EC Number |
General Information |
Reference |
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2.1.1.68 | evolution |
transcriptome and metabolome analyses of Rauwolfia serpentina roots allow the identification of 7 candidate O-methytransferase (OMT) genes that might be associated with the formation of 3,4,5-trimethoxybenzoate and 3,4,5-trimethoxycinnamate. RsOMT1 is a member of the caffeoyl CoA-OMT-like family of genes |
757937 |
2.1.1.68 | evolution |
transcriptome and metabolome analyses of Rauwolfia serpentina roots allow the identification of 7 candidate O-methytransferase (OMT) genes that might be associated with the formation of 3,4,5-trimethoxybenzoate and 3,4,5-trimethoxycinnamate. RsOMT3 is a member of the caffeic acid-OMT-like family of genes |
757937 |
2.1.1.68 | malfunction |
Arabidopsis COMT1 knockout mutant line Atomt1 lignin differs from native lignin in wild type plants, in terms of sinapyl (S) alcohol-derived substructures in fiber cell walls being substituted by 5-hydroxyconiferyl alcohol (5OHG)-derived moieties |
720616 |
2.1.1.68 | malfunction |
downregulation of CCR1 and caffeic acid O-methyltransferase 1 (OMT1) using an RNA interference-mediated silencing strategy causes dramatic changes in lignin level and composition in transgenic perennial ryegrass plants grown under both glasshouse and field conditions. Both field-grown OMT1-deficient and CCR1-deficient perennial ryegrass plants show enhanced digestibility without obvious detrimental effects on either plant fitness or biomass production |
720676 |
2.1.1.68 | malfunction |
enzyme knockdown suppresses host resistance to sharp eyespot |
758439 |
2.1.1.68 | malfunction |
transformation of Arabidopsis loss-of-function Atomt1 mutant with a FGCOMT1 cDNA partially complements accumulation of sinapoyl derivatives but does not function to produce the major methylated flavonol isorhamnetin in seeds |
720423 |
2.1.1.68 | metabolism |
3,4-dihydroxybenzaldehyde is not the preferred substrate. The higher catalytic efficiency of the purified recombinant enzyme with the substrates caffeoyl aldehyde and 5-hydroxyconiferaldehyde, and its tissue distribution, suggest this methyltransferase may primarily unction in lignin biosynthesis |
718207 |
2.1.1.68 | metabolism |
enzyme overexpression increases melatonin levels in tomato plants |
757491 |
2.1.1.68 | metabolism |
involvement of RsOMT1 and RsOMT3 in the assembly of trimethoxybenzoic and trimethoxycinnamic acids |
757937 |
2.1.1.68 | metabolism |
transgenic rice plants overexpressing the enzyme show an increase in melatonin levels |
757324 |