Complete genome sequence of bean rugose mosaic virus, genus Comovirus.

Since the first report in Costa Rica in 1971, bean rugose mosaic virus (BRMV) has been found in Colombia, El Salvador, Guatemala and Brazil. In this study, the complete genome sequence of a soybean isolate of BRMV from Paraná State, Brazil, was determined. The BRMV genome consists of two polyadenylated RNAs. RNA1 is 5909 nucleotides long and encodes a single polypeptide of 1856 amino acids (aa), with an estimated molecular weight of 210 kDa. The RNA1 polyprotein contains the polypeptides for viral replication and proteolytic processing. RNA2 is 3644 nucleotides long and codes for a single polypeptide of 1097 aa, containing the movement and coat proteins. This is the first complete genome sequence of BRMV. When compared with available aa sequences of comoviruses, the highest identities of BRMV coat proteins and proteinase polymerase were 57.5 and 58 %, respectively. These were below the 75 and 80 % identity limits, respectively, established for species demarcation in the genus. This confirms that BRMV is a member of a distinct species in the genus Comovirus.

Métodos diagnósticos para os patógenos alimentares: Campylobacter sp., Salmonella sp. e Listeria monocytogenes / Diagnostic methods for the food pathogens Campylobacter sp., Salmonella sp. and Listeria monocytogenes

Os métodos moleculares de detecção rápida e eficaz de lotes de aves infectados por bactérias como Salmonella sp. Campylobacter sp. e Listeria monocytogenes são importantes para reduzir a frequência da transmissão destes patógenos entre os lotes de aves e aos consumidores de produtos de origem animal. Recentemente, as técnicas de biologia molecular, em especial a reação em cadeia polimerase, que permite a amplificação específica de segmentos de DNA, têm possibilitado novos rumos na identificação de bactérias supracitadas, reduzindo o tempo de cultivo e ampliando a confiabilidade das provas diagnósticas. A utilização da biologia molecular por laboratórios de diagnóstico humano e animal, assim como em programas de controle de qualidade de alimentos e produtos de origem animal, já é realidade e tende a se expandir rapidamente. O objetivo deste artigo é fazer uma breve revisão dos testes diagnósticos convencionais e moleculares para identificar Campylobacter sp., Salmonella sp. e Listeria monocytogenes. Concluindo, o diagnóstico molecular é um campo em avanço científico e tecnológico, no qual novas técnicas moleculares estão em desenvolvimento para o diagnóstico de bactérias em alimentos.

The molecular methods for quick and efficient detection of chicken lots infected by bacteria such as Salmonella sp. Campylobacter sp. and Listeria monoytogenes is basic for the effort to reduce the frequency of the transmission between chicken lots and to the consumers of poultry products. Recently, the development of techniques involving molecular biology, especially polymerase chain reaction, which allows the specific enlargement of segments of DNA, has been making new procedures possible for the identification of the abovementioned bacteria, reducing the time necessary for the tests and enhancing the reliability of the resulting diagnoses. The use of molecular biology in laboratories for human and animal diagnosis, as well as in quality control programs for foods and products of animal origin is already a reality and has tended to expand quickly. The objective of this article is to present a brief review of the conventional diagnostic and molecular tests for the identification of Campylobacter sp., Salmonella sp. and Listeria monocytogenes. In conclusion, molecular diagnosis is a field undergoing scientific and technological advancement, in which new molecular techniques are under development for the diagnosis of bacteria in foods.