2.1.1.129: inositol 4-methyltransferase
This is an abbreviated version!
For detailed information about inositol 4-methyltransferase, go to the full flat file.
Word Map on EC 2.1.1.129
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2.1.1.129
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carotid
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intima-media
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artery
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atherosclerosis
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cardiovascular
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ultrasound
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plaque
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women
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cholesterol
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ultrasonography
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systolic
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b-mode
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coronary
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hypertension
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subclinical
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smoking
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lipoprotein
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intima
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smoke
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myofibroblastic
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triglyceride
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stiffness
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wave
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brachial
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thicken
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c-reactive
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diastolic
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endothelial
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dilation
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low-density
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inspiratory
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middle-aged
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femoral
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stenosis
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hdl
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waist
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doppler
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flow-mediated
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distensibility
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brachial-ankle
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tertile
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tonometry
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alk
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framingham
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ankle-brachial
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alk-positive
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hypertensives
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pseudotumors
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hscrp
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ldl-cholesterol
- 2.1.1.129
-
carotid
-
intima-media
- artery
- atherosclerosis
- cardiovascular
-
ultrasound
- plaque
- women
- cholesterol
-
ultrasonography
-
systolic
-
b-mode
- coronary
- hypertension
-
subclinical
-
smoking
- lipoprotein
-
intima
-
smoke
- myofibroblastic
- triglyceride
-
stiffness
-
wave
-
brachial
-
thicken
-
c-reactive
-
diastolic
- endothelial
-
dilation
-
low-density
-
inspiratory
-
middle-aged
- femoral
- stenosis
- hdl
- waist
-
doppler
-
flow-mediated
-
distensibility
-
brachial-ankle
-
tertile
-
tonometry
- alk
-
framingham
-
ankle-brachial
-
alk-positive
-
hypertensives
-
pseudotumors
-
hscrp
-
ldl-cholesterol
Reaction
Synonyms
11446905, EC 2.1.1.134, IMT, Imt1, IMT1 protein, inositol 6-O-methyltransferase, inositol methyl transferase, m6OMT, methyltransferase, inositol 6-O, methyltransferase, inositol L-1- (Mesembryanthemum crystallinum clone Imt1 reduced), myo-inositol 4-O-methyltransferase, myo-inositol 6-O-methyltransferase, myo-inositol O-methyltransferase, PcIMT1, S-adenosyl-L-methionine:myo-inositol 6-O-methyltransferase
ECTree
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General Information
General Information on EC 2.1.1.129 - inositol 4-methyltransferase
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physiological function
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after cold stress, the Imt1 transgenic Arabidopsis plants exhibit stronger growth than the wild type plants
physiological function
tobacco plants transformed with the IMT gene produce up to 2.38 mg of D-ononitol per gram dry weight of leaves. Introduction of IMT, OEPA displaying NAD+-dependent D-ononitol dehydrogenase activity, and OEPB having NADP+-dependent D-pinitol dehydrogenase activity into tobacco plants results in production of D-ononitol and D-pinitol in transformants