Background and Purpose:  This staining method is a differential stain used to identify members of the genera Mycobacterium and Nocardia.  These bacteria, and a few others, have cells walls that contain a waxy, lipoidal material called mycolic acid.  This substance gives these bacteria unique staining properties that set them apart from most others.  Specifically, when they are stained with carbolfuchsin, these bacteria retain this primary stain even after treatment with a decolorizing agent called acid-alcohol.  When this occurs, these bacteria are said to be acid-fast.  In contrast, most other bacteria which are readily decolorized by acid-alcohol are called nonacid-fast.  This staining technique is of diagnostic value for determining the presence of acid-fast bacteria in sputum or tissues.  Notably, this provides presumptive evidence for diseases such as tuberculosis (Mycobacterium tuberculosis), leprosy (M. leprae) or nocardiosis (Nocardia spp.).  Here in northern Michigan, acid-fast staining is used to help monitor the prevalence of bovine tuberculosis (Mycobacterium bovis) among cattle and white-tailed deer. 

Acid-fast Mycobacterium smegmatis

General Procedure:  Using heat, a bacterial smear is first stained with carbolfuchsin and then decolorized with acid alcohol.  After a brief rinsing with water, the smear is then counterstained with methylene blue.

Materials:  carbolfuchsin, acid-alcohol, methylene blue, hot plate (or Bunsen burner and tripod), small beaker (150 ml), staining rack, slide holder, disposable latex gloves, wash bottle, bibulous paper

Background and Purpose:  Several bacteria are capable of true motility.  These microbes usually possess locomotor appendages called flagella.  However, spirochetes use axial filaments that generate a twisting/flexing movement and the myxobacteria demonstrate a motion known as gliding.  Each of these active modes of locomotion allow cells to independently move from one location to another.  Bacteria lacking true motility exhibit a passive vibratory motion call Brownian movement.  This erratic, nondirectional movement occurs when cells are randomly bumped or bombarded by water molecules. 

Knowing whether true motility is present or absent is important in identifying various groups of bacteria.  And, if flagella are present, knowing their arrangement is a useful characteristic for identification.  One method for determining motility is to microscopically examine live bacteria.  Although the flagella are too slender to be observed with a light microscope, the movements of these cells can be seen.  The hanging drop method used here is a type of wet mount slide preparation that permits the observation of living, unstained cells in a fluid medium.

General Procedure:  A small drop of live bacteria is transferred to the center of a cover glass.  Using petroleum jelly, the cover glass is attached to a depression slide.  After inverting the slide, organisms are observed in a drop suspended under the cover glass within the concavity of the slide.        

Materials:  depression slide, cover glass, Vaseline (petroleum jelly), tooth picks