Modeling studies on phospholipase A2-inhibitor complexes

Phospholipase A2 (PLA2) is a ubiquitous enzyme that specifically catalyzes hydrolysis of membrane phospholipids to produce lysophospholipids and free fatty acid, namely arachidonic acid, which provides substrate for eicosanoids biosynthesis. Thus, the compounds inhibiting PLA2 have been implicated a...

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Veröffentlicht in:	Indian journal of biochemistry & biophysics 2008-08, Vol.45 (4), p.256-262
Hauptverfasser:	Nirmal, Nithya, Praba, G Om, Velmurugan, D
Format:	Artikel
Sprache:	eng
Schlagworte:	Animals Binding Sites Daboia Enzyme Inhibitors - chemistry Models, Molecular Oligopeptides - chemistry Pancreas - enzymology Phospholipase A2 Inhibitors Phospholipases A2 - chemistry Plant Extracts - chemistry Viper Venoms - chemistry
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container_title	Indian journal of biochemistry & biophysics
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creator	Nirmal, Nithya Praba, G Om Velmurugan, D
description	Phospholipase A2 (PLA2) is a ubiquitous enzyme that specifically catalyzes hydrolysis of membrane phospholipids to produce lysophospholipids and free fatty acid, namely arachidonic acid, which provides substrate for eicosanoids biosynthesis. Thus, the compounds inhibiting PLA2 have been implicated as potential therapeutic agents in treatment of inflammation related diseases. Plant and marine organisms serve as sources of compounds that act as potential therapeutic agents for treatment of various diseases. The present study reveals the relationship between the structure and function of the medicinally important herbal compounds (acalyphin, chlorogenic acid, stigmasterol, curcumin and tectoridin) and marine compounds (gracilin A and aplysulphurin A). To understand the binding mechanisms of these compounds, molecular modeling studies has been performed with Russell's viper and bovine pancreatic PLA2 as target molecules using molecular operating environment (MOE) software. These compounds show favorable interactions with the amino acid residues at the active site of Russell's viper and bovine pancreatic PLA2, thereby substantiating their proven efficacy as anti-inflammatory compounds and antidotes.
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subjects	Animals Binding Sites Daboia Enzyme Inhibitors - chemistry Models, Molecular Oligopeptides - chemistry Pancreas - enzymology Phospholipase A2 Inhibitors Phospholipases A2 - chemistry Plant Extracts - chemistry Viper Venoms - chemistry
title	Modeling studies on phospholipase A2-inhibitor complexes
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