The genomic DNA of thirty strains of Aujeszky's disease virus (ADV) isolated in the South and Southeast regions of Brazil from 1982 to 1996 were characterized by restriction endonuclease analysis with BamHI. Twenty seven strains were isolated from pigs, 1 from cattle, 1 from cat and 1 from dog. Using a systematization previously described, the 30 ADV strains could be classified as genomic types I (n = 2) and II (n = 28). Genomic type III was not observed. In this first study of genomic type characterization of brazilian ADV strains, we could demonstrate the occurence in Brazil of the genomic types I and II, with a large predominance of genomic type II.
Suid herpesvirus 1 (SuHV-1) is the causative agent of Aujeszky's disease. The infectious agent has only one serotype, but it was classified by restriction enzyme analysis of the whole genome into four genotypes, named I to IV. The aim of this study was to standardize a rapid method for genotyping SuHV-1 without virus isolation, using a multiplex-PCR followed by enzymatic restriction analysis. The complete genome of the virus was analyzed in silico to determine the restriction sites for the enzyme BamHI. Primers were designed to flank sites with emphasis on certain points of differentiation of genotypes. The standard PCRs were able to detect the SuHV-1 and also to differentiate genotypes from brain tissue of infected pigs. The BamHI-PCR is a rapid, practical, and sensitive way to genotype SuHV-1.
Diagnosis and genotyping of pseudorabies virus by nested-PCR and restriction enzyme analysis RESUMO
A pseudoraiva (PR) é uma enfermidade viral responsável por consideráveis perdas econômicas na indústria de suínos. O vírus da pseudoraiva (PrV
ABSTRACT
Pseudorabies is a disease caused by Suid herpesvirus 1 (PrV) and is responsible for considerable economic losses in the swine industry. The PrV has only one serotype, but based on RFLP (restriction fragment length polymorphism) the virus was divided into four genotypes named I, II, III, IV. The classical methods for
RESUMOO objetivo deste trabalho foi desenvolver uma PCR em tempo real (qPCR) para o diagnóstico rápido e sensível da doença de Aujeszky. Os iniciadores amplificaram um fragmento de 123 pares de base do gene codificante da glicoproteína D. A qPCR foi testada em 25 amostras de cérebro de suíno positivas e 85 amostras negativas para DA no isolamento viral e na soroneutralização. A sensibilidade analítica foi calculada com acréscimo de um isolado brasileiro do SuHV-1 titulado em amostras de cérebro de suíno negativas na soroneutralização e na PCR. A técnica apresentou sensibilidade analítica de 10 -0,5 TCID50/50µL. A qPCR foi capaz de distinguir reações inespecíficas devido a dímero de oligonucleotídeos iniciadores ou amplificações, além do alvo designado (evitando, assim, os falsopositivos), e de obter resultados rápidos.
Palavras-chave: suínos, qPCR, validação, doença de Aujeszky
ABSTRACT
The aim of this study was to validate a low-cost real-time PCR for a quick and sensitive diagnosis of the
Aujeszky´s disease (AD) is an infectious disease causing important economic losses to the swine industry worldwide. The disease is caused by an alpha-herpesvirus, Aujeszky´s disease virus (ADV), an enveloped virus with a double stranded linear DNA genome. The ADV genome encodes 11 glycoproteins, which are major targets for the immune system of the host in response to the infection. The glycoprotein E (gE) is a nonessential protein and deletion of the gE gene has been used for the production of marker vaccines. Aiming to develop molecular reagents for the production of a gE specific ELISA test, the gE gene was amplified by PCR, cloned and expressed into a baculovirus expression system. The recombinant DNA vector pFastBac-gE_ADV was used for site-specific transposition into the recombinant baculovirus (bacmid). Colonies with recombinant bacmid_pFastBac-gE_ADV were selected by antibiotic and color selection and the presence of the gE gene was confirmed by PCR. The recombinant bacmid_pFastBac-gE_ADV was cotransfected in insect Trichoplusia ni and the presence of the recombinant DNA and gE protein were detected by PCR, SDS-PAGE and Western blotting, respectively.
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