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Growth medium

A growth medium or culture medium is a substance in which microorganisms or cells can grow.^[1] There are different types of media for growing different types of cells.^[2]

There are two major types of growth media: those used for cell culture, which use specific cell types derived from plants or animals, and microbiological culture, which are used for growing microorganisms, such as bacteria or yeast. The most common growth media for microorganisms are nutrient broths and agar plates; specialized media are sometimes required for microorganism and cell culture growth.^[1] Some organisms, termed fastidious organisms, require specialized environments due to complex nutritional requirements. Viruses, for example, are obligatory intracellular parasites and require a growth medium composed of living cells.

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Types of growth media

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The most common growth media for microorganisms are nutrient broths (liquid nutrient medium) or Lysogeny broth (LB medium). Liquid mediums are often mixed with agar and poured into petri dishes to solidify. These agar plates provide a solid medium on which microbes may be cultured. Bacteria grown in liquid cultures often form colloidal suspensions.

The differences between growth media used for cell culture and those used for microbiological culture are due to the fact that cells derived from whole organisms and grown in culture often cannot grow without the addition of, for instance, hormones or growth factors which usually occur in vivo.^[3] In the case of animal cells, this difficulty is often addressed by the addition of blood serum to the medium. In the case of microorganisms, there are no such limitations, as they are often unicellular organisms. One other major difference is that animal cells in culture are often grown on a flat surface to which they attach, and the medium is provided in a liquid form, which covers the cells. In contrast, bacteria such as Escherichia coli may be grown on solid media or in liquid media.

An important distinction between growth media types is that of defined versus undefined media.^[1] A defined medium will have known quantities of all ingredients. For microorganisms, they consist of providing trace elements and vitamins required by the microbe and especially a defined carbon source and nitrogen source. Glucose or glycerol are often used as carbon sources, and ammonium salts or nitrates as inorganic nitrogen sources). An undefined medium has some complex ingredients, such as yeast extract or casein hydrolysate, which consist of a mixture of many, many chemical species in unknown proportions. Undefined media are sometimes chosen based on price and sometimes by necessity - some microorganisms have never been cultured on defined media.

A good example of a growth medium is the wort used to make beer. The wort contains all the nutrients required for yeast growth, and under anaerobic conditions, alcohol is produced. When the fermentation process is complete, the combination of medium and dormant microbes, now beer, is ready for consumption.

Nutrient media

Undefined media (also known as basal or complex media) is an undefined media that contains:

a carbon source such as glucose for bacterial growth
water
various salts need for bacterial growth
a source of amino acids and nitrogen (e.g., beef, yeast extract)

This is an undefined medium because the amino acid source contains a variety of compounds with the exact composition unknown. Nutrient media contain all the elements that most bacteria need for growth and are non-selective, so they are used for the general cultivation and maintenance of bacteria kept in laboratory culture collections.

Defined media (also known as chemical defined media)

all the chemicals used are known and
does not contain any animal, yeast, plant tissue.

Differential medium

some sort of indicator, typically a dye, is added, that allows for the differentiation of particular chemical reactions occurring during growth.

Minimal media

Minimal media are those that contain the minimum nutrients possible for colony growth, generally without the presence of amino acids, and are often used by microbiologists and geneticists to grow "wild type" microorganisms. Minimal media can also be used to select for or against recombinants or exconjugants.

Minimal medium typically contains:

a carbon source for bacterial growth, which may be a sugar such as glucose, or a less energy-rich source like succinate
various salts, which may vary among bacteria species and growing conditions; these generally provide essential elements such as magnesium, nitrogen, phosphorus, and sulfur to allow the bacteria to synthesize protein and nucleic acid
water

Supplementary minimal media are a type of minimal media that also contains a single selected agent, usually an amino acid or a sugar. This supplementation allows for the culturing of specific lines of auxotrophic recombinants.

Selective media

Selective media are used for the growth of only select microorganisms. For example, if a microorganism is resistant to a certain antibiotic, such as ampicillin or tetracycline, then that antibiotic can be added to the medium in order to prevent other cells, which do not possess the resistance, from growing. Media lacking an amino acid such as proline in conjunction with E. coli unable to synthesize it were commonly used by geneticists before the emergence of genomics to map bacterial chromosomes.

Selective growth media are also used in cell culture to ensure the survival or proliferation of cells with certain properties, such as antibiotic resistance or the ability to synthesize a certain metabolite. Normally, the presence of a specific gene or an allele of a gene confers upon the cell the ability to grow in the selective medium. In such cases, the gene is termed a marker.

Selective growth media for eukaryotic cells commonly contain neomycin to select cells that have been successfully transfected with a plasmid carrying the neomycin resistance gene as a marker. Gancyclovir is an exception to the rule as it is used to specifically kill cells that carry its respective marker, the Herpes simplex virus thymidine kinase (HSV TK).

Some examples of selective media include:

eosin-methylen blue agar (EMB) that contains methylene blue – toxic to Gram-positive bacteria, allowing only the growth of Gram negative bacteria
YM (yeast and mold) which has a low pH, deterring bacterial growth
blood agar (used in strep tests), which contains beef heart blood that becomes transparent in the presence of hemolytic Streptococcus
MacConkey agar for Gram-negative bacteria
Hektoen Enteric (HE) which is selective for Gram-negative bacteria
Mannitol Salt Agar (MSA) which is selective for Gram-positive bacteria and differential for mannitol
xylose lysine desoxyscholate (XLD), which is selective for Gram-negative bacteria
Buffered charcoal yeast extract agar, which is selective for certain gram-negative bacteria, especially Legionella pneumophila

Differential media

Differential media or indicator media distinguish one microorganism type from another growing on the same media.^[4] This type of media uses the biochemical characteristics of a microorganism growing in the presence of specific nutrients or indicators (such as neutral red, phenol red, eosin y, or methylene blue) added to the medium to visibly indicate the defining characteristics of a microorganism. This type of media is used for the detection of microorganisms and by molecular biologists to detect recombinant strains of bacteria.

Examples of differential media include:

Eosin methylene blue (EMB), which is differential for lactose and sucrose fermentation
MacConkey (MCK), which is differential for lactose fermentation
Mannitol Salt Agar (MSA), which is differential for mannitol fermentation
X-gal plates, which are differential for lac operon mutants

Transport media

These are used for the temporary storage of specimens being transported to the laboratory for cultivation. Such media ideally maintain the viability of all organisms in the specimen without altering their concentration. Transport media typically contain only buffers and salt. The lack of carbon, nitrogen, and organic growth factors prevents microbial multiplication. Transport media used in the isolation of anaerobes must be free of molecular oxygen.

Enriched media

Enriched media contain the nutrients required to support the growth of a wide variety of organisms, including some of the more fastidious ones. They are commonly used to harvest as many different types of microbes as are present in the specimen. Blood agar is an enriched medium in which nutritionally rich whole blood supplements the basic nutrients. Chocolate agar is enriched with heat-treated blood (40-45°C), which turns brown and gives the medium the color for which it is named.

References

^ ^a ^b ^c Madigan M, Martinko J (editors). (2005). Brock Biology of Microorganisms, 11th ed., Prentice Hall. ISBN 0131443291.
^ Ryan KJ, Ray CG (editors) (2004). Sherris Medical Microbiology, 4th ed., McGraw Hill. ISBN 0838585299.
^ Cooper GM (2000). "Tools of Cell Biology", The cell: a molecular approach. Washington, D.C: ASM Press. ISBN 0-87893-106-6.
^ Washington JA (1996). "Principles of Diagnosis", Baron's Medical Microbiology (Baron S et al, eds.), 4th ed., Univ of Texas Medical Branch. ISBN 0-9631172-1-1.

Categories: Microbiology | Growth media | Microbiological media

This article is licensed under the GNU Free Documentation License. It uses material from the Wikipedia article "Growth_medium". A list of authors is available in Wikipedia.