Culture media

Growth media are substrates that provide suitable living conditions for the growth of microorganisms. They can be used to detect and determine the properties of certain microorganisms.

Types of media
Culture media can be divided according to their state into two types: solid and liquid.

Basal media
They are rich in nutrients and growth factors. They include broth.

Enriched media
They are used to cultivate more fastidious bacteria, which need special growth factors. They can be enriched with for example amino acids], [[vitamins, sugar etc. A typical example is blood agar enriched with a growth factor hemin, which is necessary for the growth of for example hemophilic bacteria or Neisseria gonorrhoeae.

Selective media
Only certain organisms grow on selective media and are therefore used if we want to isolate a certain species. We achieve this either by adding substances that have bactericidal effects on a certain species, or by making the medium poor in certain substances (for example a certain amino acid) that are necessary for the growth of unwanted organisms. For example Löwenstein-Jensen medium.

Indicator media
These growth media are used to distinguish multiple species of organisms found in one medium. This is usually achieved by a different coloration of the individual colonies, which is caused for example by different metabolism of a certain substance, the products of which then react with the indicator in the medium. An example of that is an ENTEROtest.

Selective-indicator media
They are a combination of selective and indicator soils. They contain inhibitors and indicators and are therefore more specific than the previous two. Examples are Endo agar, deoxycholate citrate agar, bile esculin agar…

Transport media
They are designed to transport the sample to the laboratory. They contain a minimum amount of nutrients to avoid overgrowth and distortion of the amount of microorganism in the sample. Examples are Amies medium, Stuart medium or Cary-Blair medium.

Broth

 * a universal liquid medium
 * microorganisms grow in the form of a turbidity in an originally clear medium (facultatively anaerobic), surface blanks (aerobic) or a sediment (anaerobic)
 * by adding agar (seaweed polysaccharide) it is made into solid media, which are commonly known as agar

Nutrient media

 * they contain essential nutrients for the growth of bacteria
 * they can be liquid (broth) or solidified with agar
 * they are the base for enriched soils

Blood agar

 * a dark red medium, made of a nutrient medium enriched with blood (mostly sheep or horse) and a natural polysaccharide agar
 * both G+ and G− bacteria grow on it
 * it is suitable for most species
 * hemolyzující bacteria that produce hemolysin make the agar lighter – which is used in the CAMP test to differentiate Streptococcus agalactiae and Streptococcus pyogenes

Chocolate agar

 * is made by adding blood to an agar base at a temperature of 85 °C
 * blood denatured by heat causes the brown colour

Endo agar

 * it is light pink and turns more pink when exposed to light
 * G+ bacteria do not grow on it
 * divides bacteria into lactose-positive, which metabolize laktose – they create aldehydes, which react with fuchsine in the Endo medium and create Schiff bases and the colonies turn dark pink
 * laktose-negativ bacteria stay their standard colour

MacConkey agar

 * similarilly to the Endo agar, it divides bacteria into laktose-positive, which turn the medium pink or red, and laktose negative bacteria, which do not

Deoxycholate citrate agar (DC agar)

 * G+ bacteria do not grow on it
 * G- bacteria that ferment lactose – pink-red colour
 * laktose negative – white (for example some intestinal bacteria)
 * contains Na2S2O3 (sodium thiosulphate), which together with hydrogen sulfide, that is produced by certain bacteria species (Salmonella, Citrobacter, Proteus), creates Fe sulfides – black tips of the colonies
 * suppresses the swarming growth of Proteus

Bile Esculin agar (BE agar)

 * used to diagnose G+ Enterococcus faecalis (large intestine) → urinary tract infections

Clauberg agar

 * among other ingredients, it also contains tellurite, which inhibits the growth of bacteria except for Corynebacteria, which reduce tellurite to tellurium, and that is subsequently reflected in the color of the soil (gray, brown or black).

Tinsdale Agar

 * similarilly to the Clauberg agar, it is used to diagnose Corynebacteria
 * a gray-black halo is formed around the colonies as a produt of the reaction of tellurium with sulfane (formed from cystine)

Löwensteinova-Jensen agar

 * used to cultivate mycobacteria

Sabouraud agar

 * it is a light yellow soil, which is too poor in nutrients for bacteria, but yeasts and fungi grow on it

Mueller–Hinton agar (MH agar)

 * used to determine antibiotic sensitivity (disk diffusion method)
 * there is also a kind enriched with blood

Related articles

 * Plating on culture media
 * Blood agar
 * Chocolate agar