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BIO 205 – Microbiology Chapters 8, 9, end of Ch. 3
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Chapter 8 - Growth of Microorganisms
Key words / concepts doubling / generation time binary fission the growth phases of a population lag, exponential, stationary, death colony biofilm trance elements vs. growth factors temperature “requirements” oxygen requirements pH and salt “requirements” bacterial counts dilution plating / spread plate technique
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How do most bacteria replicate?
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Some do it a bit different . . .
Listeria monocytogenes
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Generation time
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Growth Phase
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Continuous culture in a chemostat
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Types of Growth
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Streak plate technique
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Biofilms
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Biofilms and quorum sensing
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Biofilms
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Microbial nutrition
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Microbial nutrition Trace elements Growth factors
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Nutritional classes of microorganisms
carbon from CO2
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Culture media Defined media Complex media Selective media
Produced from pure chemicals Complex media Extracts of natural sources Beef, blood, milk, protein, yeast, soybeans Precise composition not known Selective media Contents select for specific microorganism Differential media Identification of microorganisms
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Culture media that we will use
Defined media none Complex media Nutrient agar Mueller Hinton agar - antibiotic testing
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Culture media that we will use
Selective media EMB - inhibit growth of Gram positive bacteria MacConkey - inhibit growth of Gram positive bacteria Mannitol salt - high salt (staph will grow) Differential media Sheep Blood agar - hemolysis EMB - lactose and/or sucrose fermentation - fecal coliforms MacConkey - lactose fermentation Mannitol Salt - mannitol fermentation - pathogenic staph Enterotube - rapid ID of enteric bacteria (15 tests in 1) Synder - dental caries susceptibility - acid producers in saliva
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How temperature affects growth
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Oxygen requirements aerobe anaerobe obligate / strict facultative
microaerophile aerotolerant
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Oxygen culturing conditions
Shaking machines Increase oxygen in the media Candle jars Not anaerobic but reduces available oxygen Anaerobic chambers All oxygen is replaced with other gas Figure 3.25
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How do we visualize oxygen requirements in the lab? (stab vs. broth)
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pH and salt and bacterial growth
halophilic
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How do you know how much bacteria there is?
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How do you know how much bacteria there is? Hemocytometer
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Viable count = dilutions and plating
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Pour vs. spread plate technique
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Plate count
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plate 1 ml of bacteria onto agar plate
A little math for you! plate 1 ml of bacteria onto agar plate 5348 672 126 28
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Summary - Growth of Microorganisms
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Chapter 9 - Controlling Microorganisms
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How we used to protect ourselves from microbes
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Sterilization Disinfection / sanitizing Decontamination Antiseptics / antisepsis
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Bactericide vs. Bacteriostatic
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Methods of Physical Control
Heat moist heat dry heat cold
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Preserving cultures Cold storage
Short-term: refrigeration slows growth Must continually transfer Long-term: freezing Add substance to reduce freeze-killing Glycerol, skim milk, dimethyl sulfoxide (DMSO) Lyophilization Long term—freeze drying Frozen and dried under vacuum probiotics
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Methods of Physical Control
autoclave incineration
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Sterilization Eliminating all microorganisms
Culture media must be sterilized Heat sterilization Moist heat Autoclave 121oC for 20 minutes Dry heat 170oC for 90 minutes Figure 3.20
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Methods of Physical Control
pasteurization
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Thermal Death What? Thermal Death Time Thermal Death Point
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Methods of Physical Control
Radiation nonionizing (UV) ionizing
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Methods of Physical Control
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Methods of Physical Control
Filtration Lyophilization
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Methods of Chemical Control
germicides - activity classified as high intermediate low Assignment for next week: What do you use (at home or work)? How does it work?
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Methods of Chemical Control
Phenols / phenolics Alcohol
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Methods of Chemical Control
Halogens Hydrogen Peroxide
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Methods of Chemical Control
Heavy metals Surfactants / detergents
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Testing germicides we will do Nov. 9
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Testing germicides
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Preserving Food
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Preserving Food Fig. 1. Flow diagram of the main routes of spore contamination into foods. A circled Sp indicates possible environments for formation of endospores (sporulation).
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