AI Article Synopsis
- SVPLB-like enzymes found in venoms are still not well understood in terms of their biological role and how they work.
- A 3D model of the SVPLB-like enzyme from the Eastern diamondback rattlesnake was created using techniques from existing bovine enzyme structures, revealing key conserved domains typical of Ntn-hydrolases.
- Molecular dynamics simulations show that when the enzyme undergoes autocatalytic cleavage, it sheds 25 amino acids, enhancing the active site's accessibility, and highlighting its classification as an amidase within the Ntn-hydrolase family.
Article Abstract
Phospholipase-B-like (SVPLB-like) enzymes are present in relatively small amounts in a number of venoms, however, their biological function and mechanisms of action are un-clear. A three-dimensional model of the SVPLB-like enzyme from Crotalus adamanteus was generated by homology modeling based on the crystal structures of bovine Ntn-hydrolyases and the modeled protein possesses conserved domains characteristic of Ntn-hydrolases. Molecular dynamics simulations indicate that activation by autocatalytic cleavage results in the removal of 25 amino acids which increases accessibility to the active site. SVPLB-like enzymes possess a highly reactive cysteine and are hence amidases that to belong to the N-terminal nucleophile (Ntn) hydrolase family. The Ntn-hydrolases (N-terminal nucleophile) form a superfamily of diverse enzymes that are activated autocatalytically; wherein the N-terminal catalytic nucleophile is implicated in the cleavage of the amide bond.
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| http://dx.doi.org/10.1016/j.toxicon.2018.08.014 | DOI Listing |
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