1.14.14.175: ferruginol synthase
This is an abbreviated version!
For detailed information about ferruginol synthase, go to the full flat file.
Word Map on EC 1.14.14.175
-
1.14.14.175
-
salvia
-
tanshinones
-
miltiorrhiza
-
hairy
-
diterpenoids
-
bunge
-
reductases
-
cryptotanshinone
-
herb
-
diterpene
-
rosemary
-
danshen
-
abietane
-
dihydrotanshinone
-
carnosic
-
lamiaceae
-
synthesis
-
smcps
-
ferricyanide
-
rhizome
-
cerebrovascular
-
abietane-type
-
dicotyledonous
-
salvianolic
-
norditerpenoid
- 1.14.14.175
- salvia
- tanshinones
- miltiorrhiza
-
hairy
-
diterpenoids
- bunge
- reductases
- cryptotanshinone
-
herb
-
diterpene
- rosemary
-
danshen
-
abietane
- dihydrotanshinone
-
carnosic
- lamiaceae
- synthesis
- smcps
- ferricyanide
- rhizome
-
cerebrovascular
-
abietane-type
-
dicotyledonous
-
salvianolic
-
norditerpenoid
Reaction
Synonyms
CYP76AH1, Cyp76AH22, Cyp76AH23, CYP76AH24, CYP76AH4, EC 1.14.13.190, FS1, FS2, miltiradiene oxidase, miltiradiene,NADPH:oxygen oxidoreductase (ferruginol forming)
ECTree
Advanced search results
Engineering
Engineering on EC 1.14.14.175 - ferruginol synthase
Please wait a moment until all data is loaded. This message will disappear when all data is loaded.
D301E/N303S/V479F
mutation leads to a second oxidation of product to give 11-hydroxyferruginol, i.e. reaction of EC 1.14.14.60
F112L
-
mutant catalyzes ferruginol production in yeast 2 times more efficiently than the wild-type enzyme, while production of 11-hydroxy-ferruginol is abolished. mutant does not oxidize miltiradiene
V296L
-
mutant produces 1.5 times more ferruginol, but 8fold less 11-hydroxy-ferruginol and 20fold less 11beta-hydroxy-manoyl oxide than the wild-type enzyme. mutant does not oxidize miltiradiene
additional information
RNAi-mediated silencing of CYP76AH1 in hairy roots, construction of a CYP76AH1 RNAi system for hairy roots using transformation via Agrobacterium rhizogenes strain C58C1. Metabolic analysis of RNAi-AH1 hairy root lines shows a significantly increased accumulation of miltiradiene and decreased concentration of ferruginol compared to the control lines. The content of tanshinones decreases significantly after silencing of CYP76AH1
additional information
-
RNAi-mediated silencing of CYP76AH1 in hairy roots, construction of a CYP76AH1 RNAi system for hairy roots using transformation via Agrobacterium rhizogenes strain C58C1. Metabolic analysis of RNAi-AH1 hairy root lines shows a significantly increased accumulation of miltiradiene and decreased concentration of ferruginol compared to the control lines. The content of tanshinones decreases significantly after silencing of CYP76AH1