Experiment set1IT054 for Escherichia coli BW25113

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L-Malic acid disodium salt monohydrate carbon source

Group: carbon source
Media: M9 minimal media_noCarbon + L-Malic acid disodium salt monohydrate (20 mM)
Culturing: Keio_ML9, tube, Aerobic, at 37 (C), shaken=200 rpm
Growth: about 4.9 generations
By: Kelly on 6/19/2014
Media components: 2 mM Magnesium sulfate, 0.1 mM Calcium chloride, 12.8 g/L Sodium phosphate dibasic heptahydrate, 3 g/L Potassium phosphate monobasic, 0.5 g/L Sodium Chloride, 1 g/L Ammonium chloride

Specific Phenotypes

For 50 genes in this experiment

For carbon source L-Malic acid disodium salt monohydrate in Escherichia coli BW25113

For carbon source L-Malic acid disodium salt monohydrate across organisms

SEED Subsystems

Subsystem #Specific
Pyruvate metabolism I: anaplerotic reactions, PEP 5
Dihydroxyacetone kinases 3
Alanine biosynthesis 2
Biotin biosynthesis 2
Glycerol and Glycerol-3-phosphate Uptake and Utilization 2
Serine-glyoxylate cycle 2
Biogenesis of cytochrome c oxidases 1
Branched-Chain Amino Acid Biosynthesis 1
CBSS-562.2.peg.5158 SK3 including 1
CytR regulation 1
D-ribose utilization 1
DNA-binding regulatory proteins, strays 1
Deoxyribose and Deoxynucleoside Catabolism 1
Entner-Doudoroff Pathway 1
Glycerolipid and Glycerophospholipid Metabolism in Bacteria 1
Glycolysis and Gluconeogenesis 1
Glycolysis and Gluconeogenesis, including Archaeal enzymes 1
Lactose and Galactose Uptake and Utilization 1
MLST 1
Mannitol Utilization 1
Methylcitrate cycle 1
Phenylalanine and Tyrosine Branches from Chorismate 1
Polyamine Metabolism 1
Propionate-CoA to Succinate Module 1
Pyruvate Alanine Serine Interconversions 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
3-(4-hydroxyphenyl)pyruvate biosynthesis 1 1 1
L-cysteine degradation IV 1 1 1
L-malate degradation I 1 1 1
L-alanine biosynthesis III 1 1 1
L-malate degradation II 1 1 1
superpathway of L-alanine biosynthesis 4 4 2
L-phenylalanine biosynthesis III (cytosolic, plants) 2 2 1
L-alanine biosynthesis I 2 2 1
glycerol degradation V 2 2 1
ribose phosphorylation 2 2 1
malate/L-aspartate shuttle pathway 2 2 1
polyphosphate metabolism 2 2 1
8-amino-7-oxononanoate biosynthesis III 2 1 1
cytidylyl molybdenum cofactor sulfurylation 2 1 1
atromentin biosynthesis 2 1 1
L-tyrosine degradation II 2 1 1
8-amino-7-oxononanoate biosynthesis II 2 1 1
spermine and spermidine degradation I 5 2 2
glyoxylate cycle 6 6 2
glycerol degradation I 3 3 1
L-phenylalanine biosynthesis I 3 3 1
L-tyrosine biosynthesis I 3 3 1
2-deoxy-D-ribose degradation I 3 3 1
L-carnitine degradation II 3 2 1
L-phenylalanine degradation II (anaerobic) 3 2 1
L-leucine degradation III 3 2 1
L-tyrosine degradation IV (to 4-methylphenol) 3 1 1
L-leucine degradation V (oxidative Stickland reaction) 3 1 1
bis(guanylyl molybdopterin) cofactor sulfurylation 3 1 1
gluconeogenesis I 13 13 4
anaerobic energy metabolism (invertebrates, cytosol) 7 5 2
thiazole component of thiamine diphosphate biosynthesis II 7 5 2
C4 photosynthetic carbon assimilation cycle, NADP-ME type 7 4 2
8-amino-7-oxononanoate biosynthesis I 11 11 3
biotin biosynthesis I 15 15 4
glycerol and glycerophosphodiester degradation 4 4 1
biotin biosynthesis from 8-amino-7-oxononanoate I 4 4 1
chitin deacetylation 4 3 1
L-tyrosine biosynthesis III 4 3 1
L-tyrosine degradation III 4 2 1
L-tyrosine biosynthesis II 4 2 1
L-phenylalanine biosynthesis II 4 2 1
putrescine degradation III 4 2 1
L-phenylalanine degradation III 4 2 1
tRNA-uridine 2-thiolation (yeast mitochondria) 4 1 1
tRNA-uridine 2-thiolation (mammalian mitochondria) 4 1 1
superpathway of glyoxylate cycle and fatty acid degradation 14 11 3
C4 photosynthetic carbon assimilation cycle, PEPCK type 14 9 3
2-methylcitrate cycle I 5 5 1
8-amino-7-oxononanoate biosynthesis IV 5 4 1
[2Fe-2S] iron-sulfur cluster biosynthesis 10 4 2
superpathway of L-phenylalanine and L-tyrosine biosynthesis 5 2 1
tRNA-uridine 2-thiolation (thermophilic bacteria) 5 1 1
superpathway of plastoquinol biosynthesis 5 1 1
4-hydroxybenzoate biosynthesis I (eukaryotes) 5 1 1
L-tyrosine degradation I 5 1 1
L-phenylalanine degradation VI (reductive Stickland reaction) 5 1 1
L-leucine degradation IV (reductive Stickland reaction) 5 1 1
L-tyrosine degradation V (reductive Stickland reaction) 5 1 1
superpathway of thiamine diphosphate biosynthesis II 11 9 2
C4 photosynthetic carbon assimilation cycle, NAD-ME type 11 8 2
superpathway of anaerobic energy metabolism (invertebrates) 17 12 3
L-leucine biosynthesis 6 6 1
molybdopterin biosynthesis 6 6 1
thiazole component of thiamine diphosphate biosynthesis I 6 6 1
ppGpp metabolism 6 6 1
superpathway of glyoxylate bypass and TCA 12 11 2
TCA cycle VIII (Chlamydia) 6 5 1
biotin biosynthesis II 6 4 1
L-leucine degradation I 6 2 1
methylgallate degradation 6 2 1
pyruvate fermentation to propanoate I 7 5 1
incomplete reductive TCA cycle 7 5 1
mixed acid fermentation 16 16 2
protocatechuate degradation I (meta-cleavage pathway) 8 3 1
tRNA-uridine 2-thiolation (cytoplasmic) 8 1 1
superpathway of glycolysis, pyruvate dehydrogenase, TCA, and glyoxylate bypass 26 25 3
superpathway of aromatic amino acid biosynthesis 18 18 2
Entner-Doudoroff pathway I 9 9 1
TCA cycle IV (2-oxoglutarate decarboxylase) 9 7 1
TCA cycle II (plants and fungi) 9 7 1
TCA cycle V (2-oxoglutarate synthase) 9 7 1
Entner-Doudoroff pathway III (semi-phosphorylative) 9 6 1
Entner-Doudoroff pathway II (non-phosphorylative) 9 6 1
L-phenylalanine degradation IV (mammalian, via side chain) 9 4 1
superpathway of L-tyrosine biosynthesis 10 10 1
superpathway of L-phenylalanine biosynthesis 10 10 1
superpathway of thiamine diphosphate biosynthesis I 10 10 1
Rubisco shunt 10 9 1
TCA cycle I (prokaryotic) 10 9 1
glycolysis IV 10 8 1
TCA cycle III (animals) 10 8 1
glycolysis V (Pyrococcus) 10 7 1
anaerobic energy metabolism (invertebrates, mitochondrial) 10 7 1
superpathway of vanillin and vanillate degradation 10 3 1
rosmarinic acid biosynthesis I 10 1 1
glycolysis III (from glucose) 11 11 1
glycolysis II (from fructose 6-phosphate) 11 11 1
superpathway of cytosolic glycolysis (plants), pyruvate dehydrogenase and TCA cycle 22 18 2
glycolysis VI (from fructose) 11 8 1
reductive TCA cycle I 11 8 1
tRNA-uridine 2-thiolation and selenation (bacteria) 11 7 1
L-glutamate degradation VIII (to propanoate) 11 5 1
(S)-reticuline biosynthesis I 11 1 1
tropane alkaloids biosynthesis 11 1 1
homolactic fermentation 12 12 1
gluconeogenesis III 12 9 1
reductive TCA cycle II 12 8 1
syringate degradation 12 3 1
glycolysis I (from glucose 6-phosphate) 13 13 1
(S)-lactate fermentation to propanoate, acetate and hydrogen 13 10 1
formaldehyde assimilation I (serine pathway) 13 8 1
superpathway of rosmarinic acid biosynthesis 14 2 1
Bifidobacterium shunt 15 13 1
glycerol degradation to butanol 16 11 1
superpathway of hyoscyamine (atropine) and scopolamine biosynthesis 16 3 1
superpathway of branched chain amino acid biosynthesis 17 17 1
superpathway of glycolysis and the Entner-Doudoroff pathway 17 17 1
superpathway of glucose and xylose degradation 17 17 1
superpathway of hexitol degradation (bacteria) 18 18 1
heterolactic fermentation 18 16 1
hexitol fermentation to lactate, formate, ethanol and acetate 19 19 1
superpathway of anaerobic sucrose degradation 19 17 1
methylaspartate cycle 19 9 1
superpathway of N-acetylneuraminate degradation 22 22 1
photosynthetic 3-hydroxybutanoate biosynthesis (engineered) 26 19 1
1-butanol autotrophic biosynthesis (engineered) 27 19 1
anaerobic aromatic compound degradation (Thauera aromatica) 27 3 1
superpathway of chorismate metabolism 59 54 2
odd iso-branched-chain fatty acid biosynthesis 34 24 1
Methanobacterium thermoautotrophicum biosynthetic metabolism 56 22 1