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Differentiation of Erysipelothrix rhusiopathiae strains by nucleotide sequence analysis of a hypervariable region in the spaA gene: discrimination of a live vaccine strain from field isolates

Correspondence: ¹Corresponding Author: Shinya Nagai, Nippon Institute for Biological Science, 9-2221-1 Shin-machi, Ome, Tokyo 198-0023, Japan, e-mail: snagai{at}nibs.or.jp

Erysipelothrix rhusiopathiae causes erysipelas in swine and is considered a reemerging disease contributing substantially to economic losses in the swine industry. Since an attenuated live vaccine was commercialized in 1974 in Japan, outbreaks of acute septicemia or subacute urticaria of erysipelas have decreased dramatically. In contrast, a chronic form of erysipelas found during meat inspections in slaughterhouses has been increasing. In this study, a new strain-typing method was developed based on nucleotide sequencing of a hypervariable region in the surface protective antigen (spaA) gene for discrimination of the live vaccine strain from field isolates. Sixteen strains isolated from arthritic lesions found in slaughtered pigs were segregated into 4 major patterns: 1) identical nucleotide sequence with the vaccine strain: 3 isolates; 2) 1 nucleotide substitution (C to A) at position 555: 5 isolates; 3) 1 nucleotide substitution at various positions: 5 isolates; and 4) 2 nucleotide substitutions: 3 isolates. Isolates with the same nucleotide sequence as the vaccine strain were further characterized by other properties, including the mouse pathogenicity test. One strain isolated from pigs on a farm where the live vaccine had been used was found to be closely related to the vaccine strain. The phylogenetic tree constructed based on the spaA sequence suggests that the evolutionary distance of the isolates is related to the pathogenicity in mice. The new strain-typing system based on nucleotide sequencing of the spaA region is useful to discriminate the vaccine strain from field isolates.

Key Words: Differentiation • Erysipelothrix rhusiopathiae • live vaccine • spaA • strain typing

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				H. To, T. Koyama, S. Nagai, K. Tuchiya, and T. Nunoya Development of quantitative real-time polymerase chain reaction for detection of and discrimination between Erysipelothrix rhusiopathiae and other Erysipelothrix species J Vet Diagn Invest, September 1, 2009; 21(5): 701 - 706. [Abstract] [Full Text] [PDF]