Type: Article
Computational evaluation on the binding affinity of non-specific lipid-transfer protein-2 with fatty acids
Journal: Computers in Biology and Medicine (00104825)Year: August 2013Volume: 43Issue: Pages: 1732 - 1738
DOI:10.1016/j.compbiomed.2013.08.012Language: English
Abstract
A computational study was carried out to identify the structural determinant controlling the affinity, specificity and binding strength of several saturated and unsaturated fatty acids with Oryza sativa (Indica group) nonspecific lipid transfer protein (nsLTP2). Association between the number, position and conformation of hydrophobic patches and lipid binding properties of the protein was evidenced by docking analysis. Binding affinity is influenced by the number of carbon atoms, location of double bonds and hydroxyl group in the acyl chain. The results may direct at developing applications in LTP-mediated transport and controlled release of low molecular weight drugs. © 2013 Elsevier Ltd.
Author Keywords
Drug carriersFatty acidsLipid binding proteinsProtein Data Bank
Other Keywords
Amino Acid SequenceBinding SitesCarrier ProteinsFatty AcidsHydrophobic and Hydrophilic InteractionsModels, MolecularMolecular Sequence DataOryza sativaPlant ProteinsProtein BindingSequence AlignmentBinding energyUnsaturated fatty acidsDrug carriersLipid binding proteinsProtein Data Bankcarbonfatty acidhydroxyl grouplipid transfer proteinlipid transfer protein 2saturated fatty acidunclassified drugunsaturated fatty acidComputational evaluationDrug carrierLipid-binding proteinsLow molecular weight drugsNumber of carbon atomsStructural determinantsarticleatombinding affinitybinding sitemolecular dockingmolecular weightnonhumanpriority journalprotein conformationricestrengthProteins