Influenza A virus neuraminidase (NA), a type II transmembrane glycoprotein plays a role in the cleavage of sialic acids and facilitating the release of mature virions from the surface of infected cells. NA has also previously been shown to play a role in virion formation during influenza A virus budding, although the exact mechanisms by which NA contributes to influenza virion formation and morphology is currently unknown. Previous research has shown that mutations within the transmembrane domain (TMD) of NA can result in alteration in virion morphology, particularly in the production of filament like influenza virions. In this research project we examined if the TMD does indeed play a role in influenza virus budding and morphology. We utilised both full and partial mutations of the TMD of NA from A/WSN/33, a primarily spherical lab adapted influenza strain, with the TMD of a primarily filamentous strain A/California/09. To evaluate the effects of TMD on the morphology of a primarily spherical strain with that of filamentous strain. This study used a transfection based virus like particle (VLP) system to examine the effects of TMD alterations on morphology, utilising various biochemical and microscopy methods. Our findings show that as previously indicated mutations within the TMD do result in alterations to virion morphology, as well as showing that despite previous theories both NA and NAβs TMD may play a more active role in in budding and morphology than previously though
