1.1.1.183: geraniol dehydrogenase (NADP+)
This is an abbreviated version!
For detailed information about geraniol dehydrogenase (NADP+), go to the full flat file.
Word Map on EC 1.1.1.183
-
1.1.1.183
-
geranial
-
citral
-
neral
-
dehydrogenases
-
monoterpene
-
lemongrass
-
linalool
-
cymbopogon
-
cis-isomer
-
ginger
-
betaproteobacterium
-
defragrans
-
geometric
-
castellaniella
-
nutrition
- 1.1.1.183
- geranial
- citral
- neral
- dehydrogenases
-
monoterpene
-
lemongrass
- linalool
- cymbopogon
-
cis-isomer
- ginger
-
betaproteobacterium
- defragrans
-
geometric
-
castellaniella
- nutrition
Reaction
Synonyms
GDH, GeDH, GEDH1, geoA, geraniol dehydrogenase, geraniol dehydrogenase-like enzyme, geraniol-DH I, geraniol-DH II, More, NADP+-dependent geraniol dehydrogenase, OaGDH, YjgB, ZoGeDH
ECTree
Advanced search results
General Information
General Information on EC 1.1.1.183 - geraniol dehydrogenase (NADP+)
Please wait a moment until all data is loaded. This message will disappear when all data is loaded.
evolution
malfunction
in the enzyme-deficient MGDELTAyjgB strain, conversion of geraniol to other geranoids is significantly reduced to 11%. Similar patterns are observed when feeding nerol and citral. In the MGDELTAyjgB strain, conversion of fed nerol to other geranoids is reduced from 12% to 4%, and conversion of neral and geranial to other geranoids during the citral feeding experiment is also reduced by almost 50% in both cases
metabolism
physiological function
additional information
enzyme three-dimensional structure modelling and binding site prediction, overview
GeDH gene expression in C-, PA-, PK-, and PP-type Perilla
evolution
GeDH gene expression in C-, PA-, PK-, and PP-type Perilla
evolution
phylogenic analysis of ZoGeDH results in its categorization into the cinnamyl alcohol dehydrogenase (CAD) group, along with the previously reported GeDHs of sweet basil (Ocimum basilicum) and wild perilla (P. setoyensis, P. citriodora, and P. frutescens)
evolution
-
GeDH gene expression in C-, PA-, PK-, and PP-type Perilla
-
evolution
-
GeDH gene expression in C-, PA-, PK-, and PP-type Perilla
-
the enzyme geraniol dehydrogenase is involved in the biosynthetic pathway from geranyl diphosphate to citral, the main compound of citral-type perilla essential oil
metabolism
the enzyme geraniol dehydrogenase is involved in the biosynthetic pathway from geranyl diphosphate to citral, the main compound of citral-type perilla essential oil
metabolism
the enzyme geraniol dehydrogenase is involved in the biosynthetic pathway from geranyl diphosphate to citral, the main compound of citral-type perilla essential oil. Geranial is formed from geraniol by enzymatic reaction of Perilla aldo-keto reductase or Perilla GeDH
metabolism
treatment of plants with D2-geraniol accelerates the synthesis of D1-geraniol and D1-geranial. D1-geranial comprises 33.7% of the endogenous geranial content. Other than geraniol, citronellol is also detected as a mixture of D2- and D1-labeled compounds. On the other hand, nerol and neral, cis-isomers of geraniol and nerol, respectively, are hardly detected in either the control or treated plants. These results indicate that geraniol and geranyl acetate are possible precursors for the formation of geranial and citronellol. Proposed biotransformation of geraniol-related compounds in ginger rhizomes, overview
metabolism
YjgB is the major enzyme responsible for the endogenous formation of geranoids during geraniol production in Escherichia coli
metabolism
-
the enzyme geraniol dehydrogenase is involved in the biosynthetic pathway from geranyl diphosphate to citral, the main compound of citral-type perilla essential oil
-
metabolism
-
the enzyme geraniol dehydrogenase is involved in the biosynthetic pathway from geranyl diphosphate to citral, the main compound of citral-type perilla essential oil
-
metabolism
-
the enzyme geraniol dehydrogenase is involved in the biosynthetic pathway from geranyl diphosphate to citral, the main compound of citral-type perilla essential oil. Geranial is formed from geraniol by enzymatic reaction of Perilla aldo-keto reductase or Perilla GeDH
-
the single enzyme geraniol dehydrogenase (GDH) is responsible for the degradation of geraniol, nerol, citronellol and related compounds
physiological function
two types of alcohol dehydrogenases, an aldo-keto reductase (AKR) and a geraniol dehydrogenase (GeDH), are thought to participate in the biosynthesis of perilla essential oil components, such as citral and perillaldehyde
physiological function
two types of alcohol dehydrogenases, an aldo-keto reductase (AKR) and a geraniol dehydrogenase (GeDH), are thought to participate in the biosynthesis of perilla essential oil components, such as citral and perillaldehyde
physiological function
-
two types of alcohol dehydrogenases, an aldo-keto reductase (AKR) and a geraniol dehydrogenase (GeDH), are thought to participate in the biosynthesis of perilla essential oil components, such as citral and perillaldehyde
-
physiological function
-
two types of alcohol dehydrogenases, an aldo-keto reductase (AKR) and a geraniol dehydrogenase (GeDH), are thought to participate in the biosynthesis of perilla essential oil components, such as citral and perillaldehyde
-
physiological function
-
two types of alcohol dehydrogenases, an aldo-keto reductase (AKR) and a geraniol dehydrogenase (GeDH), are thought to participate in the biosynthesis of perilla essential oil components, such as citral and perillaldehyde
-