"Human immunodeficiency virus (HIV) and influenza virus are membrane-enveloped viruses causing acquired immunodeficiency syndrome (AIDS) and flu. The initial step of HIV and influenza virus infection is fusion between viral and host cell membrane catalyzed by the viral fusion protein gp41 and hemagglutinin (HA) respectively. However, the structure of gp41 and HA as well as the infection mechanism are still not fully understood. This work addresses (1) full length gp41 ectodomain and TM domain structure and function and (2) IFP membrane location and IFP-membrane interaction. My studies of gp41 protein and IFP can provide better understanding of the membrane fusion mechanism and may aid development of anti-viral therapeutics and vaccine. The full length ectodomain and transmembrane domain of gp41 and shorter constructs were expressed, purified and solubilized at physiology conditions. The constructs adopt overall a helical structure in SDS and DPC detergents, and showed hyperthermostability with Tm > 90 °C. The oligomeric states of these proteins vary in different detergent buffer: predominant trimer for all constructs and some hexamer fraction for HM and HM_TM protein in SDS at pH 7.4; and mixtures of monomer, trimer, and higher-order oligomer protein in DPC at pH 4.0 and 7.4. Substantial protein-induced vesicle fusion was observed, including fusion of neutral vesicles at neutral pH, which are the conditions similar HIV/cell fusion. Vesicle fusion by a gp41 ectodomain construct has rarely been observed under these conditions, and is aided by inclusion of both the FP and TM, and by protein which is predominantly trimer rather than monomer. Current data was integrated with existing data, and a structural model was proposed. Secondary structure and conformation of IFP is a helix-turn-helix structure in membrane. However, there has been arguments about the IFP membrane location. 13C2H REDOR solid-state NMR is used to solve this problem. The IFP adopts major a helical, minor b strand secondary structure in PC/PG membrane. The a helical IFP's with respectively 13CO labeled Leu-2, Ala-7 and Gly-16 all show close contacts with the lipid acyl chain tail, suggesting IFP has strong interaction with the membrane. By screening the current IFP topology models, it either has a membrane-spanning confirmation, or it promotes lipid trail protrusion. IFP bounded lipid membrane structure was studied by paramagnetic relaxation enhancement (PRE) solid-state NMR to provide more information about the detailed IFP membrane location model. The T2 relaxation time and rate were measured for membrane with or without IFP and with or without Mn2+. Based on the results, it is concluded that IFP does not promote lipid protrusion at both gel phase and liquid phase, which is evidenced by that the R2 difference with and without Mn2+ is smaller for IFP free membrane than IFP bounded membrane, meaning IFP does not induce a smaller average distance between lipid acyl chain and aqueous layer. By integrating these results, a IFP membrane spanning model was proposed, in which IFP N-terminal helix adopts a 45° angle with respect to membrane normal."--Pages ii-iii.
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