Type of Document Dissertation Author Hammond, Georgia Ann URN etd-03022006-093403 Title The toxigenic element of Clostridium difficile strain 10463 and its transcriptional analysis in strains which differ in toxigenicity Degree PhD Department Anaerobic Microbiology Advisory Committee
Advisor Name Title Johnson, John L. Committee Chair Dean, Dennis R. Committee Member Krieg, Neal R. Committee Member Larson, Timothy J. Committee Member Wilkins, Tracy D. Committee Member Keywords
- Clostridium difficile
- Transcription factors
Date of Defense 1994-03-05 Availability restricted AbstractClostridium difficile is a Gram positive, anaerobic bacterium which produces two potent protein toxins, A and B. The genes for toxins A and B have been previously cloned and sequenced and lie within 1.4 kb of each other.
Upstream and downstream boundaries between sequences shared by both toxigenic and nontoxigenic strains and those sequences which are unique to toxigenic strains were established.
A toxigenic element was defined in C. difficile strain 10463 which is 19.6 kb in length and is comprised of five open reading frames, including the toxin A and B genes. One of these open reading frames is previously unidentified and is located upstream of toxin B.
Products of Polymerase Chain Reaction (PCR) amplification of three regions in the toxigenic element: the upstream boundary, the downstream boundary, and the region between the toxin A and B genes, were all identical in length in six toxigenic strains, indicating that the toxigenic element is conserved among these strains. A short fragment unique to nontoxigenic strains and occupying the same position on the chromosome as the toxigenic element was identified. peR products of this region were identical in length in three nontoxigenic strains.
Transcriptional analyses were undertaken using probes to each of the five open reading frames in the toxigenic element. Transcripts were detected for four of the open reading frames which are contiguous and transcribed in the same direction. In addition, a very large transcript, corresponding to the length of the four open reading frames and processing intermediates were detected, indicating that the toxin genes are cotranscribed. A promoter region and processing sites were identified. Sizes were determined for each of the individual transcripts which correspond well with the sizes of the open reading frames.
Six toxigenic strains which vary considerably in toxin production were selected for analysis to determine whether DNA sequence variation could account for the observed differences in toxin production. DNA restriction fragment length polymorphisms were examined, toxin-specific transcripts were analyzed, and sequences of regulatory regions were determined and compared. Whereas quantitative differences in toxin-specific transcripts were found among the toxigenic strains, the remaining analyses showed that DNA sequences were conserved among these strains.
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