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12th International Conference on STRUCTURAL AND MOLECULAR BIOLOGY

Osaka, Japan

Wolfgang B Fischer

Wolfgang B Fischer

National Yang-Ming University, Taiwan

Title: Structural modeling of membrane proteins from viruses


Biography: Wolfgang B Fischer


Computational methods comprise a valuable tool to close the sequence-structure gap, especially for membrane proteins. At this stage, secondary structure prediction programs are available to identify putative stretches of helical transmembrane domains (TMDs) while few programs are developed to predict a beta sheet fold as the membrane spanning motif. With the knowledge about the putative TMDs, here adopting a helical motif, at hand these TMDs can be assembled into a tertiary structure and finally into putative quaternary structures using docking approaches. As a test case, viral channel forming proteins (VCPs), sometimes also called viroporins, are used to develop strategies to generate plausible structures. VCPs are about five time smaller than human ion channels and therefore used as a miniaturized system to investigate how ion channels are formed. Using E5 protein of human papilloma virus type 16 (HPV-16), the assembly of a polytopic membrane protein with three TMDs is presented in its hexameric form. Using a docking approach, the monomeric form is generated first before assembling into the hexamer. The quality of the model is assessed using potential of mean force calculations (PMF) identifying weak ion selectivity. Principle component analysis (PCA) of the data from a classical molecular dynamics simulation reveal asymmetric dynamics of the monomers. These dynamics are compared with those derived for other VCPs such as polytopic p7 of hepatitis C virus (HCV) with two TMDs and bitopic M2 of influenza A. Finally, coarse grained simulations are applied to probe the formation of the quaternary structure of e.g., Vpu of HIV-1.