Chung S. Park scite author profile

Chung S. Park

3Publications

93Citation Statements Received

9Citation Statements Given

How they've been cited

140

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Affiliations

Washington University Medical Center, Mallinckrodt (United States), John Cochran VA Medical Center

Publications

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Antigenic and Genomic Diversity within Group A Respiratory Syncytial Virus

Storch

Anderson

Park

et al. 1991

Journal of Infectious Diseases

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Antigenic analysis using monoclonal antibodies and genomic analysis using ribonuclease protection was done on 47 isolates of group A respiratory syncytial virus (RSV) recovered from children in St. Louis during four RSV seasons. Antigenic analysis identified four subgroups; of the three that included more than one member, those designated A/2 and A/2V had characteristic ribonuclease protection patterns. A third subgroup, A/4, exhibited more extensive genomic heterogeneity, but all isolates were distinguishable from those in subgroups A/2 and A/2V. Individual RSV epidemic seasons included isolates representing multiple subgroups of group A and multiple intrasubgroup variants, in addition to isolates from group B. Isolates that were indistinguishable by either antigenic or genomic analysis were present in more than one epidemic season. The subgroups may represent parallel evolutionary lineages, whose relevance to RSV immunity and pathogenesis requires further study.

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Monoclonal antibodies demonstrate heterogeneity in the G glycoprotein of prototype strains and clinical isolates of respiratory syncytial virus

Storch

Park

1987

Journal of Medical Virology

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In order to study variation among prototype strains and clinical isolates of respiratory syncytial (RS) virus, four prototype strains (Long, A2, CH18537, 9320) were used to produce monoclonal antibodies to this virus. The majority of monoclonals reacted with all four prototype strains by fluorescent antibody staining. Among the non-cross-reacting monoclonals, five additional patterns of reactivity with the prototype strains were recognized. Fourteen monoclonals, including ones representative of each of the patterns of reactivity with the prototype strains, were selected to use for typing prototype strains and community isolates. All 14 were found by immunoprecipitation to recognize the RS virus G glycoprotein. These monoclonals could uniquely identify each of the prototype strains. In addition to the antigenic differences among the prototype strains detected by the monoclonals, differences were also detected in the migration of the G glycoprotein of the prototype strains in polyacrylamide gel electrophoresis. Fluorescent antibody staining with panels of monoclonals distinguished two antigenic types among 114 isolates of RS virus recovered from children in St. Louis during the period 1981-86. The predominant type (80% of isolates) had a pattern of reactivity that resembled but differed from that of either the Long or A2 strains. The second type had a pattern of reactivity identical with that of 9320. The possible significance of this heterogeneity must be considered in developing diagnostic tests as well as active or passive immunotherapy for infections caused by RS virus.

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Genetic variability in envelope-associated protein genes of closely related group A strains of respiratory syncytial virus

et al. 1999

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Chung S. Park

Antigenic and Genomic Diversity within Group A Respiratory Syncytial Virus

Monoclonal antibodies demonstrate heterogeneity in the G glycoprotein of prototype strains and clinical isolates of respiratory syncytial virus

Genetic variability in envelope-associated protein genes of closely related group A strains of respiratory syncytial virus

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