2.1.1.280: selenocysteine Se-methyltransferase
This is an abbreviated version!
For detailed information about selenocysteine Se-methyltransferase, go to the full flat file.
Word Map on EC 2.1.1.280
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2.1.1.280
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selenium
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selenate
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astragalus
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se-methylselenocysteine
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hyperaccumulator
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bisulcatus
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brassica
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oleracea
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mesecys
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homocysteine
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methylselenocysteine
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phytoremediation
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sulfurylase
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non-accumulating
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broccoli
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mustard
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agriculture
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juncea
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italica
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brassicaceae
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organoselenium
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s-methylmethionine
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nonprotein
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chemopreventative
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biofortification
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synthesis
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fabaceae
- 2.1.1.280
- selenium
- selenate
- astragalus
- se-methylselenocysteine
-
hyperaccumulator
- bisulcatus
-
brassica
- oleracea
-
mesecys
- homocysteine
-
methylselenocysteine
-
phytoremediation
-
sulfurylase
-
non-accumulating
- broccoli
- mustard
- agriculture
- juncea
- italica
- brassicaceae
-
organoselenium
- s-methylmethionine
-
nonprotein
-
chemopreventative
-
biofortification
- synthesis
-
fabaceae
Reaction
Synonyms
BjSMT, BoSMT, Hcy methyltransferase, SEcMT, SeCys-methyltransferase, SeCys-MT, selenocysteine methyltransferase, SMT, smtA, YagD, YagD protein
ECTree
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Source Tissue
Source Tissue on EC 2.1.1.280 - selenocysteine Se-methyltransferase
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quantitative real-time PCR enzyme expression analysis in calli from cultures grown in different media. Transcript level of callus tissues grown at 0.0052 mM and 0.0264 mM Se-enriched media is lower than that of the control callus. In contrast, a high level of Se (0.132 mM) in the medium causes an approximately 4.26times higher level of SMT transcript in callus than the control
cell cultures contain the maximal level of selenocysteine methyltransferase under conditions of exponential growth. Stationary phase cells possess a much lower amount
additional information
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semiquantitative RT-PCR expression analysis of BjSMT transcript accumulation in leaves and roots of Indian mustard plants supplied with 0.04 mM Na2SeO4, 0.04 mM Na2SeO3, and 0.001 mM MgSO4 in the medium, overview
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lower level of enzyme and accumulation of mainly the free amino acid selenocystathionine, composition of Se in leaves, overview
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high level of enzyme and accumulation of methylselenocysteine, composition of Se in leaves, overview