Browsing by Subject "transposon mutagenesis"
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Item Effects of Serine Protease-Like F (SPLF) on Alpha-Toxin Expression in Staphylococcus aureus(2003-05-01) Pulse, Mark E.; Mart Hart; Jerry Simecka; Ming-Chi WuPulse, Mark E., Effects of Serine protease-like F (Sp1F) on Alpha-Toxin Expression in Staphylococcus aureus. Master’s of Science (Microbiology). May 2003. Pages-67. Table-5. Figures-9. Transposon mutagenesis (Tn551) was used to generate agr-suppressor mutations in the agr-null Staphylococcus aureus strain RN6911 (Δagr;;tmn). Firty-four suppressor mutants displaying changes in hemolysin, protease, and lipase activities were isolated, and only twenty-six mutants contained Tn551 within their chromosomes. Transposon insertion sites for seven mutants were determined by sequencing amplicons generated by arbitrary-PCR. One of the insertion sites was within the serine protease-like F (spʅF) gene. Alpha-toxin message levels for the spʅF mutant were similar to RN6911. However, alpha-toxin activity in spent media isolated from the spʅF mutant were similar to RN6911. However, alpha-toxin activity in spent media isolated from the spʅF mutant was increased ten-fold as compared to RN6911. Transduction of the spʅf:Tn551 mutation back into the parental strain verified the link between the phenotype and the mutation. Whole cell lysates from Escherichia coli cells containing a plasmid copy of spʅF displayed protease activity on casein. These data suggest that SpʅF may be post-translationally modifying alpha-toxin through proteolysis.Item Identification of Novel Genes Involved in Escherichia coli Biofilm Formation(2003-05-01) DesPlas, Rebecca L.; Jerry Simecka; Ming-Chi WuDesPlas, Rebecca L., Identification of Novel Genes Involved in Escherichia coli Biofilm Formation. Master of Science (Microbiology), May 2003, 77 pp., 6 tables, 11 figures, references, 55 titles. Transposon mutagenesis using a miniTn10::camR transposon generated 800 random insertion mutants displaying altered biofilm phenotypes as compared to the parent strain, TRMG F/M. Transduction of the resistance marker confirmed approximately 150 biofilm mutants. Amplifications of the insertion sites, nucleotide sequencing and BLAST searches against E. coli K-12 genomic databases, identified118 of these sites. Many of the interrupted genes are not known to be associated with biofilm formation. Four mutations were transduced into E. coli K-12 MG1655, creating altered biofilm phenotypes. A plasmid clone of the nhaAR operon complemented the corresponding mutations. Results indicate that the genes identified in this study influence biofilm formation. However, further studies are needed to determine the degree of impact in a wild type strain background.