EC Number |
General Information |
Reference |
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2.1.1.267 | evolution |
the catalytic activity of Paeonia tenuifolia PtAOMT is much lower than that of Paeonia suffruticosa PsAOMT (approximately 60fold lower), the two enzymes show identical substrate specificity |
757323 |
2.1.1.267 | evolution |
the torenia A3'5'OMT shares 52-72% amino acid sequence identity with other AOMTs and belongs to the group A1 methyltransferase family that also includes caffeoyl CoA O-methyltransferase |
757955 |
2.1.1.267 | evolution |
the VvAOMT genes cluster results from gene duplication |
721944 |
2.1.1.267 | malfunction |
downregulation of AnthOMT in planta decreases the representation of methylated anthocyanins in tomato tissues as well as overall anthocyanin accumulation |
736999 |
2.1.1.267 | malfunction |
the AOMT2 gene presents two SNPs associated with methylation level. These mutations, probably leading to a structural change of the AOMT2 protein, significantly affect the enzyme specific catalytic efficiency for the 3'-O-methylation of delphinidin 3-O-beta-D-glucoside |
721944 |
2.1.1.267 | metabolism |
CrOMT2 is involved in the biosynthesis of flavonol glycosides and anthocyanins in Catharanthus roeus |
637316 |
2.1.1.267 | metabolism |
partial overview over the anthocyanin biosynthetic pathway of Torenia hybrida |
757955 |
2.1.1.267 | metabolism |
spatiotemporal transcriptome analysis indicates that genes involved in the early part of the flavonoid biosynthetic pathway are strongly expressed during early-petal development and that those in the late part at late-flower opening stages, but they are rarely expressed in leaves |
757956 |
2.1.1.267 | more |
anthocyanidin analysis in Nierembergia petals expressing the Torenia A3'5'OMT gene, overview |
757955 |
2.1.1.267 | more |
enzyme structure homology modeling using the three-domensional structure of caffeoyl-CoA 3-O-methyltransferase (CCoAOMT, PDB ID 1SUI) from alfalfa, substrate binding sites are predicted by docking Cy3G5G with the PsAOMT dimer 3D model. Molecular model of the PsAOMT active site. Structure-function analysis |
757323 |