Data from: The Structure and Catalytic Mechanism of Sorghum bicolor Caffeoyl-CoA O-Methyltransferase
Caffeoyl-coenzyme A 3-O-methyltransferase (CCoAOMT) is an S-adenosyl methionine (SAM)-dependent O-methyltransferase responsible for methylation of the meta-hydroxyl group of caffeoyl-coenzyme A (CoA) on the pathway to monolignols, with their ring methoxylation status characteristic of guaiacyl or syringyl units in lignin. In order to better understand the unique class of type 2 O-methyltransferases from monocots, we have characterized CCoAOMT from sorghum (Sorghum bicolor; SbCCoAOMT), including the SAM binary complex crystal structure and steady-state enzyme kinetics. Key amino acid residues were validated with site-directed mutagenesis. Isothermal titration calorimetry data indicated a sequential binding mechanism for SbCCoAOMT, wherein SAM binds prior to caffeoyl-CoA, and the enzyme showed allosteric behavior with respect to it. 5-Hydroxyferuloyl-CoA was not a substrate for SbCCoAOMT. We propose a catalytic mechanism in which lysine-180 acts as a catalytic base and deprotonates the reactive hydroxyl group of caffeoyl-CoA. This deprotonation is facilitated by the coordination of the reactive hydroxyl group by Ca(2+) in the active site, lowering the pKa of the 3'-OH group. Collectively, these data give a new perspective on the catalytic mechanism of CCoAOMTs and provide a basis for the functional diversity exhibited by type 2 plant OMTs that contain a unique insertion loop (residues 208-231) conferring affinity for phenylpropanoid-CoA thioesters. The structural model of SbCCoAOMT can serve as the basis for protein engineering approaches to enhance the nutritional, agronomic, and industrially relevant properties of sorghum.
Resources in this dataset:
Resource Title: Crystal Structure of sorghum caffeoyl-CoA O-methyltransferase (CCoAOMT) - Protein Data Bank 5KVA.
File Name: Web Page, url: https://www.rcsb.org/structure/5KVA
Includes: Structural Summary; 3D View; Macromolecule Annotations; Sequence Display; Sequence Similarity Clusters; Structure Similarities; and X-RAY DIFFRACTION Experimental Data and Validation.
Funding
National Science Foundation: MCB 102114
National Science Foundation: CHE 118359
National Institutes of Health: 1R01GM11125401
M.J. Murdock Charitable Trust
U.S. Department of Energy: BRDI 2011–1006–30358
USDA-NIFA: 2011–1006–30358
U.S. Department of Energy: DE–FC02–07ER64494
USDA-NIFA: 2011–67009–30026
USDA-NIFA: 3042–21220–032–00D
History
Data contact name
Kang, ChulHeeData contact email
chkang@wsu.eduPublisher
Protein Data BankIntended use
These data give a new perspective on the catalytic mechanism of CCoAOMTs and provide a basis for the functional diversity exhibited by type 2 plant OMTs that contain a unique insertion loop (residues 208-231) conferring affinity for phenylpropanoid-CoA thioesters. The structural model of SbCCoAOMT can serve as the basis for protein engineering approaches to enhance the nutritional, agronomic, and industrially relevant properties of sorghum.Theme
- Not specified
ISO Topic Category
- biota
- farming
National Agricultural Library Thesaurus terms
Sorghum bicolor; Sorghum (Poaceae); methyltransferases; methionine; methylation; moieties; lignin; Liliopsida; crystal structure; enzyme kinetics; site-directed mutagenesis; titration; calorimetry; calcium; active sites; functional diversity; models; amino acid sequences; biocatalysis; crystallography; X-radiation; electrophoresis; polyacrylamide; lysine; chemistry; genetics; mutation; plant proteins; sequence homology; substrate specificity; thermodynamics; acyl coenzyme APending citation
- No
Public Access Level
- Public