D. M. Coates scite author profile

D. M. Coates

5Publications

69Citation Statements Received

54Citation Statements Given

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Affiliations

University of Bradford, University of Birmingham, Defence Science and Technology Laboratory

Publications

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Severity of Fever in Influenza: Differential Pyrogenicity in Ferrets Exhibited by H1N1 and H3N2 Strains of Differing Virulence

Coates

Sweet

Smith

1986

Journal of General Virology

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SUMMARYIntracardial inoculation of large quantities (200 ~g viral protein/kg body weight) of infectious or u.v.-inactivated purified influenza viruses into ferrets resulted in a rapid febrile response which was significantly lower for two recently isolated H 1N 1 viruses, A/USSR/90/77 and A/Fiji/15899/83, than for two virulent clones, 7a and 64c, of the A/Puerto Rico/8/34 A/England/939/69 (H3N2) reassortant virus system. These results, which are in accord with the severity of fever produced by these strains in intranasally infected ferrets, show that influenza virus strains can differ in their capacity to induce fever (probably reflecting a differential capacity to induce endogenous pyrogen from phagocytes) and indicate, since u.v.-inactivated strains are pyrogenic, that this may be due to differences between strains in the nature or amount of certain virion components.

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Genetic targets for the detection and identification of Venezuelan equine encephalitis viruses

1998

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Rt-PCR probes targeted to different gene sequences of VEE (Venezuelan equine encephalitis) virus strain TC-83 were assessed for their sensitivity, specificity and non-specific cross-reactivity. A generic VEE virus amplimer (VNSP4F2/VNSP4R2), targeted against nsP4 was identified, which was sensitive (detected at least 10 pfu) and robust (worked over a wide range of salt concentrations and annealing temperatures). An E2 amplimer designed against TC-83, (VE2F/VE2R), identified VEE strains TRD (1AB), P676 (1C), 3880 (1D) Everglades (2) vRNA whilst a second E2 primer pair designed against strain 68U201, (68UF/68UR), identified all the remaining VEE viruses in the sero-complex. This would suggest that the VEE virus E2 gene can be sub-divided at the genetic level into two separate groups making it a useful target for differentiation of serosubtypes 1 and 2 from the other VEE virus subtypes. Using a panel of amplimers targeted to different VEE genes and strains it was possible to distinguish between most of the serotypes, but most importantly, we were able to detect the epizootic strains TRD and P676 as well as other VEE viruses implicated in human disease (sero-subtypes 1D and 1E).

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Severity of Fever in Influenza: Studies on the Relation between Viral Surface Antigens, Pyrexia, Level of Nasal Virus and Inflammatory Response in the Ferret

Coates

Sweet

Quarles

et al. 1985

Journal of General Virology

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SUMMARYPrevious work has shown that fever in influenza of ferrets occurs following release of endogenous pyrogen from virus-phagocyte interaction in the upper respiratory tract (URT), and suggested that the poor inflammatory response and correspondingly low fever elicited by A/Puerto Rico/8/34 (H 1N 1), compared with H3N2 reassortant clones of A/Puerto Rico/8/34-A/England/939/69, were related to its H1 and N1 surface antigens. Nasal virus levels, inflammatory and pyrexial responses produced in ferrets by clones 31 (H3N1) and 64b (H1N2) of the same reassortant system suggested a connection between the H1 antigen and low inflammatory response, but results were not conclusive. Unlike A/Puerto Rico/8/34, two recent H 1N 1 isolates, A/USSR/90/77 and A/Fiji/15899/83, produced a" high inflammatory response yet low fever despite large amounts of virus in the URT, suggesting that either no connection exists between the acquisition of the H 1 antigen and production of a low inflammatory response, or the HI antigen of recent isolates, whilst antigenically related to that of A/Puerto Rico/8/34, is biologically different.

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Isolation of Single-Chain Antibody Fragments Against Venezuelan Equine Encephalomyelitis Virus from Two Different Immune Sources

2001

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Venezuelan equine encephalomyelitis (VEE) virus is an important human and veterinary pathogen of Central and South America. The virus can cause widespread epidemics, affecting hundreds of thousands of horses, and thousands of humans. Detection of the virus early in infection and in mosquito populations may allow epidemics to be predicted such that suitable prophylaxis, such as vaccination, can be used to reduce disease severity and transmission. The sensitivity and specificity of current immunoassays, based on conventional monoclonal and polyclonal antibodies, needs to be improved for the diagnosis of infection. We have examined phage display libraries expressing single-chain antibodies (scFv) produced from two different immune sources, a hybridoma cell line and an immunized mouse spleen. The libraries were panned against VEE virus to select for specific scFvs. scFvs isolated from both libraries were specific for the same epitope on the VEE virus and sequence analysis showed that the scFvs were almost identical apart from the CDR3 region of the heavy chain. The data presented in this article suggest that although scFvs may be useful tools for the detection of viruses, there are serious limitations with the use of phage display as a tool for the isolation of specific antibodies.

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Studies on the pathogenicity of a nairovirus, Dugbe virus, in normal and immunosuppressed mice

Coates

Sweet

1990

Journal of General Virology

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D. M. Coates

Severity of Fever in Influenza: Differential Pyrogenicity in Ferrets Exhibited by H1N1 and H3N2 Strains of Differing Virulence

Genetic targets for the detection and identification of Venezuelan equine encephalitis viruses

Severity of Fever in Influenza: Studies on the Relation between Viral Surface Antigens, Pyrexia, Level of Nasal Virus and Inflammatory Response in the Ferret

Isolation of Single-Chain Antibody Fragments Against Venezuelan Equine Encephalomyelitis Virus from Two Different Immune Sources

Studies on the pathogenicity of a nairovirus, Dugbe virus, in normal and immunosuppressed mice

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