4.2.3.70: patchoulol synthase
This is an abbreviated version!
For detailed information about patchoulol synthase, go to the full flat file.
Word Map on EC 4.2.3.70
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4.2.3.70
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sesquiterpene
-
pogostemon
-
cablin
-
patchouli
-
pt
-
terpene
-
terpenoids
-
sesquiterpenoids
-
synthases
-
cosmetic
-
perfume
-
perennial
-
biocatalytic
-
synthesis
-
ergosterol
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squamosa
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high-value
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phototrophic
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protein-like
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age-regulated
-
elder
-
patens
-
moss
-
physcomitrella
-
microrna156
-
valencene
-
germacrene
-
fragrant
- 4.2.3.70
-
sesquiterpene
-
pogostemon
- cablin
- patchouli
- pt
-
terpene
-
terpenoids
- sesquiterpenoids
- synthases
-
cosmetic
-
perfume
-
perennial
-
biocatalytic
- synthesis
- ergosterol
- squamosa
-
high-value
-
phototrophic
-
protein-like
-
age-regulated
-
elder
- patens
-
moss
- physcomitrella
-
microrna156
- valencene
- germacrene
-
fragrant
Reaction
Synonyms
PTS, TPS, TPS177
ECTree
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Application
Application on EC 4.2.3.70 - patchoulol synthase
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synthesis
construction of several fusion protein variants in which farnesyl diphosphate synthase of yeast has been coupled to patchoulol synthase of plant origin. Expression of the fusion proteins in Saccharomyces cerevisiae increases the production of patchoulol up to 2-fold. The fusion strategy can be used in combination with traditional metabolic engineering to further increase the production of patchoulol
synthesis
fusion to thioredoxin and careful codon optimization of the eukaryotic sequence improves solubl expression on average by 42% in comparison to an unoptimized, His-tagged construct
synthesis
use of a bifunctional enzymatic chimera composed as a fusion between farnesyl diphosphate synthase from yeast and patchoulol synthase from patchouli improves patchoulol production compared to that with the use of free enzymes up to 2fold. The effect is additive to improvements obtained by traditional metabolic engineering