Microbiology: A Systems Approach

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Presentation transcript:

Microbiology: A Systems Approach PowerPoint to accompany Microbiology: A Systems Approach Cowan/Talaro Chapter 3 Tools of the Laboratory Copyright The McGraw-Hill Companies, Inc. Permission required for reproduction or display.

Chapter 3 Topics Methods of Culturing Microorganisms Microscope

Methods of Culturing Microorganisms Five basic techniques Media Microbial growth

Five basic techniques 1. Inoculate 2. Incubate 3. Isolation 4. Inspection 5. Identification

Overview of the five major techniques used by microbiologist. Fig. 3.1 A summary of the general laboratory techniques.

A single visible colony represents a pure culture or single type of bacterium isolated from a mixed culture. Fig. 3.2 Isolation technique

Three basic methods of isolating bacteria. Fig. 3.3 Methods for isolating bacteria.

Media Classified according to three properties Physical state Chemical composition Functional types

Physical State Liquid media Semi-solid media Solid media

Liquid media are water-based solutions that are generally termed broths, milks and infusions. Fig. 3.4 Sample liquid media

Semi-solid media contain a low percentage (<1%) of agar, which can be used for motility testing. Fig. 3.5 Sample semisolid media

Solid media contain a high percent (1-5%) of agar, which enables the formation of discrete colonies. Fig. 3.6 Solid media that are reversible to liquids

Chemical content Synthetic media Nonsynthetic or complex media

Synthetic media contain pure organic and inorganic compounds that are chemically defined (i.e. known molecular formula). Table 3.2 Medium for the growth and maintenance of the Green Alga Euglena

Complex or enriched media contain ingredients that are not chemically defined or pure (i.e. animal extracts). Fig. 3.7 Examples of enriched media

Functional types of growth media Enriched media Selective media Differential media

Enriched media are used to grow fastidious bacteria. Fig. 3.7 Examples of enriched media

Selective media enables one type of bacteria to grow, while differential media allows bacteria to show different reactions (i.e. colony color). Fig. 3.8 Comparison of selective and different Media with general-purpose media.

Examples of differential media. Table 3.4 Differential media

Mannitol salt agar is a selective media, and MacConkey agar is a differential media. Fig. 3.9 Examples of media that are both selective and differential

Examples of miscellaneous media are reducing, fermentation and transportation media. Fig. 3.11 Carbohydrate fermentation broth

Microbial growth Incubation Inspection Identification Varied temperatures, atmospheric states Inspection Mixed culture Pure culture Identification Microscopic appearance Maintenance and disposal Stock cultures sterilization