O:13 O antigen biosynthesis	1 / 6
D-cycloserine biosynthesis	1 / 6
DIBOA-glucoside biosynthesis	1 / 6
L-arginine degradation XIV (oxidative Stickland reaction)	1 / 6
L-histidine degradation III	1 / 6
L-isoleucine degradation I	1 / 6
L-leucine degradation I	1 / 6
L-lysine degradation X	1 / 6
adlupulone and adhumulone biosynthesis	1 / 6
alkane oxidation	1 / 6
candicidin biosynthesis	1 / 6
coenzyme M biosynthesis II	1 / 6
colupulone and cohumulone biosynthesis	1 / 6
cuticular wax biosynthesis	1 / 6
fatty acid salvage	1 / 6
hydrogen sulfide biosynthesis II (mammalian)	1 / 6
juvenile hormone III biosynthesis I	1 / 6
leukotriene biosynthesis	1 / 6
lupulone and humulone biosynthesis	1 / 6
methanogenesis from acetate	1 / 6
paspaline biosynthesis	1 / 6
purine ribonucleosides degradation	1 / 6
stearate biosynthesis I (animals)	1 / 6
superpathway of D-myo-inositol (1,4,5)-trisphosphate metabolism	1 / 6
superpathway of allantoin degradation in yeast	1 / 6
superpathway of guanosine nucleotides degradation (plants)	1 / 6
superpathway of sulfolactate degradation	1 / 6
superpathway of sulfur metabolism (Desulfocapsa sulfoexigens)	1 / 6
superpathway of thiosulfate metabolism (Desulfovibrio sulfodismutans)	1 / 6
wybutosine biosynthesis	1 / 6
1,4-dichlorobenzene degradation	3 / 9
L-phenylalanine degradation IV (mammalian, via side chain)	3 / 9
dTDP-α-D-forosamine biosynthesis	3 / 9
dTDP-α-D-olivose, dTDP-α-D-oliose and dTDP-α-D-mycarose biosynthesis	3 / 9
jadomycin biosynthesis	3 / 9
nicotine biosynthesis	3 / 9
glycerol degradation to butanol	8 / 16
reductive TCA cycle II	5 / 12
superpathway of ubiquinol-8 biosynthesis (early decarboxylation)	5 / 12
β-carotene biosynthesis (engineered)	2 / 8
(aminomethyl)phosphonate degradation	2 / 8
2-allylmalonyl-CoA biosynthesis	2 / 8
L-valine degradation I	2 / 8
anandamide biosynthesis II	2 / 8
chitin derivatives degradation	2 / 8
glycogen biosynthesis III (from α-maltose 1-phosphate)	2 / 8
grixazone biosynthesis	2 / 8
sorgoleone biosynthesis	2 / 8
superpathway of CDP-glucose-derived O-antigen building blocks biosynthesis	2 / 8
superpathway of atrazine degradation	2 / 8
superpathway of methylglyoxal degradation	2 / 8
superpathway of ornithine degradation	2 / 8
superpathway of polyamine biosynthesis III	2 / 8
ubiquinol-9 biosynthesis (late decarboxylation)	2 / 8
vanchrobactin biosynthesis	2 / 8
NAD salvage (plants)	4 / 11
superpathway of candicidin biosynthesis	4 / 11
gluconeogenesis II (Methanobacterium thermoautotrophicum)	9 / 18
superpathway of L-threonine metabolism	9 / 18
4-aminobutanoate degradation V	1 / 7
Escherichia coli serotype O:111/Salmonella enterica serotype O:35 O antigen biosynthesis	1 / 7
Escherichia coli serotype O:152 O antigen biosynthesis	1 / 7
Escherichia coli serotype O:157/Salmonella enterica serotype O:30 O antigen biosynthesis	1 / 7
Escherichia coli serotype O:1B/Salmonella enterica serotype O:42 O antigen biosynthesis	1 / 7
Escherichia coli serotype O:2 O antigen biosynthesis	1 / 7
Escherichia coli serotype O:7 O antigen biosynthesis	1 / 7
Escherichia coli serotype O:71/Salmonella enterica serotype O:28ac O antigen biosynthesis	1 / 7
Escherichia coli serotype O:85/Salmonella enterica serotype O:17 O antigen biosynthesis	1 / 7
Salmonella enterica serotype O:18 O antigen biosynthesis	1 / 7
Salmonella enterica serotype O:39 O antigen biosynthesis	1 / 7
Salmonella enterica serotype O:6,7 O antigen biosynthesis	1 / 7
L-lysine degradation I	1 / 7
acetyl-CoA fermentation to butanoate	1 / 7
arachidonate biosynthesis III (6-desaturase, mammals)	1 / 7
brassicicene C biosynthesis	1 / 7
chitin degradation I (archaea)	1 / 7
coenzyme M biosynthesis I	1 / 7
icosapentaenoate biosynthesis II (6-desaturase, mammals)	1 / 7
icosapentaenoate biosynthesis III (8-desaturase, mammals)	1 / 7
limonene degradation IV (anaerobic)	1 / 7
lycopadiene biosynthesis	1 / 7
mevalonate pathway I (eukaryotes and bacteria)	1 / 7
mevalonate pathway II (haloarchaea)	1 / 7
pyoluteorin biosynthesis	1 / 7
pyruvate fermentation to butanoate	1 / 7
roseoflavin biosynthesis	1 / 7
stachyose degradation	1 / 7
thiocoraline biosynthesis	1 / 7
vitamin E biosynthesis (tocopherols)	1 / 7
pentachlorophenol degradation	3 / 10
peptidoglycan recycling II	3 / 10
superpathway of enterobacterial common antigen biosynthesis	3 / 10
superpathway of vanillin and vanillate degradation	3 / 10
superpathway of cardiolipin biosynthesis (bacteria)	5 / 13
streptorubin B biosynthesis	20 / 34
acinetobactin biosynthesis	2 / 9
allantoin degradation IV (anaerobic)	2 / 9
pseudomonine biosynthesis	2 / 9
superpathway of Clostridium acetobutylicum acidogenic fermentation	2 / 9
teichuronic acid biosynthesis (B. subtilis 168)	2 / 9
ergotamine biosynthesis	4 / 12
indole-3-acetate biosynthesis II	4 / 12
peptidoglycan maturation (meso-diaminopimelate containing)	4 / 12
purine nucleotides degradation I (plants)	4 / 12
superpathway of nicotine biosynthesis	4 / 12
superpathway of pyridoxal 5'-phosphate biosynthesis and salvage	4 / 12
4-amino-2-methyl-5-diphosphomethylpyrimidine biosynthesis II	1 / 8
Escherichia coli serotype O:104 O antigen biosynthesis	1 / 8
Escherichia coli serotype O:107 O antigen biosynthesis	1 / 8
Escherichia coli serotype O:117 O antigen biosynthesis	1 / 8
Escherichia coli serotype O:127 O antigen biosynthesis	1 / 8
Escherichia coli serotype O:128 O antigen biosynthesis	1 / 8
Escherichia coli serotype O:21/Salmonella enterica serotype O:38 O antigen biosynthesis	1 / 8
Escherichia coli serotype O:49 O antigen biosynthesis	1 / 8
Escherichia coli serotype O:51/Salmonella enterica serotype O:57 O antigen biosynthesis	1 / 8
Escherichia coli serotype O:52 O antigen biosynthesis	1 / 8
Escherichia coli serotype O:55/Salmonella enterica serotype O:50 O antigen biosynthesis	1 / 8
Escherichia coli serotype O:86 O antigen biosynthesis	1 / 8
Salmonella enterica serotype O:8 O antigen biosynthesis	1 / 8
Shigella boydii serotype 6 O antigen biosynthesis	1 / 8
anguibactin biosynthesis	1 / 8
chlorogenic acid biosynthesis I	1 / 8
fusicoccin A biosynthesis	1 / 8
isoprene biosynthesis II (engineered)	1 / 8
ketogluconate metabolism	1 / 8
lactate racemase nickel cofactor biosynthesis	1 / 8
mevalonate pathway III (Thermoplasma)	1 / 8
mevalonate pathway IV (archaea)	1 / 8
protein O-mannosylation I (yeast)	1 / 8
pyruvate fermentation to butanol I	1 / 8
sesamin biosynthesis	1 / 8
tRNA-uridine 2-thiolation (cytoplasmic)	1 / 8
ubiquinol-10 biosynthesis (early decarboxylation)	1 / 8
ubiquinol-6 biosynthesis (late decarboxylation)	1 / 8
ubiquinol-7 biosynthesis (early decarboxylation)	1 / 8
ubiquinol-7 biosynthesis (late decarboxylation)	1 / 8
superpathway of L-arginine, putrescine, and 4-aminobutanoate degradation	3 / 11
superpathway of NAD biosynthesis in eukaryotes	5 / 14
superpathway of glyoxylate cycle and fatty acid degradation	5 / 14
(2S,3E)-2-amino-4-methoxy-but-3-enoate biosynthesis	2 / 10
CMP-legionaminate biosynthesis I	2 / 10
L-lysine biosynthesis V	2 / 10
[2Fe-2S] iron-sulfur cluster biosynthesis	2 / 10
astaxanthin biosynthesis (bacteria, fungi, algae)	2 / 10
reductive acetyl coenzyme A pathway I (homoacetogenic bacteria)	2 / 10
superpathway of hexuronide and hexuronate degradation	2 / 10
superpathway of quinolone and alkylquinolone biosynthesis	2 / 10
3-hydroxypropanoate cycle	4 / 13
superpathway of L-arginine and L-ornithine degradation	4 / 13
Escherichia coli serotype O:169 O antigen biosynthesis	1 / 9
Escherichia coli serotype O:183/Shigella boydii serotype O:10 O antigen biosynthesis	1 / 9
Escherichia coli serotype O:8 O antigen biosynthesis	1 / 9
cis-geranyl-CoA degradation	1 / 9
ansatrienin biosynthesis	1 / 9
avenanthramide biosynthesis	1 / 9
chloramphenicol biosynthesis	1 / 9
gliotoxin biosynthesis	1 / 9
glutathione-mediated detoxification II	1 / 9
myxochelin A and B biosynthesis	1 / 9
starch degradation II	1 / 9
superpathway of menaquinol-8 biosynthesis III	1 / 9
tunicamycin biosynthesis	1 / 9
ubiquinol-10 biosynthesis (late decarboxylation)	1 / 9
ubiquinol-6 biosynthesis from 4-aminobenzoate (yeast)	1 / 9
ubiquinol-8 biosynthesis (late decarboxylation)	1 / 9
vibriobactin biosynthesis	1 / 9
viridicatumtoxin biosynthesis	1 / 9
bacillibactin biosynthesis	3 / 12
indole glucosinolate activation (intact plant cell)	3 / 12
superpathway of C1 compounds oxidation to CO₂	3 / 12
syringate degradation	3 / 12
L-glutamate degradation VIII (to propanoate)	2 / 11
enterobactin biosynthesis	2 / 11
mycobactin biosynthesis	2 / 11
superpathway of phenylethylamine degradation	2 / 11
tRNA-uridine 2-thiolation and selenation (bacteria)	2 / 11
tetradecanoate biosynthesis (mitochondria)	12 / 25
Arg/N-end rule pathway (eukaryotic)	4 / 14
Escherichia coli serotype O:9 O antigen biosynthesis	1 / 10
Escherichia coli serotype O:9a O antigen biosynthesis	1 / 10
C_25,25 CDP-archaeol biosynthesis	1 / 10
L-lysine fermentation to acetate and butanoate	1 / 10
bacilysin biosynthesis	1 / 10
clorobiocin biosynthesis	1 / 10
curcuminoid biosynthesis	1 / 10
justicidin B biosynthesis	1 / 10
matairesinol biosynthesis	1 / 10
nucleoside and nucleotide degradation (archaea)	1 / 10
phenylpropanoids methylation (ice plant)	1 / 10
poly(3-O-β-D-glucopyranosyl-N-acetylgalactosamine 1-phosphate) wall teichoic acid biosynthesis	1 / 10
puromycin biosynthesis	1 / 10
rosmarinic acid biosynthesis I	1 / 10
superpathway of menaquinol-8 biosynthesis II	1 / 10
(S)-lactate fermentation to propanoate, acetate and hydrogen	3 / 13
coumarins biosynthesis (engineered)	3 / 13
glyoxylate assimilation	3 / 13
superpathway of L-methionine salvage and degradation	5 / 16
anandamide biosynthesis I	2 / 12
camalexin biosynthesis	2 / 12
superpathway of sulfide oxidation (phototrophic sulfur bacteria)	2 / 12
methylaspartate cycle	7 / 19
purine nucleobases degradation I (anaerobic)	4 / 15
(S)-reticuline biosynthesis I	1 / 11
cytochrome c biogenesis (system I type)	1 / 11
gallate degradation III (anaerobic)	1 / 11
poly(glycerol phosphate) wall teichoic acid biosynthesis	1 / 11
protein N-glycosylation (Haloferax volcanii)	1 / 11
pyochelin biosynthesis	1 / 11
pyruvate fermentation to hexanol (engineered)	1 / 11
superpathway of melatonin degradation	1 / 11
superpathway of ubiquinol-6 biosynthesis (late decarboxylation)	1 / 11
hypoglycin biosynthesis	3 / 14
bacteriochlorophyll a biosynthesis	2 / 13
guadinomine B biosynthesis	2 / 13
superpathway of Clostridium acetobutylicum solventogenic fermentation	2 / 13
ceramide and sphingolipid recycling and degradation (yeast)	4 / 16
L-glutamate degradation VII (to butanoate)	1 / 12
poly(ribitol phosphate) wall teichoic acid biosynthesis I (B. subtilis)	1 / 12
superpathway of dTDP-glucose-derived O-antigen building blocks biosynthesis	6 / 19
superpathway of bacteriochlorophyll a biosynthesis	11 / 26
superpathway of carotenoid biosynthesis in plants	8 / 22
superpathway of ergotamine biosynthesis	5 / 18
bacteriochlorophyll d biosynthesis	2 / 14
firefly bioluminescence	2 / 14
pederin biosynthesis	2 / 14
phytate degradation I	2 / 14
tetrahydromethanopterin biosynthesis	2 / 14
nicotine degradation I (pyridine pathway)	4 / 17
purine nucleobases degradation II (anaerobic)	9 / 24
2,5-xylenol and 3,5-xylenol degradation	1 / 13
L-tryptophan degradation V (side chain pathway)	1 / 13
superpathway of benzoxazinoid glucosides biosynthesis	1 / 13
superpathway of seleno-compound metabolism	5 / 19
salinosporamide A biosynthesis	2 / 15
3-hydroxypropanoate/4-hydroxybutanate cycle	4 / 18
sporopollenin precursors biosynthesis	4 / 18
superpathway of purines degradation in plants	4 / 18
superpathway of the 3-hydroxypropanoate cycle	4 / 18
superpathway of Kdo₂-lipid A biosynthesis	9 / 25
poly(ribitol phosphate) wall teichoic acid biosynthesis II (S. aureus)	1 / 14
pyrrolomycin biosynthesis	1 / 14
superpathway of rosmarinic acid biosynthesis	1 / 14
Ac/N-end rule pathway	6 / 21
peptido-conjugates in tissue regeneration biosynthesis	3 / 17
superpathway of Clostridium acetobutylicum acidogenic and solventogenic fermentation	3 / 17
type I lipoteichoic acid biosynthesis (S. aureus)	3 / 17
cyclosporin A biosynthesis	1 / 15
monolignol biosynthesis	1 / 15
superpathway of CMP-sialic acids biosynthesis	1 / 15
superpathway of bitter acids biosynthesis	3 / 18
cutin biosynthesis	1 / 16
plasmalogen biosynthesis I (aerobic)	1 / 16
sulfazecin biosynthesis	1 / 16
tRNA methylation (yeast)	1 / 16
superpathway of novobiocin biosynthesis	3 / 19
superpathway of ergosterol biosynthesis II	8 / 26
superpathway of mycolyl-arabinogalactan-peptidoglycan complex biosynthesis	13 / 33
bacteriochlorophyll c biosynthesis	2 / 18
streptomycin biosynthesis	2 / 18
superpathway of UDP-N-acetylglucosamine-derived O-antigen building blocks biosynthesis	6 / 24
suberin monomers biosynthesis	3 / 20
aliphatic glucosinolate biosynthesis, side chain elongation cycle	10 / 30
bryostatin biosynthesis	2 / 19
superpathway of erythromycin biosynthesis	2 / 19
mycolyl-arabinogalactan-peptidoglycan complex biosynthesis	1 / 18
protein N-glycosylation initial phase (eukaryotic)	1 / 19
superpathway of megalomicin A biosynthesis	3 / 22
superpathway of phospholipid biosynthesis II (plants)	7 / 28
superpathway of dTDP-glucose-derived antibiotic building blocks biosynthesis	3 / 23
H. pylori 26695 O-antigen biosynthesis	1 / 21
superpathway of methanogenesis	1 / 21
apratoxin A biosynthesis	1 / 22
bacteriochlorophyll e biosynthesis	6 / 30
platensimycin biosynthesis	3 / 26
superpathway of ergosterol biosynthesis I	3 / 26
phosalacine biosynthesis	1 / 25
phosphinothricin tripeptide biosynthesis	1 / 25
superpathway of microbial D-galacturonate and D-glucuronate degradation	5 / 31
anaerobic aromatic compound degradation (Thauera aromatica)	2 / 27
mupirocin biosynthesis	1 / 26
corallopyronin A biosynthesis	2 / 30
colibactin biosynthesis	7 / 38
Methanobacterium thermoautotrophicum biosynthetic metabolism	19 / 56
oleate β-oxidation	1 / 35
superpathway of aromatic compound degradation via 3-oxoadipate	1 / 35
superpathway of cholesterol biosynthesis	3 / 38
superpathway of L-lysine degradation	5 / 43
superpathway of pentose and pentitol degradation	3 / 42
superpathway of aromatic compound degradation via 2-hydroxypentadienoate	2 / 42
mycolate biosynthesis	14 / 205
superpathway of mycolate biosynthesis	15 / 239

Only pathways with at least one candidate gene are shown