Introduction In addition to general-purpose media, which allow the growth of most types of...

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Transcript of Introduction In addition to general-purpose media, which allow the growth of most types of...

Page 1: Introduction  In addition to general-purpose media, which allow the growth of most types of bacteria, microbiologists use specialized media to identify.
Page 2: Introduction  In addition to general-purpose media, which allow the growth of most types of bacteria, microbiologists use specialized media to identify.

Introduction

In addition to general-purpose media, which allow the growth of most types of bacteria, microbiologists use specialized media to identify and/or isolate specific groups of bacteria.

Selective and differential media are used to isolate or identify particular organisms.

Selective media allow certain types of organisms to grow, and inhibit the growth of other organisms. The selectivity is accomplished in several ways:

For example, organisms that can utilize a given sugar are easily screened by making that sugar the only carbon source in the medium.

Page 3: Introduction  In addition to general-purpose media, which allow the growth of most types of bacteria, microbiologists use specialized media to identify.

Media supplemented with penicillin (5-50 units/ml) or crystal violet (2 mg/l) will inhibit the growth of Gram-positive bacteria.

Tellurite agar, therefore, is used to select for Gram-positive organisms, and nutrient agar supplemented with penicillin can be used to select for Gram negative organisms.

On the other hand, selective inhibition of some types of microorganisms can be achieved by adding dyes, antibiotics, salts or specific inhibitors which affect the metabolism or enzyme systems of the organisms. For example, media containing potassium tellurite, sodium azide or thallium acetate (at concentrations of 0.1 - 0.5 g/l) will inhibit the growth of Gram-negative bacteria.

Page 4: Introduction  In addition to general-purpose media, which allow the growth of most types of bacteria, microbiologists use specialized media to identify.

Differential media works best with closely related organisms, and the differential agent is what causes the bacteria look different.Owing to the presence of certain dyes or chemicals in

the media, the organisms will produce characteristic changes or growth patterns that are used for identification or differentiation.

A variety of selective and differential media are used in medical, diagnostic and water pollution laboratories, and in food and dairy laboratories.

Differential media does not necessarily inhibit bacterial growth, but instead makes the bacteria look different.

Page 5: Introduction  In addition to general-purpose media, which allow the growth of most types of bacteria, microbiologists use specialized media to identify.

Some media are both selective and differential, that is, they are able to select against the growth of certain organisms while the organisms that do grow may exhibit some differential growth characteristics.Three of the more common selective and differential

media are described below and will be used in the laboratory exercise.

Page 6: Introduction  In addition to general-purpose media, which allow the growth of most types of bacteria, microbiologists use specialized media to identify.

Mannitol Salt Agar

Mannitol salt agar is a selective medium used for the isolation of pathogenic staphylococci.

The medium contains mannitol, a phenol red indicator, and 7.5% sodium chloride.

Ferment mannitol (differential)Phenol red = pH indicator Selective: The high salt concentration inhibits the

growth of most bacteria other than staphylococci. (Note: The high salt content does not kill Gram

negative bacteria, it just inhibits growth!)

Page 7: Introduction  In addition to general-purpose media, which allow the growth of most types of bacteria, microbiologists use specialized media to identify.

Other Staphylococcus don’t ferment mannitol don’t produce a color change from the normal red-pink color of the medium

The growth of other types of bacteria is generally inhibited.

S. aureus = salt tolerant; ferments mannitol (yellow)

S. epidermidis = salt tolerant; does NOT ferment (red)

M. luteus = not salt tolerant; does NOT grow on mannitol

On MSA, pathogenic Staphylococcus aureus produces small colonies surrounded by yellow zones. The reason for this change in color is that S. aureus ferments the mannitol, producing an acid, which, in turn, changes the indicator from red to yellow.

Page 8: Introduction  In addition to general-purpose media, which allow the growth of most types of bacteria, microbiologists use specialized media to identify.
Page 9: Introduction  In addition to general-purpose media, which allow the growth of most types of bacteria, microbiologists use specialized media to identify.

Levine's Eosin-methylene Blue Agar

(EMB) is primarily a differential medium. However, it does inhibit the growth of some Gram positive bacteria.

EMB is used to differentiate between enteric lactose fermenters (coliforms) and non-lactose fermenters as well as specifically identifying E. coli.

Eosin Methylene Blue agar contains peptone, lactose, and the dyes eosin Y and methylene blue. The sugars provide fermentable substrates to encourage growth of fecal coliforms. The dyes inhibit growth of Gram-positive organisms and, under acidic conditions, also produce a dark purple.

Page 10: Introduction  In addition to general-purpose media, which allow the growth of most types of bacteria, microbiologists use specialized media to identify.

Non-lactose fermenters will remain colorless or take on the color of the medium such as Salmonella (one of the causative agents of food poisoning).

Note: This media is used to confirm the presence of E. coli in water samples contaminated with sewage or fecal material.

You will use this agar again with in the water sampling experiment to differentiate between E. coli and Enterobacter.

The eosin and methylene blue dyes cause lactose fermenters to have pink colonies. E. coli incorporates so much of the dye that the dyes precipitate in the cells and give the colonies a metallic green sheen.

Page 11: Introduction  In addition to general-purpose media, which allow the growth of most types of bacteria, microbiologists use specialized media to identify.

The dark colonies produced on EMB agar is a result of the acid produced during lactose fermentation precipitating the dyes in the media.

Page 12: Introduction  In addition to general-purpose media, which allow the growth of most types of bacteria, microbiologists use specialized media to identify.
Page 13: Introduction  In addition to general-purpose media, which allow the growth of most types of bacteria, microbiologists use specialized media to identify.

MacConkey agar

Used to isolate Gram negative enterics (coliforms)

Selective and differential medium.

Selective - Gram positive bacteria are inhibited by the

presence of bile salts and crystal violet inhibitors in

the medium. Most of gram negative bacteria will

grow.

Differentiate- Between Gram negative bacteria by

their ability to ferment lactose.

Page 14: Introduction  In addition to general-purpose media, which allow the growth of most types of bacteria, microbiologists use specialized media to identify.

Non-coliform bacilli do not ferment lactose, and appear uncolored or transparent on Mac.

Note: The Gram positive bacteria do not die on this media, their growth is just inhibited.

Coliform bacilli produce acid from lactose fermentation causing the colonies to turn red from the pH indicator.

E. coli produces even greater quantities of acid causing the surrounding medium and the colonies to turn red.

Page 15: Introduction  In addition to general-purpose media, which allow the growth of most types of bacteria, microbiologists use specialized media to identify.
Page 16: Introduction  In addition to general-purpose media, which allow the growth of most types of bacteria, microbiologists use specialized media to identify.

END OF LECTURE