Merck

Bacteriology

Gram color modified bacterial culture

The discipline of bacteriology is concerned with all aspects of genetics, structure, physiology, behavior, pathogenicity, ecology, and evolution of bacterial species. Bacteriological investigations are essential in clinical diagnostics and industrial quality control. Application of microscopy in bacteriology involves the staining of microorganisms with suitable methods (e.g. Gram stain) to determine the Bacteria classification or to detect mycobacteria.


Related Technical Articles

  • Information about lactobacilli, rod-shaped, Gram-positive, fermentative, facultative anaerobic or microaerophilic organotrophs. The lactobacillus organtroph belongs to the lactic acid bacteria group.
  • Chromogenic media enable the selective detection of S. aureus, which produce bluish-green colonies that are clearly differentiated from other species.
  • Selective media enable faster results and visual confirmation for the detection, identification, and enumeration of microorganisms
  • With bacterial resistance and emerging infectious diseases becoming potential threats to humans, ribosomally synthesized antimicrobial peptides have become a promising focus area in antibiotic research.
  • Common Cell Culture Problems: Contamination is easily the most common problem encountered in cell culture laboratories, sometimes with very serious consequence.
  • See All (16)

Related Protocols

Find More Articles and Protocols


Gram Staining

Gram staining is an essential staining technique in bacteriology used to differentiate Gram-positive and Gram-negative bacteria. In this method, differentiation is achieved as Gram-positive bacteria retain a crystal violet stain due to the presence of a thick layer of peptidoglycan in their cell walls. 

Alternatively, Gram-negative bacteria are decolorized by organic solvent and turn orange-pink when counterstained, which is attributed to a thinner peptidoglycan wall. Reagents required for this multi-step staining process include crystal violet (primary stain), aniline dye, iodine solution (mordant), and safranin orange (secondary stain), or carbol fuchsin counterstains.

Mycobacteria Staining

Early diagnosis of mycobacterial infection is critical, as the acid-fast bacteria are highly pathogenic and responsible for serious diseases, like tuberculosis. Diverse staining solutions are available for the detection of these pathogenic bacteria in histological tissue cultures and bacteriological smears. Fluorescence detection methods are utilized with the Ziehl-Neelsen staining technique, via either heat-treated slides (hot staining) or non-heated treatment (cold staining). This differential staining technique uses the lipid-soluble phenolic compound carbol fuchsin as the primary stain, and the counterstain, malachite green.

Trichomonad Staining

Trichomonas vaginalis parasites are especially common in gynaecological material, such as vaginal smears and urine sediment, and cause the most common non-viral sexually transmitted disease, trichomoniasis. Various stains like Giemsa and Acridine Orange, are used along with wet mount examination for the microscopic diagnosis of Trichomonas vaginalis.


Bacteriology applications in other industries

In the food and beverage industry, lactic acid bacteria such as LactobacillusLactococcus, and Streptococcus are used in the manufacture of dairy products, such as cheese, buttermilk, and yogurt. Bacterial fermentations are used in the processing of beverages, such as tea and coffee. In the growing field of gut microbiome health, several bacterial species are used in probiotic supplements to reduce inflammation and improve bowel function. Bacteria are also used in the pharmaceutical industry in vaccine research and production, including tetracyclines, erythromycin by Streptomyces and bacitracin by Bacillus.  


Common diagnostic bacteriology stains and their uses





Sign In To Continue

To continue reading please sign in or create an account.

Don't Have An Account?