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Anaerobic Culture Methods

Anaerobic Culture Methods. Reducing media Contain chemicals (thioglycollate or oxyrase) that combine O 2 Heated to drive off O 2. Anaerobic Culture Methods. Anaerobic jar. Figure 6.5. Anaerobic Culture Methods. Anaerobic chamber. Figure 6.6. Capnophiles Require High CO 2. Candle jar

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Anaerobic Culture Methods

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  1. Anaerobic Culture Methods • Reducing media • Contain chemicals (thioglycollate or oxyrase) that combine O2 • Heated to drive off O2

  2. Anaerobic Culture Methods • Anaerobic jar Figure 6.5

  3. Anaerobic Culture Methods • Anaerobic chamber Figure 6.6

  4. Capnophiles Require High CO2 • Candle jar • CO2-packet Figure 6.7

  5. Selective Media • Suppress unwanted microbes and encourage desired microbes. Figure 6.9b–c

  6. Differential Media • Make it easy to distinguish colonies of different microbes. Figure 6.9a

  7. Enrichment Media • Encourages growth of desired microbe • Assume a soil sample contains a few phenol-degrading bacteria and thousands of other bacteria • Inoculate phenol-containing culture medium with the soil and incubate • Transfer 1 ml to another flask of the phenol medium and incubate • Transfer 1 ml to another flask of the phenol medium and incubate • Only phenol-metabolizing bacteria will be growing

  8. A pure culture contains only one species or strain. • A colony is a population of cells arising from a single cell or spore or from a group of attached cells. • A colony is often called a colony-forming unit (CFU).

  9. Streak Plate Figure 6.10a–b

  10. Preserving Bacteria Cultures • Deep-freezing: –50°to –95°C • Lyophilization (freeze-drying): Frozen (–54° to –72°C) and dehydrated in a vacuum

  11. Reproduction in Prokaryotes • Binary fission • Budding • Conidiospores (actinomycetes) • Fragmentation of filaments

  12. Binary Fission Figure 6.11

  13. Figure 6.12b

  14. If 100 cells growing for 5 hours produced 1,720,320 cells:

  15. Figure 6.13

  16. Figure 6.14

  17. Direct Measurements of Microbial Growth • Plate counts: Perform serial dilutions of a sample Figure 6.15, step 1

  18. Plate Count • Inoculate Petri plates from serial dilutions Figure 6.16

  19. Plate Count • After incubation, count colonies on plates that have 25-250 colonies (CFUs) Figure 6.15

  20. Direct Measurements of Microbial Growth • Filtration Figure 6.17

  21. Direct Measurements of Microbial Growth • Multiple tube MPN test. • Count positive tubes and compare to statistical MPN table. Figure 6.18b

  22. Direct Measurements of Microbial Growth • Direct microscopic count

  23. Direct Measurements of Microbial Growth Figure 6.19, steps 1, 3

  24. Estimating Bacterial Numbers by Indirect Methods • Turbidity Figure 6.20

  25. Direct methods Plate counts Filtration MPN Direct microscopic count Dry weight Indirect methods Turbidity Metabolic activity Dry weight Measuring Microbial Growth

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