Bacillus anthracis is a Gram-positive spore-forming, rod-shaped bacterium, with a width of 1-1.2µm and a length of 3-5µm. It can be grown in an ordinary nutrient medium under aerobic or anaerobic conditions. It is the only bacterium with a protein capsule (D-glutamate), and the only pathogenic bacteria to carry its own adenylyl cyclase virulence factor (edema factor). It bears close genotypical and phenotypical resemblance to Bacillus cereus and Bacillus thuringiensis. All three species share cellular dimensions and morphology. All form oval spores located centrally in a non-swollen sporangium. Bacillus anthracis spores in particular are highly resilient, surviving extremes of temperature, low-nutrient environments, and harsh chemical treatment over decades or centuries.
Casimir Davaine first isolated this bacterium from the blood of sheep suffering from anthrax. B. anthracis was the first bacterium conclusively demonstrated to cause disease, by Robert Koch in 1877. The species name anthracis is from the Greek anthrakis (ἄνθραξ), meaning coal and referring to the most common form of the disease, cutaneous anthrax, in which large black skin lesions are formed.
Three forms of anthrax disease are recognized based on their form of inoculation.
- the most common form (95%), causes a localized inflammatory black necrotic lesion (eschar)
- highly fatal and characterized by sudden massive chest edema followed by cardiovascular shock
- rare but also fatal (causes death to 25%) type results from ingestion of spores
Components of tea, such as polyphenols, have the ability to inhibit the activity both of bacillus anthracis and its toxin considerably; spores, however, are not affected. The addition of milk to the tea completely inhibits its antibacterial activity against anthrax. Activity against the anthrax bacillum in the laboratory does not prove that drinking tea affects the course of an infection, since it is unknown how these polyphenols are absorbed and distributed within the body.