Browsing by Subject "microflora"
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Item Assessment of the canine intestinal microflora using molecular methods and serum markers(Texas A&M University, 2007-04-25) Suchodolski, Jan S.Previous studies examining the canine intestinal microflora have focused on cultivation of bacteria from intestinal content. Recently, it has been recognized that the majority of bacteria cannot be identified using standard culture techniques. The aim of this study was to describe the composition and dynamics of the canine intestinal microflora using molecular methods based on identification of the 16S ribosomal DNA (16S rDNA) and to evaluate the clinical use of a 13C-glycocholic acid blood test (13CGCBT) as a serum marker for small intestinal bacterial biomass. Intestinal content was obtained from healthy dogs and the microflora was characterized in different compartments of each dog by denaturing gradient gel electrophoresis (DGGE) and comparative 16S rDNA analysis. A 13C-glycocholic acid blood test (13C-GCBT) was developed as a marker for small intestinal bacterial biomass and the influence of tylosin administration on the 13C-GCBT, serum concentrations of cobalamin, folate, and unconjugated cholic acid (SUCA) was evaluated. There was marked variation in DGGE profiles between individual dogs and also between different intestinal compartments within dogs. DGGE profiles from duodenal juice samples collected endoscopically at different time-points varied within individuals, possibly due to variations over time or a slight variation in sampling location. Direct sequencing revealed 106 individual 16S rDNA sequences. Forty-two sequences showed less than 98% similarity to described sequences in public databases and may constitute previously uncharacterized bacterial species. Serum folate concentrations, SUCA, and the cumulative percent dose/min of 13C administered as 13C-glycocholic acid (CUMPCD) increased significantly following tylosin administration (p<0.01). The results indicate that dogs have a complex intestinal microflora with marked differences between individual dogs. Different intestinal compartments appear to host a unique microflora and the assessment of a fecal sample does not yield accurate information about the composition of the microflora in proximal compartments of the gut. The intestine harbors many previously uncharacterized bacterial species. The clinical significance of these uncharacterized intestinal bacterial species needs to be further investigated in dogs with gastrointestinal disease. Increased serum folate, SUCA, and CUMPCD in the 13C-GCBT suggest that, in the dogs described here, tylosin administration increased the biomass of organisms carrying out these metabolic functions.Item Autoinducer 2-based quorum sensing response of Escherichia coli to sub-therapeutic tetracycline exposure(Texas A&M University, 2006-10-30) Lu, LingengAutoinducer 2 (AI-2) is a quorum sensing signal employed by bacteria to coordinate their response to environmental stresses. The objective of this study was to determine the relationship between presence of AI-2 molecules, exposure to sub-therapeutic tetracycline, the expression of genes associated with the conjugal transfer of antibiotic resistance plasmids, and the conjugal transfer of these plasmids in Escherichia coli. The studies showed that AI-2 activity increased in Tets E. coli in the presence of tetracycline (2 ????g/mL) under both batch and continuous culture conditions. The presence of AI-2 molecules induced tetracycline tolerance development in Tets E. coli. The studies showed that the survival rates of Tets E. coli exposed to AI-2 molecules were significantly higher compared to the cells not exposed to AI-2 molecules or cells that were exposed to only LB (Lauria-Bertani) broth. Molecular analyses using real-time PCR indicate that the expression of at least one conjugation-associated gene (trbC) is increased 9-fold in cells exposed to AI-2 molecules in the presence of sub-therapeutic tetracycline compared to its negative controls. The transconjugation frequency of the plasmid RP4 carrying the tet(A) gene increased between 10-100 fold in the presence of AI-2 molecules. In companion studies, AI-2-like activity was detected in fish, tomatoes, cantaloupes, carrots and milk samples. Interestingly, ground beef and poultry meat contained substances that appear to inhibit AI-2 activity. Collectively, these results highlight the potential importance of bacterial quorum sensing signals such as AI-2 in the response of bacterial cells to environmental stimuli and the possible role of quorum sensing signals in the quality and safety of foods.Item Molecular characterization of intestinal bacteria in healthy cats and a comparison of the fecal bacterial flora between healthy cats and cats with inflammatory bowel disease (IBD)(2009-05-15) Ritchie, Lauren ElizabethPast studies characterizing the feline intestinal microflora have used traditional bacterial culture techniques. However, in recent years it has been recognized that the majority of intestinal bacteria are non cultivable. Therefore, the aim of this study was to describe the microflora along the intestinal tract in healthy cats using comparative 16S ribosomal DNA (16S rDNA) analysis. Intestinal content from the stomach, duodenum, jejunum, ileum, and colon was collected from 4 healthy cats and one specific pathogen free cat (SPF) and the bacterial composition was identified by direct sequencing of bacterial 16S rDNA amplicons. A predominant anaerobic microflora was observed in all evaluated segments of the intestine. Fourteen different bacterial orders were identified with the majority of all sequences classified in the class Clostridiales. Six different Clostridium clusters were identified with the majority of sequences affiliated with Clostridium cluster I. Comparative 16S rDNA analysis was also used to evaluate differences in the fecal microflora between healthy cats (n=6), cats with histopathologically confirmed inflammatory bowel disease (IBD; n=6), and cats with intestinal neoplasia (n=3). Compared to the IBD group, cats in the control group showed a significantly higher number of sequences classified as Firmicutes, Bacteroidetes, and Actinobacteria (p<0.0001). The control group had a significantly higher proportion of clones affiliated with Clostridium cluster XI, and a significantly lower proportion affiliated with cluster I (both p<0.0001). In the neoplasia group, the majority of sequences were classified in the phylum Firmicutes (97.9%) and clones were predominately affiliated with Clostridium clusters I and XI. These data indicate that the feline intestinal microflora is highly diverse and is comprised predominantly of anaerobic bacteria. Further studies are warranted to evaluate the clinical significance of the observed differences in intestinal microflora between healthy cats and cats with gastrointestinal disease.