Special Stains

Some bacteria have characteristic surface structures (such as capsules orflagella) and internal components (e.g., endospores) that may have taxonomic value for their identification. When it is necessary to demonstrate whether or not a particular organism possesses a capsule, is flagellated, or forms endospores, special staining techniques must be used.

Many bacterial species possess an exterior capsule composed of carbohydrate or glycoprotein. A few pathogenic species, such as Streptococcus pneumoniae (the leading cause of bacterial pneumonia) and Klebsiella pneumoniae (a cause of pneumonia and wound and urinary tract infections) have well-developed capsules that contribute to virulence by preventing phagocytic cells from ingesting and killing the bacteria. Capsules do not retain staining agents, but can be made visible microscopically by the use of a simple, nonspecific negative staining technique. A small drop of India ink or nigrosin is added to a suspension of bacterial cells on a glass slide. These agents do not penetrate the cells (or stain the surrounding capsules), but serve as background stains, which outline the capsules. When the slide is dry, the preparation is stained with safranin, which penetrates and stains the cells. After this treatment, the bacteria appear pink and their capsules stand out sharply as clear, unstained zones against the dark background of India ink or nigrosin.

In the animal body, carbohydrate or protein capsular components are recognized as foreign substances (referred to as antigens). In response to the presence of capsular antigens, antibodies are produced that react with (bind to) the capsule. The binding of antibodies to antigen (called an antigen-antibody reaction) greatly enhances phagocytosis. Many variations in the chemical structure of capsular antigens exist, even within a single bacterial species, and each variation stimulates the production of antibodies specific for that capsular type. For example, more than 80 capsular types of S. pneumoniae have been identified.

As you will learn in Exercise 19, serological tests, which make use of these specific antigen-antibody reactions, are often used for rapid and accurate identification of bacteria present in clinical specimens. Encapsulated bacteria may be identified serologically by one such test, called the quellung reaction. In this test, unknown bacteria from the clinical specimen are placed on a slide and antiserum (serum containing known antibodies) is added. When the preparation is viewed under the microscope, if an antigen-antibody reaction has occurred between antibodies in the test serum and capsular antigens on the bacterial cells (a positive test), the capsules become much more distinct and appear to swell (see colorplate 10).

Bacterial flagella are tiny hairlike organelles of locomotion. Originating in the cytoplasm beneath the cell wall, they extend beyond the cell, usually equaling or exceeding it in length. Their fine protein structure requires special staining techniques for demonstrating them with the light microscope. Since not all bacteria possess flagella, their presence, numbers, and pattern or arrangement on the cell may provide clues to identification of species (fig. 7.1). For example, Vibrio cholerae and some species of Pseudomonas have a single polar flagellum at one end of the cell (they are said to be monotrichous), some spirillae display bipolar tufts of flagella (the arrangement is called lophotri-chous), while many Proteus species have multiple flagella surrounding their cells (in a peritrichous pattern). Some flagellar stains employ rosaniline dyes and a mordant, applied to a bacterial suspension fixed in formalin and spread across a glass slide. The formalin links to, or "fixes," the flagellar and other surface protein of the cells. The dye and mordant then precipitate around these "fixed" surfaces, enlarging their diameters, and making flagella visible when viewed under the microscope. In

Morello-Mizer-Granato: I I. Basic Techniques of Laboratory Manual and Microbiology

Workbook in Microbiology, 7/e

3. Differential Stains

Figure 7.1 Arrangements of bacterial flagella.

iÎiki another method, a ferric-tannate mordant and a silver nitrate solution are applied to a bacterial suspension. The resulting dark precipitate that forms on the bacteria and their flagella allows them to be easily visualized under the microscope. This silver-plating technique is also used to stain the very slender spirochetes.

Clostridium. The process of sporulation involves the condensation of vital cellular components within a thick, double-layered wall enclosing a round or ovoid inner body. The activities of the vegetative (actively growing) cell slow down, and it loses moisture as the endospore is formed. Gradually, the empty bacterial shell falls away. The remaining endospore is highly resistant to environmental influences, representing a resting, protective stage. Most disinfectants cannot permeate it, and it resists the lethal effects of drying, sunlight, ultraviolet radiation, and boiling. It can be killed when dry heat is applied at high temperatures or for long periods, by steam heat under pressure (in the autoclave), or by special sporicidal (endospore-killing) disinfectants. Because bacterial endospore walls are not readily permeated by materials in solution, the inner contents of the en-dospores are not easily stained by ordinary bacterial dyes. When sporulating bacteria are Gram stained, the endospores forming within the vegetative cells appear as empty holes in the bacterial bodies (see colorplate 8). Depending on their location within the cell, the endospores are referred to as terminal (at the very end of the vegetative cell), subterminal (near, but not at, the end of the cell), or central. Free endospores are invisible when stained with the Gram stain or appear as faint pink rings. To demonstrate the inner contents of bacterial endospores, you must use a special staining technique that can drive a dye through the endospore coat.

(a) Monotrichous (polar)

(b) Lophotrichous (c) Pentnchr.us

[d) Amphitrichous

Among bacteria, endospore formation is most characteristic of two genera, Bacillus and

Morello-Mizer-Granato: I. Basic Techniques of Laboratory Manual and Microbiology

Workbook in Microbiology,

EXPERIMENT 7.1 Staining Bacterial Endospores (Schaeffer-Fulton Method)

Purpose

To learn a technique for staining bacterial endospores

Materials

3- to 5-day-old agar slant culture of Bacillus subtilis 24-hour-old slant culture of Staphylococcus epidermidis Malachite green solution Safranin solution Slides

Diamond glass-marking pencil

Slide rack

500-ml beaker

Tripod with asbestos mat

Forceps

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Bacterial Vaginosis Facts

Bacterial Vaginosis Facts

This fact sheet is designed to provide you with information on Bacterial Vaginosis. Bacterial vaginosis is an abnormal vaginal condition that is characterized by vaginal discharge and results from an overgrowth of atypical bacteria in the vagina.

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Responses

  • valente
    Why does the endospore staining technique requires an older (5day) culture of bacillus?
    8 years ago
  • Sophia
    Why must capsules flagella and endospores have a special stain?
    8 years ago
  • Dehab Gebre
    When you use the schaeffer fulton endospore stain on s.epidermis will i see endospores?
    8 years ago
  • phyllis
    Does vibrio require any special staining techniques?
    8 years ago
  • Irma
    Does vibrio cholera require special staining techniques?
    8 years ago
  • matias
    What tests are special stains in microbiology?
    8 years ago
  • Michael Brhane
    Why must special stains be used to visualize bacterial capsules flagella and endospores?
    8 years ago
  • adonay robel
    How may the flagella of bacteria be made miscroscopically visible?
    7 years ago
  • bandobras
    How may the flagella of bacteria be made microscopically visible?
    7 years ago
  • LETE
    Why must special stains be used to demonstrate s?
    7 years ago
  • basso
    Why do medical microbiologist use special stains?
    7 years ago
  • ESKO HUHTALA
    Why flagella staining is more preferred than other stains?
    7 years ago
  • Antti
    What is a special stain in microbiology?
    6 years ago
  • frans korhola
    How many results should I get back from a special stains group 1?
    6 months ago
  • Ivo Bianchi
    Why were special stains invented in microbiology?
    3 months ago

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