Wolfgang B Fischer
National Yang-Ming University, Taiwan
Title: Targeting viral membrane proteins in silico
Biography
Biography: Wolfgang B Fischer
Abstract
Many viral membrane proteins interact with membrane proteins of the host to steer the cell for a successful mass production of novel virions. The viral proteins rely on selective interactions of their transmembrane domains (TMDs) with those of the host protein. An understanding of the modalities of recognizing the proper host target, on the revers, can be turned against the virus. Getting insights into the specifi city of binding, the interaction of oncoprotein E5 of Human papillomavirus-16 (HPV16), an 83-amino acid membrane protein containing 3 TMDS, with a peptide corresponding to the fourth TMD (TMD4) of the 16 kDa subunit of the ATP6V0C is investigated as an example. HPV-16 is the major cause of cervical cancer diagnosed today. E5 is a membrane protein which is expressed at an early (hence the letter E) stage of the infectivity cycle when the virus turns the cell malignant. Th e protein interacts with a series of host factors, but has also been identified experimentally to allow channel activity when most likely in a hexameric assembled form. Computational modeling suggests a weak selectivity of the channel. Docking approaches as well as coarse grained molecular dynamics (CGMD) simulations of the peptides within a hydrated lipid membrane specify the mode of binding of TMD4 with either E5 protein or its individual TMDs. From potential of mean force calculations (PMF) and statistical analysis enthalpy and entropy contributions are attributed of TMD4 binding to TMD3 and TMD2 of E5, respectively.