353 research outputs found
Controlling Bovine Tuberculosis and Other Infectious Diseases in Cattle with Total Health Management
Bovine tuberculosis and other infectious diseases can cause serious economic losses to cattle operations as well as potential health risks to consumers. Total Health Management, consisting of a program of good management practices related to husbandry, nutrition, and biosecurity, can help to minimize disease losses and even prevent infection altogether
Fall and Winter Health Problems in Cow-Calf Herds
As a cow-calf herd goes into the fall season after a hot, dry summer, the entire herd may be stressed. Excessive heat, short grass and low water tanks stress cattle and make them more susceptible to diseases. Unsanitary conditions and abrupt diet changes also can lead to illness, as can other circumstances of stress. At the end of the summer, the cows are likely pulled down to a thin body condition from nursing the calves, the bulls worn out from breeding, and the calves shocked from weaning
Brucella melitensis VjbR and C12-HSL regulons: contributions of the N-dodecanoyl homoserine lactone signaling molecule and LuxR homologue VjbR to gene expression
<p>Abstract</p> <p>Background</p> <p>Quorum sensing is a communication system that regulates gene expression in response to population density and often regulates virulence determinants. Deletion of the <it>luxR </it>homologue <it>vjbR </it>highly attenuates intracellular survival of <it>Brucella melitensis </it>and has been interpreted to be an indication of a role for QS in <it>Brucella </it>infection. Confirmation for such a role was suggested, but not confirmed, by the demonstrated <it>in vitro </it>synthesis of an auto-inducer (AI) by <it>Brucella </it>cultures. In an effort to further delineate the role of VjbR to virulence and survival, gene expression under the control of VjbR and AI was characterized using microarray analysis.</p> <p>Results</p> <p>Analyses of wildtype <it>B. melitensis </it>and isogenic Δ<it>vjbR </it>transciptomes, grown in the presence and absence of exogenous <it>N</it>-dodecanoyl homoserine lactone (C<sub>12</sub>-HSL), revealed a temporal pattern of gene regulation with variances detected at exponential and stationary growth phases. Comparison of VjbR and C<sub>12</sub>-HSL transcriptomes indicated the shared regulation of 127 genes with all but 3 genes inversely regulated, suggesting that C<sub>12</sub>-HSL functions via VjbR in this case to reverse gene expression at these loci. Additional analysis using a Δ<it>vjbR </it>mutant revealed that AHL also altered gene expression in the absence of VjbR, up-regulating expression of 48 genes and a <it>luxR </it>homologue <it>blxR </it>93-fold at stationary growth phase. Gene expression alterations include previously un-described adhesins, proteases, antibiotic and toxin resistance genes, stress survival aids, transporters, membrane biogenesis genes, amino acid metabolism and transport, transcriptional regulators, energy production genes, and the previously reported <it>fliF </it>and <it>virB </it>operons.</p> <p>Conclusions</p> <p>VjbR and C<sub>12</sub>-HSL regulate expression of a large and diverse number of genes. Many genes identified as virulence factors in other bacterial pathogens were found to be differently expressed, suggesting an important contribution to intracellular survival of <it>Brucella</it>. From these data, we conclude that VjbR and C<sub>12</sub>-HSL contribute to virulence and survival by regulating expression of virulence mechanisms and thus controlling the ability of the bacteria to survive within the host cell. A likely scenario occurs via QS, however, operation of such a mechanism remains to be demonstrated.</p
Estudios histopatolĂłgicos de la encefalomielitis equina venezolana en asnos.
Basado en la tesis con igual tĂtulo de J. Payán Moreno (Doc 867
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Gut inflammation provides a respiratory electron acceptor for Salmonella.
Salmonella enterica serotype Typhimurium (S. Typhimurium) causes acute gut inflammation by using its virulence factors to invade the intestinal epithelium and survive in mucosal macrophages. The inflammatory response enhances the transmission success of S. Typhimurium by promoting its outgrowth in the gut lumen through unknown mechanisms. Here we show that reactive oxygen species generated during inflammation react with endogenous, luminal sulphur compounds (thiosulphate) to form a new respiratory electron acceptor, tetrathionate. The genes conferring the ability to use tetrathionate as an electron acceptor produce a growth advantage for S. Typhimurium over the competing microbiota in the lumen of the inflamed gut. We conclude that S. Typhimurium virulence factors induce host-driven production of a new electron acceptor that allows the pathogen to use respiration to compete with fermenting gut microbes. Thus the ability to trigger intestinal inflammation is crucial for the biology of this diarrhoeal pathogen
Phage mediated horizontal transfer of the sopE1 gene increases enteropathogenicity of Salmonella enterica serotype Typhimurium for calves
Epidemiological evidence shows that the sopE1 gene is associated with Salmonella Typhimurium phage types causing epidemics in cattle. In this study we demonstrate that horizontal transfer of the sopE1 gene by lysogenic conversion with the SopEΦ increased enteropathogenicity of S. Typhimurium in the bovine ligated ileal loop model. These data support the hypothesis that phage mediated horizontal transfer of the sopE1 gene contributes to the emergence of epidemic cattle-associated S. Typhimurium clone
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