Mutagenesis and virus blocking studies on virus-receptor interactions of Coxsackievirus A9

Williams, Cigdem Hayat

January 2002

No description available.

579

Virology; Viral infection cycle

Properties of recombinant HIV and SIV antigens

Jowett, Jeremy Bryan Mark

January 1992

When expressed in Spodoptera frugiperda cells using recombinant baculoviruses, the HIV - 1 gag gene product, p55, self assembles to form immature HIV core like particles that are secreted into the culture medium. Using this system, the gag open reading frame was progressively truncated from the carboxy terminus, and each deleted Gag protein examined for its ability to produce core like particles. Deletions that removed the distal region of the Gag nucleocapsid domain, including both Cys - His motifs thought to function as RNA capture signals, did not disrupt particle formation. Analysis of the truncation mutants by north - western blot with a radiolabelled HIV - 1 RNA encapsidation signal, confirmed that only precursors with the Cys - His motif present were able to bind the probe. It was concluded that HIV - 1 Gag particle formation per se does not require RNA encapsidation. This finding clarifies uncertainties proposed previously regarding the role of RNA encapsidation in particle assembly. Further deletion mutants led to the delineation of the carboxy terminal boundary of a Gag assembly domain. Properties of the SIV env encoded TM glycoprotein were also explored. Previous reports have found that the cytoplasmic tail of this membrane spanning protein was preferentially deleted in vivo when SIV was grown in a variety of cultured human cells. However, when propagated in cells of simian origin, the TM glycoprotein cytoplasmic tail was retained. Analysis of the function of this domain was addressed by expression of both the truncated and the full length proteins in insect cells using recombinant baculoviruses, coupled with a study of their biochemical characteristics. A role for the cytoplasmic tail was identified in the post - translational modification and localization of the glycoprotein. The use of the Gag particles in designing vaccines was investigated. Acting as non - infectious carriers of immunogenic antigens, the particles represent a safe and efficient means for presentation of epitopes for eliciting a protective immune response. Two possible approaches for loading the particles with foreign antigen were examined. In the first, the deleted portion of Gag was replaced with a sequence encoding the foreign antigen. The second method involved co - expression of Gag with another recombinant virus that expressed a foreign antigen on the surface of the cell. Both methods were found to be feasible, although limitations were identified when addition of the fusion protein promoted excess degradation of the Gag precursor.

579

Viral antigens : HIV (Viruses)

Modelling Insect Cell-Baculovirus Dynamics

Rosinski, Matthew

Unknown Date

Minimising the time from 'scientific breakthrough'to clinical trial of a 'drug candidate' protein is a critical component leading to a successful product release. Crystallographic characterisation has become a standard requirement prior to clinical trial requiring milligram quantities of protein. The optimisation of protein expression systems is therefore of great commercial and social importance and represents a significant technical challenge. Without it, making enough protein for crystallography can quite literally take years. Baculoviral expression of recombinant protein by infection of an insect cell host is a well established technique in modern biotechnology. Although a limit to recombinant protein production in batch culture exists the mechanism has not been demonstrated. In particular, there has been no discussion of how biomass accumulation kinetics relate to the system limits in terms of final recombinant protein yield. The central aim of this thesis was therefore to quantitatively account for the dynamic behaviour in macromolecular compartments after baculovirus infection of insect cells, the rationale being that a rudimentary level of mechanistic structure can greatly enhance our ability to capture transient behaviour. The catalytic mass dictates the rate of total biomass accumulation in the baculovirus expression vector system (BEVS) and is directly proportional to the total RNA content of both baculovirus infected and uninfected Sf9 cells. During infection the total RNA concentration reaches a catalytic limit causing a switch from exponential to zero order mass accumulation kinetics. Importantly, this extends to individual cells as confirmed using a population balance model for the cell volume distribution after the switch to linear growth. By flow cytometry, a positive correlation between RNA content and cell size post infection validated this modelling assumption. The rate of mass accumulation slows down during the first 12 hours post infection (hpi). This is consistent with the decrease in both specific consumption rates of glucose and oxygen when using cell mass rather than cell number as a basis. A decrease in the geometric standard deviation (óg) of the cell volume distribution during the first 12 hpi indicates that cells enter the lower growth rate at times inversely proportional to their volume. Using several approaches no obvious biological mechanism to account for the empirical model was identified. The use of óg kinetics provides a novel tool for characterising the relative behaviour of infected cells in the BEVS. The effect of multiplicity of infection (MOI) on virus timing events between cultures was also tested. Little or no effect of MOI was observed on the timing of virus induced events during synchronous infections. The óg kinetics did indicate virus events occur 5 hours earlier at a MOI of 100 compared to a MOI of 20 plaque forming units per cell. There was however, no significant evidence of earlier death kinetics when measured using Trypan blue dye exclusion to measure cell membrane integrity. Virtually no effect of MOI on virus timing was observed using â-galactosidase production profiles. The viral DNA mass (vDNA) was measured using real time quantitative PCR (RTQ PCR) and has a doubling time of 2 hours. A vDNA template limited replication model fit the data well. Viral replication proceeds from 6 until 24 hpi with the average infected cell accumulating between 12 000 and 84 000 vDNA copies when replication stops. In theory, a dynamic equilibrium could have been present after the commencement of virus budding but this was not the case. At least 62% of the total DNA increase post infection is viral. No more than 16% of the total vDNA produced actually bud from the infected cell. This overproduction of vDNA is probably due to the wild type history of the virus, which normally occludes virions in a crystalline polyhedrin matrix within the cell nucleus as part of its life cycle. The approach taken here provides a framework for characterisation of both viral and total mass accumulation with the use of a few simple intracellular macromolecular pools. This thesis demonstrates that the BEVS limit in batch culture is not simply a result of the exhaustion of an amino acid using a case study of amino acid consumption by uninfected Sf9 cells for a 300 hour culture period. Future attempts to identify the system limits and will require the linkage of a mechanistic model with a more extensive and accurate analysis of important metabolites and specific intracellular species.

Crystallography

recombinant protein

baculovirus

viral

Molecular epidemiology of human coronavirus OC43 in Hong Kong /

Lee, Paul,

January 2007

Thesis (M. Med. Sc.)--University of Hong Kong, 2007.

Gene expression and subgenomic RNAs of cucumber mosaic virus /

Gordon, Karl H. J.

January 1983

Thesis (Ph. D.)--University of Adelaide, 1984. / Includes bibliographical references (10 unnumbered leaves ).

Cucumber mosaic virus. Viral genetics.

Studies on transmission and immune responses of the human hepaciviruses /

Chen, Margaret,

January 1900

Diss. (sammanfattning) Stockholm : Karol. inst. / Härtill 8 uppsatser.

Molecular studies of the hepatitis C virus : the role of IRES activity for therapy response, and the impact of the non-structural protein NS4B on the viral proliferation /

Lindström, Hannah Kim,

January 2006

Diss. (sammanfattning) Stockholm : Karolinska institutet, 2006. / Härtill 4 uppsatser.

Viral marketing : potential and pitfalls /

Bryce, Michael

January 1900

Zugl.: Mittweida, Hochsch., Diplomarbeit, 2004. / Includes bibliographical references.

Theiler's murine encephalomyelitis protein 2C and its effect on membrane trafficking /

Moës, Elien.

January 2008

Thesis (Ph.D.) - University of St Andrews, May 2008.

A probabilistic model of virus transport through packed beds

Shah, Jayesh R.

January 1989

Thesis (M.S.)--Ohio University, November, 1989. / Title from PDF t.p.