52 research outputs found
Quantum dot labelling of adenovirus allows for highly sensitive single cell flow and imaging cytometry
A quantum dot method for highly efficient labelling of single adenoviral particles is developed. The technique has no impact on viral fitness and allows the imaging and tracking of virus binding and internalisation events using a variety of techniques including imaging cytometry and confocal microscopy. The method is applied to characterise the tropism of different adenoviral vectors
Foot-and-mouth disease virus genome replication is unaffected by inhibition of type III phosphatidylinositol-4-kinases
Foot-and-mouth disease virus (FMDV) causes economically-damaging infections of cloven-hooved animals, with outbreaks resulting in large financial losses to the agricultural industry. Due to the highly contagious nature of FMDV, research with infectious virus is restricted to a limited number of key facilities worldwide. FMDV subgenomic replicons are therefore important tools for the study of viral translation and genome replication. The type III phosphatidylinositol-4-kinases (PI4K) are a family of enzymes that play a key role in the production of replication complexes (viral factories) of a number of positive-sense RNA viruses and represents a potential target for novel pan-viral therapeutics. Here, we have investigated whether type III PI4Ks also play a role in the FMDV lifecycle, using a combination of FMDV subgenomic replicons and bicistronic IRES-containing reporter plasmids. We have demonstrated that replication of the FMDV replicon was unaffected by inhibitors of either PI4KIIIα or PI4KIIIβ. However, PIK93, an inhibitor previously demonstrated to target PI4KIIIβ, did inhibit IRES-mediated protein translation. Consistent with this, cells transfected with FMDV replicons did not exhibit elevated levels of PI4P lipids. These results are therefore supportive of the hypothesis that FMDV genome replication does not require type III PI4K activity and does not activate these kinases
Dynamics in the murine norovirus capsid revealed by high-resolution cryo-EM
Icosahedral viral capsids must undergo conformational rearrangements to coordinate essential processes during the viral life cycle. Capturing such conformational flexibility has been technically challenging yet could be key for developing rational therapeutic agents to combat infections. Noroviruses are nonenveloped, icosahedral viruses of global importance to human health. They are a common cause of acute gastroenteritis, yet no vaccines or specific antiviral agents are available. Here, we use genetics and cryo-electron microscopy (cryo-EM) to study the high-resolution solution structures of murine norovirus as a model for human viruses. By comparing our 3 structures (at 2.9- to 3.1-Å resolution), we show that whilst there is little change to the shell domain of the capsid, the radiating protruding domains are flexible, adopting distinct states both independently and synchronously. In doing so, the capsids sample a range of conformational space, with implications for maintaining virion stability and infectivity
Employing transposon mutagenesis to investigate foot-and-mouth disease virus replication
Probing the molecular interactions within the foot-and-mouth disease virus (FMDV) RNA replication complex has been restricted in part to the lack of suitable reagents. Random insertional mutagenesis has proven an excellent method to reveal domains of proteins essential for viral replication as well as locations that can tolerate small genetic insertions. Such insertion sites can be subsequently adapted by the incorporation of commonly used epitope tags and so facilitate their detection with commercial available reagents. In this study, we use random transposon-mediated mutagenesis to produce a library of 15 nucleotide insertions in the FMDV nonstructural polyprotein. Using a replicon-based assay we isolated multiple replication-competent as well as replication-defective insertions. We have adapted the replication competent insertion sites for the successful incorporation of epitope tags within FMDV non-structural proteins, for the use in a variety of downstream assays. Additionally, we show that replication of some of the replication-defective insertion mutants can be rescued by co-transfection of a 'helper' replicon, demonstrating a novel use of random mutagenesis to identify inter-genomic trans-complementation. Both the epitope tags and replication-defective insertions identified here will be valuable tools for probing interactions within picornaviral replication complexes
The broad-spectrum antiviral drug arbidol inhibits foot-and-mouth disease virus genome replication
Arbidol (ARB, also known as umifenovir) is used clinically in several countries as an anti-influenza virus drug. ARB inhibits multiple enveloped viruses in vitro and the primary mode of action is inhibition of virus entry and/or fusion of viral membranes with intracellular endosomal membranes. ARB is also an effective inhibitor of non-enveloped poliovirus types 1 and 3. In the current report, we evaluate the antiviral potential of ARB against another picornavirus, foot-and-mouth disease virus (FMDV), a member of the genus Aphthovirus and an important veterinary pathogen. ARB inhibits the replication of FMDV RNA sub-genomic replicons. ARB inhibition of FMDV RNA replication is not a result of generalized inhibition of cellular uptake of cargo, such as transfected DNA, and ARB can be added to cells up to 3 h post-transfection of FMDV RNA replicons and still inhibit FMDV replication. ARB prevents the recovery of FMDV replication upon withdrawal of the replication inhibitor guanidine hydrochloride (GuHCl). Although restoration of FMDV replication is known to require de novo protein synthesis upon GuHCl removal, ARB does not suppress cellular translation or FMDV internal ribosome entry site (IRES)-driven translation. ARB also inhibits infection with the related Aphthovirus, equine rhinitis A virus (ERAV). Collectively, the data demonstrate that ARB can inhibit some non-enveloped picornaviruses. The data are consistent with inhibition of picornavirus genome replication, possibly via the disruption of intracellular membranes on which replication complexes are located
Expression of the murine norovirus (MNV) ORF1 polyprotein is sufficient to induce apoptosis in a virus-free cell model
Investigations into human norovirus infection, replication and pathogenesis, as well as the development of potential antiviral agents, have been restricted by the lack of a cell culture system for human norovirus. To date, the optimal cell culture surrogate virus model for studying human norovirus biology is the murine norovirus (MNV). In this report we generate a tetracycline-regulated, inducible eukaryotic cell system expressing the entire MNV ORF1 polyprotein. Once induced, the MNV ORF1 polyprotein was faithfully processed to the six mature non-structural proteins that predominately located to a discrete perinuclear region, as has been observed in active MNV infection. Furthermore, we found that expression of the ORF1 polyprotein alone was sufficient to induce apoptosis, characterised by caspase-9 activation and survivin down-regulation. This cell line provides a valuable new tool for studying MNV ORF1 non-structural protein function, screening for potential antiviral agents and acts as a proof-of-principle for such systems to be developed for human noroviruse
Analytical Methods for Characterizing High-Mass Complex Polydisperse Hydrocarbon Mixtures: An Overview
By attempting to define the principal chemical features and the complete ranges of molecular mass of the heavy ends of coal and petroleum derived liquids, this review aims to facilitate process development for improved utilization of heavy fractions (coal and biomass tars and pitches, petroleum asphaltenes and resids). Historically much heavy petroleum derived material has been used as cheap fuel or simply thrown away. With the rising cash-value of the “bottom of the barrel,” greater emphasis on the detailed chemistry of these materials has become an imperative.
This paper reviews analytical techniques used for estimating molecular mass distributions and structural features of complex polydispersed hydrocarbons, with masses above those identifiable by gas-chromatography (or GC-MS). The features of the least soluble – and usually large molecular mass - materials in complex mixtures are not generally observable by examination prior to the fractionation of (i.e. “whole”) complex samples. This has been observed even in cases where the “heavy” fraction accounts for about 50% of the total sample. The major approach reviewed covers the combined use of UV-fluorescence spectroscopy, size exclusion chromatography, mass spectroscopy and NMR-spectroscopy. This is preceded by a description and critical review of useful sample fractionation methods found in the literature.JRC.F.2-Cleaner energ
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