1 / 33

Microbial Growth

Microbial Growth. Chapter 4. Objectives. What are the factors that influence bacteria growth? Oxygen requirements Nutrient requirements Carbon, Nitrogen, Sulfur, Phosphorous Counting microogranisms. Microbial Growth. Growth = an increase in the number of cells, not an increase in size

dguild
Télécharger la présentation

Microbial Growth

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Microbial Growth Chapter 4

  2. Objectives • What are the factors that influence bacteria growth? • Oxygen requirements • Nutrient requirements • Carbon, Nitrogen, Sulfur, Phosphorous • Counting microogranisms

  3. Microbial Growth • Growth= an increase in the number of cells, not an increase in size • Generation=growth by binary fission • Generation time=time it takes for a cell to divide and the population to double

  4. Bacteria divide by binary fission

  5. Biofilms are communities of bacteria

  6. Examples of Biofilms

  7. Generation times vary for each organism • E. coli • 20 minutes (optimal conditions) • Mycobacterium tuberculosis • 24 hours • 6 week incubation for clinical diagnosis

  8. Bacterial growth curve Questions: Antibiotics would have the greatest impact on which phase? Why do microbes enter the stationary phase? At which phase(s) would spores be formed?

  9. Primary and Secondary metabolites Metabolites are required for growth Metabolites are required for survival

  10. Requirements for bacterial growth • Environmental factors that influence • Temperature, pH, osmotic pressure, oxygen • Nutritional factors • Carbon, nitrogen, sulfur, and phosphorous • Trace elements

  11. Optimum Growth Temperatures • Psychrophiles- • optimum -5 to 15oC • Psychrotrophs- • range from 20-30oC • Mesophiles- • range from 25-45oC • Thermophiles- • range from 45-70oC

  12. pH influences the growth • Bacteria-prefer a pH range of 6.5-7.5 • Molds prefer a pH range of 5.0-6.0

  13. Osmotic environment influences growth

  14. Oxygen preferences of organisms • Obligate aerobes • Facultative anaerobes • Obligate anaerobes

  15. Why can some organisms grow in the presence of oxygen? • Reactive Oxygen Species are byproducts of Aerobic Respiration • They are extremely toxic to both Prokaryotic and Eukaryotic cells • DNA Damage Oxidize Amino Acids Inactivate Enzymes Disrupt Membranes Activate Immune System

  16. Why can some organisms grow in the presence of oxygen? • Toxic forms of oxygen need to be neutralized by enzymes • Superoxide dismutase • Accepts electrons to make H2O2 • Catalase • Converts to 4H2O2 to 2H2O + 2O2 • Peroxidase

  17. Oxygen Preferences of Bacteria

  18. Candle jars increase CO2 levels for growing capnophiles

  19. Anaerobic jars eliminate the oxygen for anaerobes to grow.

  20. Chemical requirements: Carbon • What are possible sources of carbon? • Bacteria are classified based on the source of carbon as either heterotrophs or autotrophs

  21. Classification based on Energy and Carbon sources

  22. Chemical Requirements: Nitrogen • Why do bacteria need nitrogen?

  23. Chemical requirements: Sulfur and Phosphorous • Why do bacteria need sulfur? • Why do bacteria need phosphorous?

  24. Chemical requirements: trace elements • Small amounts of minerals • Cobalt, zinc, copper, manganese, etc. • Usually function as cofactors

  25. Culture Media • Chemically defined • GSA

  26. Chemically defined media

  27. Culture Media • Complex • Nutrient Agar • TSA • BHI

  28. Culture Media • Selective • Differential • Blood • Selective and Differential • EMB

  29. Ways to measure bacterial growth • Direct Count • Plate Count/Viable Cell Count • Measure Turbidity

  30. Direct Counts

  31. Plate counts require dilutions

  32. Two techniques for plate counts

  33. Turbidity gives a rough estimate

More Related