1.14.15.7: choline monooxygenase
This is an abbreviated version!
For detailed information about choline monooxygenase, go to the full flat file.
Word Map on EC 1.14.15.7
-
1.14.15.7
-
betaine
-
osmoprotectant
-
drought
-
badhs
-
oleracea
-
spinacia
-
glycinebetaine
-
halophyte
-
beet
-
atriplex
-
rieske-type
-
rieske
-
suaeda
-
phosphocholine
-
amaranthus
-
hortensis
-
ferredoxin-dependent
-
amaranthaceae
-
salsa
-
tricolor
-
agriculture
- 1.14.15.7
- betaine
-
osmoprotectant
- drought
-
badhs
- oleracea
-
spinacia
- glycinebetaine
-
halophyte
- beet
-
atriplex
-
rieske-type
-
rieske
- suaeda
- phosphocholine
-
amaranthus
- hortensis
-
ferredoxin-dependent
- amaranthaceae
- salsa
- tricolor
- agriculture
Reaction
Synonyms
AhCMO, AnCMO, ApCMO, choline monooxygenase, choline oxygenase, CMO, CMO1, EC 1.14.14.4, Os06g48510
ECTree
Advanced search results
Expression
Expression on EC 1.14.15.7 - choline monooxygenase
Please wait a moment until all data is loaded. This message will disappear when all data is loaded.
expression of CMO protein is increased by the presence of NaCl in younger leaves but decreased in older leaves
-
increased accumulation in mature leaf with increasing concentration of NaCl
-
level of choline monooxygenase in expanded leaves increases significantly on salt stress
-
level of choline monooxygenase increases under salt stress
salt treatment results in increased expression of the enzyme mainly in the leaves but not in the roots. Thereby the expression of CMO protein is increased by the presence of NaCl in younger leaves but decreased in older leaves
-
the enzyme expression is salt- and osmotic stress-induced in seedlings, but downregulated in cell suspension culture in response to the same salt stress
-
the enzyme expression is salt- and osmotic stress-induced in seedlings, but downregulated in cell suspension culture in response to the same salt stress. CMO induction proceeds via an ABA-independent signal transduction pathway
-
the expression of HvCMO protein is increased by the presence of high NaCl, accumulation of HvCMO mRNA is increased by high osmotic and low-temperature environments