1.14.19.24: acyl-CoA 11-(E)-desaturase
This is an abbreviated version!
For detailed information about acyl-CoA 11-(E)-desaturase, go to the full flat file.
Word Map on EC 1.14.19.24
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1.14.19.24
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pheromone
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moth
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desaturases
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desaturation
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delta9
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littoralis
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ostrinia
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borer
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z-11-hexadecenoic
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tetradecanoic
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helicoverpa
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deuterium-labeled
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furnacalis
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nubilalis
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hexadecanoic
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gland-specific
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trichoplusia
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assulta
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adzuki
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pseudonana
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front-end
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thalassiosira
- 1.14.19.24
- pheromone
- moth
-
desaturases
-
desaturation
-
delta9
- littoralis
- ostrinia
- borer
-
z-11-hexadecenoic
-
tetradecanoic
- helicoverpa
-
deuterium-labeled
- furnacalis
- nubilalis
-
hexadecanoic
-
gland-specific
-
trichoplusia
- assulta
-
adzuki
- pseudonana
-
front-end
-
thalassiosira
Reaction
+ 2 ferrocytochrome b5 + + 2 H+ = + 2 ferricytochrome b5 + 2 H2O
Synonyms
(E)-11 myristoyl CoA desaturase, acyl-CoA Z/E11 desaturase, CroDELTA11 desaturase, DELTA11 desaturase, DELTA11-desaturase, desaturase, myristoly coenzyme A (E)-11, EC 1.14.99.31, EDELTA11, LATPG1, More, myristoyl-CoA 11-(E) desaturase, Z/E11 desaturase, Z/EDELTA11
ECTree
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Engineering
Engineering on EC 1.14.19.24 - acyl-CoA 11-(E)-desaturase
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D258E
site-directed mutagenesis, mutating the aspartic acid into glutamic acid transforms the Choristoneura parallela enzyme into a desaturase with Choristoneura rosaceana-like activity that produces a mixture of (11Z)-tetradecenoate and (11E)-tetradecenoate in a 64:36 E/Z product ratio
16del_E
site-directed mutagenesis, the product E/Z isomer ratio is 33:67
A161G_T163M
site-directed mutagenesis, the product E/Z isomer ratio is 36:64
A88S
site-directed mutagenesis, the product E/Z isomer ratio is 32:68
E258D
F252L
site-directed mutagenesis, the product E/Z isomer ratio is 33:67
H116N_I118V
site-directed mutagenesis, the product E/Z isomer ratio is 42:58
I103M
site-directed mutagenesis, the product E/Z isomer ratio is 36:64
I174V
site-directed mutagenesis, the product E/Z isomer ratio is 35:65
I65V
site-directed mutagenesis, the product E/Z isomer ratio is 35:65
K286Q
site-directed mutagenesis, the product E/Z isomer ratio is 35:65
K309N
site-directed mutagenesis, the product E/Z isomer ratio is 34:66
L12M
site-directed mutagenesis, the product E/Z isomer ratio is 31:69
L19W
site-directed mutagenesis, the product E/Z isomer ratio is 34:66
L69I
site-directed mutagenesis, the product E/Z isomer ratio is 30:70
M250I_T251A
site-directed mutagenesis, the product E/Z isomer ratio is 35:65
N259S
site-directed mutagenesis, the product E/Z isomer ratio is 31:69
T95A
site-directed mutagenesis, the product E/Z isomer ratio is 35:65
V321I
site-directed mutagenesis, the product E/Z isomer ratio is 35:65
W45G
site-directed mutagenesis, the product E/Z isomer ratio is 31:69
additional information
site-directed mutagenesis, mutating the glutamic acid into aspartic acid transforms the Choristoneura rosaceana enzyme into a desaturase with Choristoneura parallela-like activity that produces an almost pure (11E)-tetradecenoate product
E258D
site-directed mutagenesis, mutating the glutamic acid into aspartic acid transforms the Choristoneura rosaceana enzyme into a desaturase with Choristoneura parallela-like activity that produces an almost pure (11E)-tetradecenoate product, the product E/Z isomer ratio is 86:14
a second non-functional ezi-inserted desaturase gene exists in Ostrinia latipennis, in which an ezi-like element is integrated in intron 1 of gene latpg1. Only the functional latpg1 is expressed in the pheromone gland of Ostrinia latipennis
additional information
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a second non-functional ezi-inserted desaturase gene exists in Ostrinia latipennis, in which an ezi-like element is integrated in intron 1 of gene latpg1. Only the functional latpg1 is expressed in the pheromone gland of Ostrinia latipennis
additional information
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a second non-functional ezi-inserted desaturase gene exists in Ostrinia nubilalis. The non-functionality of ezi-inserted desaturase genes may not be a direct consequence of the insertion of an ezi- or ezi-like element into the gene