Experiment set5IT018 for Pseudomonas fluorescens FW300-N2E3

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Sodium butyrate carbon source

Group: carbon source
Media: RCH2_defined_noCarbon + Sodium butyrate (10 mM), pH=7
Culturing: pseudo3_N2E3_ML2, 24 deep-well microplate; Multitron, Aerobic, at 30 (C), shaken=750 rpm
By: Mark on 12/17/2015
Media components: 0.25 g/L Ammonium chloride, 0.1 g/L Potassium Chloride, 0.6 g/L Sodium phosphate monobasic monohydrate, 30 mM PIPES sesquisodium salt, Wolfe's mineral mix (0.03 g/L Magnesium Sulfate Heptahydrate, 0.015 g/L Nitrilotriacetic acid, 0.01 g/L Sodium Chloride, 0.005 g/L Manganese (II) sulfate monohydrate, 0.001 g/L Cobalt chloride hexahydrate, 0.001 g/L Zinc sulfate heptahydrate, 0.001 g/L Calcium chloride dihydrate, 0.001 g/L Iron (II) sulfate heptahydrate, 0.00025 g/L Nickel (II) chloride hexahydrate, 0.0002 g/L Aluminum potassium sulfate dodecahydrate, 0.0001 g/L Copper (II) sulfate pentahydrate, 0.0001 g/L Boric Acid, 0.0001 g/L Sodium Molybdate Dihydrate, 0.003 mg/L Sodium selenite pentahydrate), Wolfe's vitamin mix (0.1 mg/L Pyridoxine HCl, 0.05 mg/L 4-Aminobenzoic acid, 0.05 mg/L Lipoic acid, 0.05 mg/L Nicotinic Acid, 0.05 mg/L Riboflavin, 0.05 mg/L Thiamine HCl, 0.05 mg/L calcium pantothenate, 0.02 mg/L biotin, 0.02 mg/L Folic Acid, 0.001 mg/L Cyanocobalamin)

Specific Phenotypes

For 20 genes in this experiment

For carbon source Sodium butyrate in Pseudomonas fluorescens FW300-N2E3

For carbon source Sodium butyrate across organisms

SEED Subsystems

Subsystem #Specific
Isoleucine degradation 2
Acetyl-CoA fermentation to Butyrate 1
Anaerobic respiratory reductases 1
Biotin biosynthesis 1
Butanol Biosynthesis 1
Fermentations: Mixed acid 1
Glycine reductase, sarcosine reductase and betaine reductase 1
Isobutyryl-CoA to Propionyl-CoA Module 1
Multidrug Resistance Efflux Pumps 1
Polyhydroxybutyrate metabolism 1
Pyruvate metabolism I: anaplerotic reactions, PEP 1
Serine-glyoxylate cycle 1
Thioredoxin-disulfide reductase 1
Ton and Tol transport systems 1
Ubiquinone Biosynthesis 1
Valine degradation 1
Wyeosine-MimG Biosynthesis 1
n-Phenylalkanoic acid degradation 1

Metabolic Maps

Color code by fitness: see overview map or list of maps.

Maps containing gene(s) with specific phenotypes:

MetaCyc Pathways

Pathways that contain genes with specific phenotypes:

Pathway #Steps #Present #Specific
acetate conversion to acetyl-CoA 1 1 1
acetate and ATP formation from acetyl-CoA III 1 1 1
4-hydroxybenzoate biosynthesis II (bacteria) 1 1 1
CO2 fixation into oxaloacetate (anaplerotic) 2 2 1
thioredoxin pathway 2 1 1
acetoacetate degradation (to acetyl CoA) 2 1 1
valproate β-oxidation 9 7 4
5,6-dehydrokavain biosynthesis (engineered) 10 6 4
2-methyl-branched fatty acid β-oxidation 14 11 5
oleate β-oxidation 35 30 12
fatty acid salvage 6 6 2
ethanol degradation II 3 3 1
benzoyl-CoA biosynthesis 3 3 1
polyhydroxybutanoate biosynthesis 3 3 1
ketolysis 3 3 1
superpathway of acetate utilization and formation 3 3 1
ethanol degradation IV 3 3 1
L-isoleucine degradation I 6 5 2
pyruvate fermentation to butanol II (engineered) 6 4 2
propanoate fermentation to 2-methylbutanoate 6 4 2
L-isoleucine biosynthesis V 3 2 1
ethanol degradation III 3 2 1
pyruvate fermentation to hexanol (engineered) 11 7 3
(2S)-ethylmalonyl-CoA biosynthesis 4 2 1
chitin deacetylation 4 2 1
polybrominated phenols biosynthesis 4 1 1
(R)- and (S)-3-hydroxybutanoate biosynthesis (engineered) 5 5 1
adipate degradation 5 5 1
4-hydroxybenzoate biosynthesis III (plants) 5 3 1
fatty acid β-oxidation II (plant peroxisome) 5 3 1
ketogenesis 5 3 1
glutaryl-CoA degradation 5 3 1
9-cis, 11-trans-octadecadienoyl-CoA degradation (isomerase-dependent, yeast) 10 4 2
fatty acid β-oxidation VII (yeast peroxisome) 5 2 1
isopropanol biosynthesis (engineered) 5 1 1
ethylbenzene degradation (anaerobic) 5 1 1
pyruvate fermentation to acetone 5 1 1
(8E,10E)-dodeca-8,10-dienol biosynthesis 11 6 2
β-alanine biosynthesis II 6 5 1
4-ethylphenol degradation (anaerobic) 6 2 1
superpathway of bitter acids biosynthesis 18 3 3
10-trans-heptadecenoyl-CoA degradation (MFE-dependent, yeast) 6 1 1
lupulone and humulone biosynthesis 6 1 1
colupulone and cohumulone biosynthesis 6 1 1
adlupulone and adhumulone biosynthesis 6 1 1
jasmonic acid biosynthesis 19 4 3
fatty acid β-oxidation I (generic) 7 5 1
fatty acid β-oxidation VI (mammalian peroxisome) 7 4 1
acetyl-CoA fermentation to butanoate 7 4 1
C4 photosynthetic carbon assimilation cycle, NADP-ME type 7 4 1
pyruvate fermentation to butanoate 7 3 1
mevalonate pathway II (haloarchaea) 7 2 1
mevalonate pathway I (eukaryotes and bacteria) 7 2 1
spongiadioxin C biosynthesis 7 2 1
partial TCA cycle (obligate autotrophs) 8 8 1
nitrogen remobilization from senescing leaves 8 6 1
L-valine degradation I 8 6 1
pyruvate fermentation to butanol I 8 4 1
2-deoxy-D-ribose degradation II 8 3 1
isoprene biosynthesis II (engineered) 8 2 1
polybrominated dihydroxylated diphenyl ethers biosynthesis 8 2 1
mevalonate pathway III (Thermoplasma) 8 2 1
2-methylpropene degradation 8 2 1
mevalonate pathway IV (archaea) 8 2 1
androstenedione degradation I (aerobic) 25 7 3
superpathway of Clostridium acetobutylicum acidogenic fermentation 9 5 1
reductive glycine pathway of autotrophic CO2 fixation 9 5 1
cis-geranyl-CoA degradation 9 4 1
ubiquinol-8 biosynthesis (late decarboxylation) 9 4 1
benzoate biosynthesis I (CoA-dependent, β-oxidative) 9 3 1
4-oxopentanoate degradation 9 2 1
p-HBAD biosynthesis 9 1 1
superpathway of testosterone and androsterone degradation 28 7 3
superpathway of coenzyme A biosynthesis II (plants) 10 9 1
L-glutamate degradation V (via hydroxyglutarate) 10 6 1
superpathway of geranylgeranyldiphosphate biosynthesis I (via mevalonate) 10 5 1
3-phenylpropanoate degradation 10 4 1
L-lysine fermentation to acetate and butanoate 10 3 1
methyl tert-butyl ether degradation 10 2 1
superpathway of cholesterol degradation I (cholesterol oxidase) 42 9 4
C4 photosynthetic carbon assimilation cycle, NAD-ME type 11 6 1
ethylmalonyl-CoA pathway 11 2 1
superpathway of cholesterol degradation II (cholesterol dehydrogenase) 47 10 4
superpathway of ubiquinol-8 biosynthesis (early decarboxylation) 12 10 1
L-glutamate degradation VII (to butanoate) 12 3 1
10-cis-heptadecenoyl-CoA degradation (yeast) 12 2 1
10-trans-heptadecenoyl-CoA degradation (reductase-dependent, yeast) 12 2 1
superpathway of Clostridium acetobutylicum solventogenic fermentation 13 6 1
formaldehyde assimilation I (serine pathway) 13 6 1
(4Z,7Z,10Z,13Z,16Z)-docosapentaenoate biosynthesis (6-desaturase) 13 3 1
1-butanol autotrophic biosynthesis (engineered) 27 19 2
androstenedione degradation II (anaerobic) 27 5 2
superpathway of glyoxylate cycle and fatty acid degradation 14 11 1
C4 photosynthetic carbon assimilation cycle, PEPCK type 14 9 1
docosahexaenoate biosynthesis III (6-desaturase, mammals) 14 3 1
tetrahydromethanopterin biosynthesis 14 3 1
L-tryptophan degradation III (eukaryotic) 15 6 1
mixed acid fermentation 16 12 1
glycerol degradation to butanol 16 10 1
crotonate fermentation (to acetate and cyclohexane carboxylate) 16 3 1
superpathway of Clostridium acetobutylicum acidogenic and solventogenic fermentation 17 8 1
benzoate fermentation (to acetate and cyclohexane carboxylate) 17 3 1
cholesterol degradation to androstenedione I (cholesterol oxidase) 17 2 1
gluconeogenesis II (Methanobacterium thermoautotrophicum) 18 9 1
3-hydroxypropanoate/4-hydroxybutanate cycle 18 8 1
toluene degradation VI (anaerobic) 18 3 1
sitosterol degradation to androstenedione 18 1 1
superpathway of polybrominated aromatic compound biosynthesis 20 2 1
Spodoptera littoralis pheromone biosynthesis 22 4 1
cholesterol degradation to androstenedione II (cholesterol dehydrogenase) 22 3 1
phenolphthiocerol biosynthesis 23 1 1
superpathway of cholesterol degradation III (oxidase) 49 6 2
ethene biosynthesis V (engineered) 25 19 1
photosynthetic 3-hydroxybutanoate biosynthesis (engineered) 26 20 1
platensimycin biosynthesis 26 6 1
superpathway of ergosterol biosynthesis I 26 4 1
Methanobacterium thermoautotrophicum biosynthetic metabolism 56 21 2
superpathway of cholesterol biosynthesis 38 4 1
superpathway of L-lysine degradation 43 18 1
superpathway of chorismate metabolism 59 43 1