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Pam Shelton Biology Undergraduate, Health Science Concentration Tennessee Technological University

Effects of pH on the Growth of Staphylococcus aureus , Streptococcus bovis , and Escherichia coli species. Pam Shelton Biology Undergraduate, Health Science Concentration Tennessee Technological University. Introduction/Background. Staphylococcus aureus

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Pam Shelton Biology Undergraduate, Health Science Concentration Tennessee Technological University

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  1. Effects of pH on the Growth of Staphylococcus aureus, Streptococcus bovis, and Escherichia coli species Pam Shelton Biology Undergraduate, Health Science Concentration Tennessee Technological University

  2. Introduction/Background • Staphylococcus aureus • “responsible for a wide range of human disease, including septicemia; endocarditis and pneumonia; and wound, bone and joint infection (Feil et al 2003).” • “associated with nosocomial infections (Caiazza and O’Toole 2003).”

  3. Introduction (cont) • Streptococcus bovis (Group D) • Group B Streptococcusis “the most common cause of bacterial infection in the newborn (Curtis et al 2003).” • Streptococcus bovis (Group D Streptococcus) is important to understand because it is “capable of causing fulminant neonatal sepsis or meningitis that is indistinguishable clinically from that caused by group B streptococcus (Gavin et al 2003).”

  4. Introduction (cont) • Escherichia coli • Associated with food products • “presence of feces on meat products is a primary source of foodborne pathogens, such as Escherichia coli 0157:H7 (Ashby 2003).”

  5. Introduction (cont) • All cause disease if present in large amounts or immune system is compromised • Learning about growth allows for development of ways to limit growth

  6. Objective/Hypothesis • Hypothesis: Various bacteria require different pH levels in order to grow properly. • each organism will have an optimal pH specific for that particular organism. • most organism will have similar ranges in which they prefer to grow. • Objective: To determine the pH range and optimal pH for the growth of Staphylococcus aureus, Streptococcus bovis, and Escherichia coli

  7. Materials and Methods • Set of tubes containing 3 mL Tryptic Soy Broth (TSB) were treated with varying amounts of HCl or NaOH to adjust pH from 1 to 14 • pH measured with pH paper • Similar to method used by Kelly et al (2003) • Tubes were inoculated with one of the organisms and incubated at 36 °C for 48 hrs • Amount of growth was measured and recorded

  8. Materials and Methods • Another set of tubes were prepared with the same method except with a more narrow pH range • Tubes were inoculated and incubated with the previous method • Three trials of the procedure were done for each organism • Temperature of incubation, incubation time, and broth composition (except pH) were constant in each trial

  9. Materials and Methods

  10. Results and Discussion • S. aureus preferred a pH range of 4.0 – 9.25 in trials 1and 2 and 4.5 – 9.25 in trial 3 • Optimal pH of S. aureus was around pH 7 • This agrees, for the most part, with the work previously done Feeherry et al (2003). • “S. aureus growth occurs in the pH range 4.5 to 9.3 (7.2 optimum).” • There is slight disagreement with the lowest (4.0) and highest (9.25) values of the pH range found in this experiment. This is probably due to experimental error. • The pH paper used is not as accurate as a pH meter • It can be assumed that in trial 1 and 2, the range is within the expected 4.5 – 9.3.

  11. Results and Discussion

  12. Results and Discussion • S. bovis only grew very close to pH 7 • This agrees Chamkha et al (2003) • “strain B7…grew optimally at pH 7”

  13. Results and Discussion

  14. Results and Discussion • E. coli grew equally well in the range of pH 7 to pH 9. • These results disagree with the previous work • E. coli is capable of growing in a “pH range of 2.5 – 9.3 (Vinneras et al 2003).” • even with experimental error taken into consideration, these results are too extreme to go unnoticed • Explanation: • To survive in extremely acidic conditions, E. coli has evolved three adaptive acid resistance strategies to maintain internal pH (Gong et al 2003).” • “all strains succumbed to pH 2.5 in the absence of arginine (Gong et al 2003).” • This growth broth did not contain arginine. So, it was incapable of acid tolerance.

  15. Results and Discussion

  16. Results and Discussion • As expected in my hypothesis, the growth of microorganisms is effected by the pH of their surrounding environment. • I also expected: • most organism would have similar ranges in which they prefer to grow. • each organism would have an optimal pH specific for that particular organism. • This was disproved through the results of this experiment. • ranges varied greatly depending on the particular organism • the optimal pH was closely centered around 7 for most organisms

  17. Summary and Conclusions • pH effects growth of microorganisms • Organisms have a wide variety of preferred pH ranges • Most organisms optimal pH is centered closely around 7 • Information about growth of microorganisms can help prevent the spread of disease

  18. Questions?

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