AI Article Synopsis
- Oligogalacturonate lyases (OGLs) are enzymes found in certain bacteria, like Yersinia enterocolitica, that break down pectin by converting digalacturonates into simpler molecules through a specific chemical reaction.
- The study involved analyzing the structure of YeOGL, discovering a manganese ion at the active site, which helps the enzyme work effectively by mimicking the substrate it interacts with.
- The research suggests a unique catalytic mechanism due to a conserved histidine residue and proposes a connection between how pectate lyases fold and their metal coordination properties.
Article Abstract
Oligogalacturonate lyases (OGLs; now also classified as pectate lyase family 22) are cytoplasmic enzymes found in pectinolytic members of Enterobacteriaceae, such as the enteropathogen Yersinia enterocolitica. OGLs utilize a β-elimination mechanism to preferentially catalyze the conversion of saturated and unsaturated digalacturonate into monogalacturonate and the 4,5-unsaturated monogalacturonate-like molecule, 5-keto-4-deoxyuronate. To provide mechanistic insights into the specificity of this enzyme activity, we have characterized the OGL from Y. enterocolitica, YeOGL, on oligogalacturonides and determined its three-dimensional x-ray structure to 1.65 Å. The model contains a Mn(2+) atom in the active site, which is coordinated by three histidines, one glutamine, and an acetate ion. The acetate mimics the binding of the uronate group of galactourono-configured substrates. These findings, in combination with enzyme kinetics and metal supplementation assays, provide a framework for modeling the active site architecture of OGL. This enzyme appears to contain a histidine for the abstraction of the α-proton in the -1 subsite, a residue that is highly conserved throughout the OGL family and represents a unique catalytic base among pectic active lyases. In addition, we present a hypothesis for an emerging relationship observed between the cellular distribution of pectate lyase folding and the distinct metal coordination chemistries of pectate lyases.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC2998093 | PMC |
| http://dx.doi.org/10.1074/jbc.M110.153981 | DOI Listing |
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