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Significance of LT and STb enterotoxins in the virulence of F4+ Escherichia coli in pigsErume, Joseph. January 2008 (has links)
Thesis (Ph.D.)--University of Nebraska-Lincoln, 2008. / Title from title screen (site viewed Feb. 17, 2009). PDF text: xvii, 262 p. : ill. (some col.) ; 2,518 Kb. UMI publication number: AAT 3326862. Includes bibliographical references. Also available in microfilm and microfiche formats.
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Antagonistic activity of probiotic bacteria based on bacterial diversity in the porcine gutDixit, Sameer M., University of Western Sydney, Centre for Advanced Food Research January 2004 (has links)
Diversity analysis of Escherichia coli have routinely utilised isolates obtained by culture of faeces on MacConkey selective media, under the assumption that the diversity identified in faecal isolates are representative of similar diversity in E. coli in the gastrointestinal tract (GIT). This study has addressed this important issue by specifically isolating E. coli from different regions of the gut in pigs and subjecting them to enzymatic multilocus enzyme electrophoresis (MLEE) and molecular virulence factor (VF) analysis to ascertain whether E. coli populations inhabiting different regions of the gut are different from each other. Combination of these results showed that on average, E. coli strains isolated from the upper GIT region (small intestine) of the pig are distinctly different from the E. coli strains isolated from the lower GIT region (large intestine). An important aspect of the finding that faecal E. coli are not truly representative of the diversity in the GIT is the mechanism used by specific clonotypes that have adapted to different geographical habitats to survive challenge from incoming strains. / Doctor of Philosophy (PhD)
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Breed effects on the virulence gene profiles and genetic diversity at FUT1, MUC4, MUC13 and MUC20 candidate genes for controlling diarrhoea-causing Escherichia coli.Mohlatlole, Ramadimetja Prescilla. January 2013 (has links)
Escherichia (E) coli infections result in diarrhoea and oedema in growing pigs. Enterotoxigenic (ETEC), shigatoxin producing (STEC) and enteroaggregative (EAEC) E. coli have been identified as the principal causes of colibacillosis in most pig production systems. These E. coli use fimbrial and non-fimbrial adhesins to adhere to the intestines and cause infection. Absence or presence of the receptors on the intestinal walls determines the resistance or susceptibility of the host to the E. coli. In other populations, candidate genes linked to the receptors have been found to be associated with resistance/susceptibility to infection and are used in marker-assisted selection programs. This study investigated the presence and prevalence of ETEC, STEC and EAEC and the associated virulence genes in 263 E. coli isolates sampled from Landrace, Large White, Duroc and Indigenous piglets from the Animal Production Institute of the Agricultural Research Council (ARC) in Irene and Middledrift farm in Eastern Cape Province. The study also investigated polymorphisms at six candidate genes associated with two E. coli receptors in the same pig populations. Over 39 % of the isolates tested positive for the E. coli virulent genes investigated. None of the samples had fimbrial adhesins. The mode of attachment of the investigated E. coli was through non-fimbrial adhesins which were found in 49.06% of the isolates. The 106 E. coli isolates were categorized into 25 pathotypes carrying definable and unique combinations of E. coli virulence factors.
The resistant allele for Alfa (1) fucosyltransferase 1 (FUT1) M307, a candidate gene for FI8R, was present in less than 1 % of the population. Various mutations of mucin genes MUC4 g.8227, MUC20 c1600 and g.191 were found in the population. Their respective alleles for controlling F4ab/ac E. coli adhesion in pigs were predominant in both breeds. Three loci (FUT1, MUC20 g.191 and MUC20 c.1600) deviated from Hardy Weinberg equilibrium (HWE) in the Indigenous and the Large White breeds. Heterozygotes deficiency and high levels of within breed diversity was observed in these two breeds at the mentioned loci. Overall, the study observed a wide range of toxin and colonisation factors (CFs) giving rise to diverse pathotypes in South African pigs. The absence of fimbrial adhesins suggests a different colibacillosis control program from that previously used. The presence of the resistant alleles in most of the loci investigated was low, however their presence suggest it is possible to use them to generate a resistant population using marker assisted selection. This study serves as a foundation for future pig colibacillosis control and immunity studies in the South African pig herds. / Thesis (M.Sc.)-University of KwaZulu-Natal, Pietermaritzburg, 2013.
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The detection and molecular characterisation of Shiga Toxigenic Escheria coli (STEC) O157 strains from humans, cattle and pigs in the North-West Province, South Africa / Collins Njie AtebaAteba, Collins Njie January 2006 (has links)
The prevalence and antibiotic resistant profiles of shiga-toxin producing Escherichia
coli 0157 strains isolated from faeces samples of cattle, pigs and human stool samples
were determined. The strains were further characterised by molecular methods for the
presence of shiga-toxin virulence genes and antibiotic resistant genes. Seventy-six
Escherichia coli 0157 strains were isolated and the prevalence was higher among E.
coli isolated from faeces from pigs (44.2% to 50%) than those from cattle faeces (5.4%
to 20.0%) or human stool samples (7 .5%). On testing E. coli 0157 isolates for their
resistance to 9 antimicrobial agents, multiple antibiotic resistance (MAR) was observed
in all of the isolates arising from resistance to three or more antibiotics. Seventy
(92.1 %) of the E. coli 0157 isolated from humans, cattle and pigs were resistant to
tetracycline. 73 (96.1 %) were resistant to sulphamethoxazole, 63 (82.9%) were resistant
to erythromycin. 40 (52.6%) were resistant to streptomycin and 26 (34.2%) were
resistant to ampicillin. The highest frequency of resistance was observed among the
human isolates (n=3 ), where 3 (I 00%) of the isolates were resistant to tetracycline,
sulphamethoxazole, erythromycin and ampicillin. Furthermore, among the pig isolates
(n=60), 58 (96. 7%) were resistant to tetracycline, 57 (95%) were resistant to
sulphamethoxazole, 47 (78.3%) were resistant to erythromycin. 38 (63.3%) were
resistant to streptomycin and 22 (36. 7%) were resistant to ampicillin.
The MAR phenotypes S-Smx-T-E, Smx-T-Ap and Smx-T-E were the dorminant
phenotypes among the E. coli 0157 isolated from the faeces samples of communal pigs
in 30.4%, 21 .7% and 17.4% of these isolates, respectively. However, phenotypes
Smx-T -E and S-Smx-T-E-Ne were identified at I6.2% and 10.8%, respectively within
the isolates obtained from commercial pig faeces. The phenotype Smx-T-E was the
only MAR phenotype identified among the E. coli 0157 isolated from the faecal
samples of commercial cattle at Lichtenburg. Furthermore, MAR phenotypes Smx-T-E-C,
K-S-Smx-T-E, S-Smx-T-E and Smx-T-E-Ap were obtained at 25%, respectively for
the isolates obtained from communal cattle at Mogosane while Smx-T-E-Ap was the
dorminant (66.7%) phenotype among the isolates of human origin. The phenotype
Smx-T fom1ed the basis of all the MAR phenotypes obtained and this was similar to the
percentage antibiotic resistance data.
The distribution of the resistant determinants for tetracycline was determined by PCR
analysis in resistant isolates. A tetB gene was detected in E. coli 0157 of pig origin.
Based on the characterisation of 30 isolates for the presence of STEC virulence genes
by PCR, 18 (60%) possessed the hlyA gene, 7 (23.7%) possessed the eae gene and 5
( 16. 7%,) harboured both genes.
The average MAR indices for pig, cattle and human E. coli 0157 isolates were 0.4n2,
0.3419 and 0.4814, respectively. Among the cattle isolates, the group MAR index was
highest for the communal (Mogosane) population while the values for the commercial
populations at Lichtenburg and Rustenburg were 0.33 and 0.22, respectively. £. coli
0157 isolated from pigs revealed MAR index results that were 0.508 and 0.415 for the
commercial and communal populations respectively and 0.1851 for the E. coli control
strains.
Characterisation by cluster analysis to determine the commonness and resolve
differences between the E. coli 0157 isolated from the Various sources revealed a close
association between pig (Tlapeng and Mareetsane), cattle (Mogosane) and human
isolates. Interestingly, E. coli 0157 isolated from pigs occurred at the highest frequency
in all the clusters. which suggested their role in the dissemination of resistant
determinants. / MSc. (Agric.) North-West University, Mafikeng Campus, 2006
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Antagonistic activity of probiotic bacteria based on bacterial diversity in the porcine gutDixit, Sameer M. January 2004 (has links)
Thesis (Ph.D.)--University of Western Sydney, Hawkesbury, 2004. / A thesis presented to the University of Western Sydney, Hawkesbury, Centre for Advanced Food Research, in fulfilment of the requirements for the degree of Doctor of Philosophy. Includes bibliographies.
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Breed susceptibility to enterotoxigenic and enteroaggragative Escherichia coli strains in South African pigs.Chaora, Nyaradzo Stella. January 2013 (has links)
Escherichia coli diarrhoea is the most important source of mortality in piglets. The most frequently isolated strain in enterotoxigenic E. coli diarrhoea is F4ab/ac. Recent studies in South Africa reported non-fimbrial strains such as PAA and EAST-1 to be prevalent. The objective of the study was to determine whether there are breed differences among pigs with respect to E. coli adhesion phenotypes and correlate them to polymorphisms at selected candidate genes in the South African population.
A total of 225 pigs aged 3-12 weeks of the imported (Large White, Landrace and Duroc), local and crossbreds, were sampled from the Eastern Cape and Limpopo provinces of South Africa and genotyped for PCR-RFLP polymorphisms at four candidate genes associated with E. coli F4ab/ac resistance/susceptibility. These genes were Mucin 4 (MUC4), Mucin 13, (MUC13), Mucin 20 (MUC20) and Transferrin Receptor (TFRC). The TFRC and MUC13 genes were less polymorphic, the C allele was close to fixation and the homozygous CC genotype was the most frequent in all three pig populations. There was a significant difference (P <0.05) in allelic and genotypic distribution amongst breeds for the TFRC locus. The g.8227G>C polymorphism in MUC4 segregated in all three breeds and the marker was moderately polymorphic. There was a significant difference (P <0.05) in genotypic distribution amongst breeds for MUC4.The g.191C>T polymorphism in MUC20 segregated in the local and crossbred pigs and was close to fixation in the imported pigs. There was a significant difference (P <0.05) in allelic and genotypic distribution amongst breeds for MUC20, which was moderately polymorphic. There was a reduction in heterozygosity in both the TFRC and MUC13 loci, although MUC4 and MUC20 genes had higher heterozygosity levels. The MUC4 gene had a negative FIS value, indicating outbreeding at this locus. The MUC20, MUC13 and TFRC genes had a positive FIS value, indicating inbreeding at these loci. Overall, the studied population was outbred. Imported pigs in TFRC and MUC20 deviated from Hardy-Weinberg equilibrium (HWE). All breeds were in HWE at the MUC4 and MUC13 genes. There was no linkage disequilibrium observed amongst the analysed loci.
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A total of 109 piglets of three breeds (Large White, indigenous and crossbred) aged 3-5 weeks, were investigated for the susceptibility to E. coli F4, PAA strains and EAST-1 toxin. Adhesion tests were conducted on pig intestinal cells, which were viewed under a phase contrast microscope. Three phenotypes were identified as, adhesive, weakly adhesive and non-adhesive. There was a significant association (P <0.05) between breed and level of adherence of the F4 and PAA strains. Highest frequencies of adhesion phenotypes were observed in the indigenous pigs for both F4 and PAA E. coli strains. Large White pigs had the lowest frequency of non-adhesion in F4 and PAA E. coli strains. The F4 strain had a higher (P <0.05) level of adherence compared to PAA and EAST-1 in Large White pigs. Age of pigs had a significant effect on the level of E. coli adherence in indigenous and crossbred pigs (P <0.05). Adhesion of F4 and EAST-1 was higher in weaned indigenous and crossbred pigs, respectively, than in suckling piglets. There was no significant difference between F4 adhesion and the genotypes at all four candidate genes genotypes.
The study showed that both imported and local pig populations carry receptors and are susceptible to F4, PAA and EAST-1 E. coli infections. Indigenous pigs were less susceptible than Large White to E. coli infection. Although polymorphic and segregating in the populations, the MUC4 g.8227G>C and MUC20 g.191C>T mutations were not associated with the adhesion phenotypes and cannot be used in the selection of susceptible animals. / M.Sc.Agric. University of KwaZulu-Natal, Pietermaritzburg 2013.
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