ABSTRACT
Group A human rotaviruses (HuRVA) are causative agents of acute gastroenteritis. Six viral structural proteins (VPs) and six nonstructural proteins (NSPs) are produced in RV-infected cells. NSP4 is a diarrhoea-inducing viral enterotoxin and NSP4 gene analysis revealed at least 15 (E1-E15) genotypes. This study analysed the NSP4 genetic diversity of HuRVA G2P[4] strains collected in the state of São Paulo (SP) from 1994 and 2006-2010 using reverse transcription-polymerase chain reaction, sequencing and phylogenetic analysis. Forty (97.6%) G2P[4] strains displayed genotype E2; one strain (2.4%) displayed genotype E1. These results are consistent with the proposed linkage between VP4/VP7 (G2P[4]) and the NSP4 (E2) genotype of HuRVA. NSP4 phylogenetic analysis showed distinct clusters, with grouping of most strains by their genotype and collection year, and most strains from SP were clustered together with strains from other Brazilian states. A deduced amino acid sequence alignment for E2 showed many variations in the C-terminal region, including the VP4-binding domain. Considering the ability of NSP4 to generate host immunity, monitoring NSP4 variations, along with those in the VP4 or VP7 protein, is important for evaluating the circulation and pathogenesis of RV. Finally, the presence of one G2P[4]E1 strain reinforces the idea that new genotype combinations emerge through reassortment and independent segregation.
Subject(s)
Adult , Child , Humans , Antigens, Viral/isolation & purification , Glycoproteins/genetics , RNA, Viral/genetics , Rotavirus/genetics , Toxins, Biological/genetics , Viral Nonstructural Proteins/genetics , Amino Acid Sequence , Base Sequence , Brazil , Feces/virology , Genetic Variation , Genotype , Genetic Linkage/genetics , Immunoenzyme Techniques , Molecular Sequence Data , Phylogeny , Reverse Transcriptase Polymerase Chain Reaction , RNA, Viral/isolation & purification , Rotavirus/classification , Rotavirus/immunology , Sequence AlignmentABSTRACT
Identification of Escherichia coli requires knowledge regarding the prevalent serotypes and virulence factors profiles allows the classification in pathogenic/non-pathogenic. However, some of these bacteria do not express flagellar antigen invitro. In this case the PCR-restriction fragment length polymorphism (RFLP-PCR) and sequencing of the fliC may be suitable for the identification of antigens by replacing the traditional serology. We studied 17 samples of E. coli isolated from animals and presenting antigen H nontypeable (HNT). The H antigens were characterized by PCR-RFLP and sequencing of fliC gene. Three new flagellin genes were identified, for which specific antisera were obtained. The PCR-RFLP was shown to be faster than the serotyping H antigen in E. coli, provided information on some characteristics of these antigens and indicated the presence of new genes fliC.
A identificação da Escherichia coli requer conhecimento sobre os sorotipos e fatores de virulência prevalentes permitindo a classificação em patogênico/não patogênico. No entanto, algumas destas bactérias não expressam o antígeno flagelar in vitro. Neste caso, o PCR-restriction fragment length polymorphism (RFLP-PCR) e o sequenciamento do gene fliC podem ser adequados para a identificação desses antígenos, substituindo a sorologia tradicional. Nesta pesquisa foram estudadas 17 amostras de E. coli isoladas de animais e que apresentavam antígeno H não tipável (HNT). Os antígenos H foram caracterizados por PCR-RFLP e sequenciamento do gene fliC. Três novos genes da flagelina foram identificados, para os quais anti-soros específicos foram obtidos. A técnica PCR-RFLP mostrou-se mais rápida que a sorotipagem do antígeno H em E. coli, fornecendo informações sobre algumas características desses antígenos e indicou a presença de novos genes fliC.