Any feedback?
Please rate this page
(organism.php)
(0/150)

BRENDA support

Information on Organism Bacillus safensis

TaxTree of Organism Bacillus safensis
Condensed Tree View
Bacteria can be found in Brenda BRENDA pathways(superkingdom)
Firmicutes can be found in Brenda BRENDA pathways(phylum)
Bacilli can be found in Brenda BRENDA pathways(class)
Bacillus can be found in Brenda BRENDA pathways(genus)
Please wait a moment until all data is loaded. This message will disappear when all data is loaded.
EC NUMBER
COMMENTARY hide
PATHWAY
BRENDA Link
KEGG Link
MetaCyc Link
(1,4)-beta-D-xylan degradation
-
-
1,5-anhydrofructose degradation
-
-
3-hydroxypropanoate cycle
-
-
3-hydroxypropanoate/4-hydroxybutanate cycle
-
-
4-hydroxy-2-nonenal detoxification
-
-
acetone degradation I (to methylglyoxal)
-
-
acetone degradation III (to propane-1,2-diol)
-
-
acrylonitrile degradation I
-
-
aerobic respiration I (cytochrome c)
-
-
aerobic respiration II (cytochrome c) (yeast)
-
-
aerobic respiration III (alternative oxidase pathway)
-
-
Alanine, aspartate and glutamate metabolism
-
-
alliin metabolism
-
-
Amaryllidacea alkaloids biosynthesis
-
-
Amino sugar and nucleotide sugar metabolism
-
-
Aminobenzoate degradation
-
-
Arachidonic acid metabolism
-
-
arachidonic acid metabolism
-
-
Arginine and proline metabolism
-
-
arginine metabolism
-
-
Ascorbate and aldarate metabolism
-
-
ascorbate metabolism
-
-
aspartate and asparagine metabolism
-
-
autoinducer AI-2 biosynthesis I
-
-
autoinducer AI-2 biosynthesis II (Vibrio)
-
-
Biosynthesis of 12-, 14- and 16-membered macrolides
-
-
Biosynthesis of secondary metabolites
-
-
bupropion degradation
-
-
Butanoate metabolism
-
-
C4 photosynthetic carbon assimilation cycle, NAD-ME type
-
-
C4 photosynthetic carbon assimilation cycle, NADP-ME type
-
-
C4 photosynthetic carbon assimilation cycle, PEPCK type
-
-
Caffeine metabolism
-
-
camalexin biosynthesis
-
-
Carbon fixation pathways in prokaryotes
-
-
cellulose and hemicellulose degradation (cellulolosome)
-
-
cellulose degradation
-
-
cellulose degradation II (fungi)
-
-
chitin degradation I (archaea)
-
-
chitin degradation II (Vibrio)
-
-
chitin degradation III (Serratia)
-
-
Citrate cycle (TCA cycle)
-
-
citric acid cycle
-
-
CO2 fixation into oxaloacetate (anaplerotic)
-
-
cyanate degradation
Cysteine and methionine metabolism
-
-
cysteine metabolism
-
-
d-xylose degradation
-
-
degradation of aromatic, nitrogen containing compounds
-
-
Drug metabolism - cytochrome P450
-
-
Drug metabolism - other enzymes
-
-
erythromycin D biosynthesis
-
-
ethanol degradation IV
-
-
ethene biosynthesis I (plants)
-
-
ethene biosynthesis III (microbes)
-
-
Fatty acid degradation
-
-
Galactose metabolism
-
-
gliotoxin biosynthesis
-
-
gluconeogenesis II (Methanobacterium thermoautotrophicum)
-
-
Glutathione metabolism
-
-
glutathione metabolism
-
-
glutathione-mediated detoxification I
-
-
glutathione-mediated detoxification II
-
-
glutathione-peroxide redox reactions
-
-
Glycerolipid metabolism
-
-
Glycine, serine and threonine metabolism
-
-
glycogen metabolism
-
-
Glycosaminoglycan degradation
-
-
Glycosphingolipid biosynthesis - ganglio series
-
-
Glyoxylate and dicarboxylate metabolism
-
-
glyoxylate assimilation
-
-
gossypol biosynthesis
-
-
homocysteine and cysteine interconversion
-
-
hydrogen sulfide biosynthesis II (mammalian)
-
-
IAA biosynthesis
-
-
indole glucosinolate activation (intact plant cell)
-
-
indole-3-acetate biosynthesis II
-
-
indole-3-acetate biosynthesis III (bacteria)
-
-
indole-3-acetate biosynthesis IV (bacteria)
-
-
justicidin B biosynthesis
-
-
L-arginine degradation X (arginine monooxygenase pathway)
-
-
L-ascorbate degradation II (bacterial, aerobic)
-
-
L-ascorbate degradation III
-
-
L-asparagine biosynthesis I
-
-
L-cysteine biosynthesis III (from L-homocysteine)
-
-
L-cysteine biosynthesis VI (reverse transsulfuration)
-
-
L-leucine degradation I
-
-
lactose degradation II
-
-
leucine metabolism
-
-
Linoleic acid metabolism
-
-
lipid metabolism
-
-
macrolide antibiotic biosynthesis
-
-
matairesinol biosynthesis
-
-
melatonin degradation I
-
-
Metabolic pathways
-
-
metabolism of disaccharids
-
-
Metabolism of xenobiotics by cytochrome P450
-
-
methanol oxidation to formaldehyde IV
-
-
methiin metabolism
-
-
methionine metabolism
-
-
methylaspartate cycle
Microbial metabolism in diverse environments
-
-
nicotine degradation IV
-
-
nicotine degradation V
-
-
Nitrogen metabolism
-
-
non-pathway related
-
-
Other glycan degradation
-
-
Oxidative phosphorylation
-
-
partial TCA cycle (obligate autotrophs)
-
-
pectin degradation I
-
-
pentachlorophenol degradation
-
-
Pentose and glucuronate interconversions
-
-
Phenylalanine metabolism
-
-
propanethial S-oxide biosynthesis
-
-
propionate fermentation
-
-
reactive oxygen species degradation
-
-
retinol biosynthesis
-
-
Retinol metabolism
-
-
S-adenosyl-L-methionine salvage I
-
-
sesamin biosynthesis
-
-
Sphingolipid metabolism
-
-
Starch and sucrose metabolism
-
-
starch degradation
-
-
Steroid hormone biosynthesis
-
-
Styrene degradation
-
-
succinate to chytochrome c oxidase via cytochrome c6
-
-
succinate to cytochrome bd oxidase electron transfer
-
-
succinate to cytochrome bo oxidase electron transfer
-
-
succinate to cytochrome c oxidase via plastocyanin
-
-
succinate to plastoquinol oxidase
-
-
superoxide radicals degradation
-
-
superpathway of glyoxylate cycle and fatty acid degradation
-
-
TCA cycle I (prokaryotic)
-
-
TCA cycle II (plants and fungi)
-
-
TCA cycle III (animals)
-
-
TCA cycle IV (2-oxoglutarate decarboxylase)
-
-
TCA cycle V (2-oxoglutarate synthase)
-
-
TCA cycle VII (acetate-producers)
-
-
TCA cycle VIII (Chlamydia)
-
-
triacylglycerol degradation
-
-
tRNA processing
-
-
Tryptophan metabolism
-
-
Valine, leucine and isoleucine degradation
-
-
vanillin biosynthesis I
-
-
xyloglucan degradation II (exoglucanase)
-
-
ORGANISM
COMMENTARY hide
LITERATURE
UNIPROT
SEQUENCE DB
SOURCE
-
-
-
Manually annotated by BRENDA team
LINKS TO OTHER DATABASES (specific for Bacillus safensis)