Antagonistic effects of Pseudomonas fluorescens, P. aeruginosa and P. putida were studied against 12 strains of Aeromonas hydrophila (Ah1-Ah12). Four different fractions of cellular component (i.e. whole cell product, heat killed whole cell product, intra cellular product and extra cellular product) of all Pseudomonas species were equally effective in reducing growth of A. hydrophila strains, as measured by the zone of inhibition in an in vitro sensitivity test and have potential action against A. hydrophila infection in fishes. D
Vibrio parahaemolyticus, an important pathogen of freshwater prawn, Macrobrachium rosenbergii causes high mortality. Four strains of V. parahaemolyticus were isolated from the gill, haepatopancreas, hemolymph and carapace of diseased prawn. The species were characterized based on biochemical and serological tests. On performing an antibiotic assay, these strains were found to be highly susceptible to cephalaxin, tetracycline and erythomycin. During the in vitro pathogenicity test, all the strains were found to be positive to the Congo red binding assay and to be haemolytic in nature, whereas an in vivo pathogenicity test revealed that 2 × 109 CFUs mL−1of bacteria induced disease symptoms such as black colouration on the carapace, red discolouration of the exoskeleton and loss of appendages within 6 days and 80% mortality. In histopathological studies, a prominent necrosis was seen in gill lamellae, and branchial arches were thickened at places due to hyperplasia and haemocytic infiltration. Hepatopancreatic tissue showed dilation of tubules, vacuolation of hepatocytes and marked necrosis in acinar cells. Development of an immunological technique for the detection and screening of V. parahaemolyticus infection and its treatment is highly important in freshwater prawn aquaculture.
Aeromonas hydrophila (Ah) strains isolated from diseased fish in India were studied for protein profiling using the SDS-PAGE protein fingerprinting profile pattern of whole cells of 12 local strains of A. hydrophila and one reference strain (MTCC 646). Variability among the strains was observed. The average similarity between the 12 strains of A. hydrophila ranged from 0.272 to 0.916. Proteins with molecular mass of 55.6 and 14.67 kDa in Ah1, Ah2 and Ah3, 28.5 and 27.9 kDa in Ah4, Ah5 and Ah6, 21.4 and 19.5 kDa in Ah7, Ah8, Ah9 and 72.9, 91.5 and 71.3 kDa in Ah10, Ah11 and Ah12 were common. The protein polypeptide bands from 19.5 to 86.2 kDa were common in both local strains and reference strain of A. hydrophila. The protein fingerprinting study showed that there is genetic similarity between strains of A. hydrophila and reference strain (MTCC 646). These protein markers may be useful for further strain differentiation in epidemiological study.
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