Isolamento de Vibrio spp de camarões comercializados in natura na cidade de São Gonçalo - RJ / Isolation of Vibrio spp from shrimp commercialized in natura in the city of Sao Gonçalo - RJ

Bactérias do gênero Vibrio fazem parte da microbiota de camarões, pois têm capacidade de associar-se à quitina presente no exoesqueleto destes animais e ao zooplancton, que por sua vez são consumidos por estes animais. O gênero contém pelo menos 12 espécies patogênicas, incluindo V. cholerae, responsável por várias pandemias de cólera. A contaminação humana acontece através do consumo de alimentos, principalmente de origem marinha, crus ou mal cozidos. Por se tratar de um tipo de pescado amplamente consumido pela população, este trabalho teve como objetivo investigar a presença de espécies de Vibrio em camarões comercializados in natura na cidade de São Gonçalo-RJ. Os camarões foram adquiridos em duas peixarias da cidade e caracterizados por metodologia convencional e molecular; cento e vinte e nove amostras testaram positivamente para as provas bioquímicas realizadas e, destas, cinquenta e duas testaram positivamente para os testes moleculares. Visando investigar a identidade das espécies de Vibrio, as amostras foram submetidas ao PCR multiplex para 4 espécies (V. cholerae, V. mimicus, V. parahaemolyticus, V. vulnificus). Doze isolados foram identificados como V. parahaemolyticus e 9 como V.cholerae não O1. Dentre os demais isolados, 31 demonstram se tratar de outras espécies de Vibrio spp. O sítio com o maior número de isolados foi a casca, seguida pelo hepatopâncreas/ hemolinfa. A ribotipagem por PCR das 21 cepas demonstrou claramente a separação das cepas de V.parahaemolyticus e V.cholerae. As cepas de V. cholerae e V. parahaemolyticus demonstraram alto índice de resistência a ampicilina (83,33%) e 100% de sensibilidade à nitroflurantoína e tetraciclina. Sete cepas (38,8%) apresentaram perfil de multirresistência a dois antimicrobianos. Nossos resultados demonstram a presença de espécies patogênicas de Vibrio em amostras de pescados amplamente consumidos pela população.

Molecular variations in Vibrio alginolyticus and V. harveyi in shrimp-farming systems upon stress

A study was performed to investigate the genomic variations in the shrimp farm isolates of Vibrio alginolyticus and V. harveyi when the isolates were subjected to environmental stress. Samples of shrimps, water and sediment were collected from Southern Indian coastal shrimp farms. Vibrio isolates were biochemically identified and confirmed using 16S rDNA and gyrB gene specific PCR. The bacterial strains were genotyped by PCR fingerprinting using GTG(5) and IS (Insertion Sequence) primers. Seven strains each of V. alginolyticus and V. harveyi were subjected to 10 passages through trypticase soya broth (TSB), which contained different NaCl concentrations (3, 6 and 8%) and trypticase soya agar (TSA). V. alginolyticus was also passaged through TSB with a 12% NaCl concentration. PCR fingerprinting, which was performed on the strains that were passaged through different salt concentrations, confirmed that V. alginolyticus and V. harveyi could affect the genomic variations, depending on the environmental conditions of the culture. The study highlights the complex genotypic variations that occur in Vibrio strains of tropical aquatic environment because of varied environmental conditions, which result in genetic divergence and/or probable convergence. Such genetic divergence and/or convergence can lead to the organismal adaptive variation, which results in their ability to cause a productive infection in aquatic organisms or generation of new strains.

Effect of combined function of temperature and water activity on the growth of Vibrio harveyi

Vibrio harveyi is considered as a causative agent of the systemic disease, vibriosis, which occurs in many biological fields. The effects of temperatures (12.9-27.1 ºC) and water activity (NaCl% 0.6%-3.4%) on V. harveyi were investigated. The behavior and growth characteristics of V. harveyi was studied and modeled. Growth curves were fitted by using Gompertz and Baranyi models, and the Baranyi model showed a better fittness. Then, the maximum growth rates (µmax) and lag phase durations (LPD, λ) obtained from both Gompertz and Baranyi model were modeled as a combination function of temperature and water activity using the response surface and Arrhenius-Davey models for secondary model. The value of r², MSE, bias and accuracy factor suggest Baranyi model has better fitness than Gompertz model. Furthermore, validation of the developed models with independent data from ComBase also shown better interrelationship between observed and predicted growth parameter when using Baranyi model.

Population dynamics of vibrio species in the river Narmada at Jabalpur.

Several studies on the presence and ecology of various Vibrio sp have been reported in coastal and estuarine waters throughout the world, but there is trifling information available on the distribution of this organism of colossal pathogenic potential in the fresh water riverine environment. Thus, we conducted a multiyearenvironmental study to scrutinize the occurrence of members of genus Vibrio in the largest west flowing river of the Indian subcontinent, which is also the largest river of central India, the Narmada. Statistical analysis was done to reveal major environmental factors controlling the presence of Vibrio sp in the river Narmada. Monthly field samplings were conducted between January 2002 and December 2003 at four different sites in Jabalpur (MP), India. At each site, water samples were taken and physicochemical and bacteriological parameters were measured. The identity of the isolates was confirmed by employing 16S rRNA analysis. The organisms were found to be widely distributed in the river with regular seasonal variations. The density of Vibrio was found to be correlated with temperature, coliforms and other heterotrophic bacteria. Water temperature accounted for most of the variability in the concentration of Vibrio spAs typical fecal pollution indicators may not access public health risk from potential pathogens such as vibrios, hence special monitoring programme for vibrios may adequately be included in the water quality management.