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Characterization of the diversity of Haemophilus parasuis field isolates by use of serotyping and genotyping

Simone OliveiraDepartment of Clinical and Population Sciences, University of Minnesota, Saint Paul, MN 55108.

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 DVM, MS
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P. J. BlackallAgency for Food and Fibre Sciences, Department of Primary Industries, Animal Research Institute, Yeerongpilly, Queensland 4105, Australia.

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 PhD
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Carlos PijoanDepartment of Clinical and Population Sciences, University of Minnesota, Saint Paul, MN 55108.

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 DVM, PhD

Abstract

Objective—To characterize the genetic diversity of Haemophilus parasuis field isolates with regard to serovar, herd of origin, and site of isolation.

Sample population—Isolates of H parasuis obtained from pigs in 15 North American herds and multi-farm systems.

Procedure—98 H parasuis isolates were genotyped with the enterobacterial repetitive intergeneic consensus based-polymerase chain reaction (ERIC-PCR) technique and serotyped via agar gel precipitation test. Genomic fingerprints were analyzed and dendrograms were constructed to identify strains from the same serovar group, herd of origin, or isolation site and to evaluate the genetic variability within these categories.

Results—Serovar 4 (39%) and nontypeable (NT) isolates (27%) were most prevalent. Thirty-four distinct strains were identified among the 98 isolates, using a 90% similarity cutoff. Strains from serovar 4 and NT isolates had high genetic diversity (12 and 18 strains, respectively). One to 3 major clusters of prevalent strains could be identified in most of the evaluated herds. Haemophilus parasuis strains isolated from the upper respiratory tract were either serovar 3 or NT isolates. Potentially virulent strains (isolated from systemic sites) were either serovars 1, 2, 4, 5, 12, 13, or 14, or NT isolates.

Conclusions and Clinical Relevance—Although H parasuis had high genetic diversity overall, only a few strains caused disease in these herds. The ERIC-PCR technique was more discriminative than serotyping, and a broad genetic variety was observed within particular serovar groups. (Am J Vet Res 2003; 64:435–442)

Abstract

Objective—To characterize the genetic diversity of Haemophilus parasuis field isolates with regard to serovar, herd of origin, and site of isolation.

Sample population—Isolates of H parasuis obtained from pigs in 15 North American herds and multi-farm systems.

Procedure—98 H parasuis isolates were genotyped with the enterobacterial repetitive intergeneic consensus based-polymerase chain reaction (ERIC-PCR) technique and serotyped via agar gel precipitation test. Genomic fingerprints were analyzed and dendrograms were constructed to identify strains from the same serovar group, herd of origin, or isolation site and to evaluate the genetic variability within these categories.

Results—Serovar 4 (39%) and nontypeable (NT) isolates (27%) were most prevalent. Thirty-four distinct strains were identified among the 98 isolates, using a 90% similarity cutoff. Strains from serovar 4 and NT isolates had high genetic diversity (12 and 18 strains, respectively). One to 3 major clusters of prevalent strains could be identified in most of the evaluated herds. Haemophilus parasuis strains isolated from the upper respiratory tract were either serovar 3 or NT isolates. Potentially virulent strains (isolated from systemic sites) were either serovars 1, 2, 4, 5, 12, 13, or 14, or NT isolates.

Conclusions and Clinical Relevance—Although H parasuis had high genetic diversity overall, only a few strains caused disease in these herds. The ERIC-PCR technique was more discriminative than serotyping, and a broad genetic variety was observed within particular serovar groups. (Am J Vet Res 2003; 64:435–442)