[Ref.: #66794] |
gluconeogenesis |
100 |
8 of 8 |
|
[Ref.: #66794] |
cis-vaccenate biosynthesis |
100 |
2 of 2 |
|
[Ref.: #66794] |
C4 and CAM-carbon fixation |
100 |
8 of 8 |
|
[Ref.: #66794] |
biotin biosynthesis |
100 |
4 of 4 |
|
[Ref.: #66794] |
cardiolipin biosynthesis |
100 |
7 of 7 |
|
[Ref.: #66794] |
aspartate and asparagine metabolism |
100 |
9 of 9 |
|
[Ref.: #66794] |
palmitate biosynthesis |
100 |
22 of 22 |
|
[Ref.: #66794] |
adipate degradation |
100 |
2 of 2 |
|
[Ref.: #66794] |
methylglyoxal degradation |
100 |
5 of 5 |
|
[Ref.: #66794] |
lipoate biosynthesis |
100 |
5 of 5 |
|
[Ref.: #66794] |
formaldehyde oxidation |
100 |
3 of 3 |
|
[Ref.: #66794] |
coenzyme A metabolism |
100 |
4 of 4 |
|
[Ref.: #66794] |
suberin monomers biosynthesis |
100 |
2 of 2 |
|
[Ref.: #66794] |
CDP-diacylglycerol biosynthesis |
100 |
2 of 2 |
|
[Ref.: #66794] |
anapleurotic synthesis of oxalacetate |
100 |
1 of 1 |
|
[Ref.: #66794] |
folate polyglutamylation |
100 |
1 of 1 |
|
[Ref.: #66794] |
UDP-GlcNAc biosynthesis |
100 |
3 of 3 |
|
[Ref.: #66794] |
threonine metabolism |
90 |
9 of 10 |
|
[Ref.: #66794] |
valine metabolism |
88.89 |
8 of 9 |
|
[Ref.: #66794] |
chorismate metabolism |
88.89 |
8 of 9 |
|
[Ref.: #66794] |
vitamin B12 metabolism |
88.24 |
30 of 34 |
|
[Ref.: #66794] |
isoleucine metabolism |
87.5 |
7 of 8 |
|
[Ref.: #66794] |
tetrahydrofolate metabolism |
85.71 |
12 of 14 |
|
[Ref.: #66794] |
heme metabolism |
85.71 |
12 of 14 |
|
[Ref.: #66794] |
ubiquinone biosynthesis |
85.71 |
6 of 7 |
|
[Ref.: #66794] |
phenylalanine metabolism |
84.62 |
11 of 13 |
|
[Ref.: #66794] |
leucine metabolism |
84.62 |
11 of 13 |
|
[Ref.: #66794] |
vitamin B1 metabolism |
84.62 |
11 of 13 |
|
[Ref.: #66794] |
NAD metabolism |
83.33 |
15 of 18 |
|
[Ref.: #66794] |
1,4-dihydroxy-6-naphthoate biosynthesis |
83.33 |
5 of 6 |
|
[Ref.: #66794] |
pentose phosphate pathway |
81.82 |
9 of 11 |
|
[Ref.: #66794] |
methionine metabolism |
80.77 |
21 of 26 |
|
[Ref.: #66794] |
cellulose degradation |
80 |
4 of 5 |
|
[Ref.: #66794] |
glycine betaine biosynthesis |
80 |
4 of 5 |
|
[Ref.: #66794] |
Entner Doudoroff pathway |
80 |
8 of 10 |
|
[Ref.: #66794] |
flavin biosynthesis |
80 |
12 of 15 |
|
[Ref.: #66794] |
peptidoglycan biosynthesis |
80 |
12 of 15 |
|
[Ref.: #66794] |
propionate fermentation |
80 |
8 of 10 |
|
[Ref.: #66794] |
photosynthesis |
78.57 |
11 of 14 |
|
[Ref.: #66794] |
serine metabolism |
77.78 |
7 of 9 |
|
[Ref.: #66794] |
glutamate and glutamine metabolism |
75 |
21 of 28 |
|
[Ref.: #66794] |
acetate fermentation |
75 |
3 of 4 |
|
[Ref.: #66794] |
ppGpp biosynthesis |
75 |
3 of 4 |
|
[Ref.: #66794] |
6-hydroxymethyl-dihydropterin diphosphate biosynthesis |
75 |
6 of 8 |
|
[Ref.: #66794] |
sulfopterin metabolism |
75 |
3 of 4 |
|
[Ref.: #66794] |
glutathione metabolism |
71.43 |
10 of 14 |
|
[Ref.: #66794] |
purine metabolism |
71.28 |
67 of 94 |
|
[Ref.: #66794] |
urea cycle |
69.23 |
9 of 13 |
|
[Ref.: #66794] |
degradation of sugar acids |
68 |
17 of 25 |
|
[Ref.: #66794] |
CO2 fixation in Crenarchaeota |
66.67 |
6 of 9 |
|
[Ref.: #66794] |
enterobactin biosynthesis |
66.67 |
2 of 3 |
|
[Ref.: #66794] |
cyanate degradation |
66.67 |
2 of 3 |
|
[Ref.: #66794] |
acetoin degradation |
66.67 |
2 of 3 |
|
[Ref.: #66794] |
L-lactaldehyde degradation |
66.67 |
2 of 3 |
|
[Ref.: #66794] |
octane oxidation |
66.67 |
2 of 3 |
|
[Ref.: #66794] |
pyrimidine metabolism |
66.67 |
30 of 45 |
|
[Ref.: #66794] |
acetyl CoA biosynthesis |
66.67 |
2 of 3 |
|
[Ref.: #66794] |
non-pathway related |
65.79 |
25 of 38 |
|
[Ref.: #66794] |
tryptophan metabolism |
65.79 |
25 of 38 |
|
[Ref.: #66794] |
alanine metabolism |
65.52 |
19 of 29 |
|
[Ref.: #66794] |
glycolysis |
64.71 |
11 of 17 |
|
[Ref.: #66794] |
tyrosine metabolism |
64.29 |
9 of 14 |
|
[Ref.: #66794] |
citric acid cycle |
64.29 |
9 of 14 |
|
[Ref.: #66794] |
proline metabolism |
63.64 |
7 of 11 |
|
[Ref.: #66794] |
ketogluconate metabolism |
62.5 |
5 of 8 |
|
[Ref.: #66794] |
arginine metabolism |
62.5 |
15 of 24 |
|
[Ref.: #66794] |
histidine metabolism |
62.07 |
18 of 29 |
|
[Ref.: #66794] |
isoprenoid biosynthesis |
61.54 |
16 of 26 |
|
[Ref.: #66794] |
lipid metabolism |
61.29 |
19 of 31 |
|
[Ref.: #66794] |
cysteine metabolism |
61.11 |
11 of 18 |
|
[Ref.: #66794] |
oxidative phosphorylation |
60.44 |
55 of 91 |
|
[Ref.: #66794] |
metabolism of amino sugars and derivatives |
60 |
3 of 5 |
|
[Ref.: #66794] |
phenylacetate degradation (aerobic) |
60 |
3 of 5 |
|
[Ref.: #66794] |
glycogen metabolism |
60 |
3 of 5 |
|
[Ref.: #66794] |
propanol degradation |
57.14 |
4 of 7 |
|
[Ref.: #66794] |
molybdenum cofactor biosynthesis |
55.56 |
5 of 9 |
|
[Ref.: #66794] |
d-mannose degradation |
55.56 |
5 of 9 |
|
[Ref.: #66794] |
lysine metabolism |
54.76 |
23 of 42 |
|
[Ref.: #66794] |
metabolism of disaccharids |
54.55 |
6 of 11 |
|
[Ref.: #66794] |
d-xylose degradation |
54.55 |
6 of 11 |
|
[Ref.: #66794] |
grixazone biosynthesis |
50 |
1 of 2 |
|
[Ref.: #66794] |
degradation of sugar alcohols |
50 |
8 of 16 |
|
[Ref.: #66794] |
glycolate and glyoxylate degradation |
50 |
3 of 6 |
|
[Ref.: #66794] |
lactate fermentation |
50 |
2 of 4 |
|
[Ref.: #66794] |
aminopropanol phosphate biosynthesis |
50 |
1 of 2 |
|
[Ref.: #66794] |
ribulose monophosphate pathway |
50 |
1 of 2 |
|
[Ref.: #66794] |
coenzyme M biosynthesis |
50 |
5 of 10 |
|
[Ref.: #66794] |
selenocysteine biosynthesis |
50 |
3 of 6 |
|
[Ref.: #66794] |
sphingosine metabolism |
50 |
3 of 6 |
|
[Ref.: #66794] |
glycogen biosynthesis |
50 |
2 of 4 |
|
[Ref.: #66794] |
butanoate fermentation |
50 |
2 of 4 |
|
[Ref.: #66794] |
quinate degradation |
50 |
1 of 2 |
|
[Ref.: #66794] |
CMP-KDO biosynthesis |
50 |
2 of 4 |
|
[Ref.: #66794] |
phenylmercury acetate degradation |
50 |
1 of 2 |
|
[Ref.: #66794] |
starch degradation |
50 |
5 of 10 |
|
[Ref.: #66794] |
ethanol fermentation |
50 |
1 of 2 |
|
[Ref.: #66794] |
glycine metabolism |
50 |
5 of 10 |
|
[Ref.: #66794] |
vitamin E metabolism |
50 |
2 of 4 |
|
[Ref.: #66794] |
polyamine pathway |
47.83 |
11 of 23 |
|
[Ref.: #66794] |
vitamin B6 metabolism |
45.45 |
5 of 11 |
|
[Ref.: #66794] |
ascorbate metabolism |
45.45 |
10 of 22 |
|
[Ref.: #66794] |
lipid A biosynthesis |
44.44 |
4 of 9 |
|
[Ref.: #66794] |
reductive acetyl coenzyme A pathway |
42.86 |
3 of 7 |
|
[Ref.: #66794] |
degradation of aromatic, nitrogen containing compounds |
41.67 |
5 of 12 |
|
[Ref.: #66794] |
arachidonate biosynthesis |
40 |
2 of 5 |
|
[Ref.: #66794] |
phenol degradation |
40 |
8 of 20 |
|
[Ref.: #66794] |
myo-inositol biosynthesis |
40 |
4 of 10 |
|
[Ref.: #66794] |
degradation of hexoses |
38.89 |
7 of 18 |
|
[Ref.: #66794] |
phenylpropanoid biosynthesis |
38.46 |
5 of 13 |
|
[Ref.: #66794] |
sulfate reduction |
38.46 |
5 of 13 |
|
[Ref.: #66794] |
carnitine metabolism |
37.5 |
3 of 8 |
|
[Ref.: #66794] |
dTDPLrhamnose biosynthesis |
37.5 |
3 of 8 |
|
[Ref.: #66794] |
arachidonic acid metabolism |
33.33 |
6 of 18 |
|
[Ref.: #66794] |
(5R)-carbapenem carboxylate biosynthesis |
33.33 |
1 of 3 |
|
[Ref.: #66794] |
pantothenate biosynthesis |
33.33 |
2 of 6 |
|
[Ref.: #66794] |
IAA biosynthesis |
33.33 |
1 of 3 |
|
[Ref.: #66794] |
nitrate assimilation |
33.33 |
3 of 9 |
|
[Ref.: #66794] |
degradation of pentoses |
32.14 |
9 of 28 |
|
[Ref.: #66794] |
phosphatidylethanolamine bioynthesis |
30.77 |
4 of 13 |
|
[Ref.: #66794] |
aclacinomycin biosynthesis |
28.57 |
2 of 7 |
|
[Ref.: #66794] |
cholesterol biosynthesis |
27.27 |
3 of 11 |
|
[Ref.: #66794] |
carotenoid biosynthesis |
27.27 |
6 of 22 |
|
[Ref.: #66794] |
cyclohexanol degradation |
25 |
1 of 4 |
|
[Ref.: #66794] |
catecholamine biosynthesis |
25 |
1 of 4 |
|
[Ref.: #66794] |
toluene degradation |
25 |
1 of 4 |
|
[Ref.: #66794] |
4-hydroxymandelate degradation |
22.22 |
2 of 9 |
|