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Carl Nägeli, a Swiss botanist, discovered in 1893 that the ions of various metals and their alloys such as silver and copper, but also mercury, iron, lead, zinc, bismuth, gold, aluminium and others, have a toxic effect on microbial life by denaturing microbial enzymes and thus disrupting their metabolism. This effect is negligible in viruses ...
Neutral lipids are hydrolyzed by lipases shortly after death, to free the fatty acids from their glycerol backbone. This creates a mixture of saturated and unsaturated fatty acids. [13] Under the right conditions (when sufficient water and bacterial enzymes are present), neutral lipids will be completely degraded until they are reduced to fatty ...
Ants eating a dead snake. Decomposition begins at the moment of death, caused by two factors: autolysis, the breaking down of tissues by the body's own internal chemicals and enzymes, and putrefaction, the breakdown of tissues by bacteria.
Putrefying bacteria play a key role in decomposing and fermenting substances within the body as well as the body itself after death. Putrefaction is defined as the final step of decomposition after death. [3] Because these bacteria play a role in decomposition after death, putrefying bacteria also play a key role in the nitrogen cycle.
Phage lytic enzymes produced during bacteriophage infection are responsible for the ability of these viruses to lyse bacterial cells. [2] Penicillin and related β-lactam antibiotics cause the death of bacteria through enzyme-mediated lysis that occurs after the drug causes the bacterium to form a defective cell wall. [3]
The death cap is named in Latin as such in the correspondence between the English physician Thomas Browne and Christopher Merrett. [13] Also, it was described by French botanist Sébastien Vaillant in 1727, who gave a succinct phrase name "Fungus phalloides, annulatus, sordide virescens, et patulus"—a recognizable name for the fungus today. [14]
EF is an adenylate cyclase that targets ATP. LF enzyme is a metalloprotease that confers the lethal phenotype associated with anthrax disease. [7] As LF is the agent responsible for the death of infected hosts, it is classified in the group of lethal toxins. [3]
All saprotrophic bacteria are unicellular prokaryotes, and reproduce asexually through binary fission. [2] Variation in the turnover times (the rate at which a nutrient is depleted and replaced in a particular nutrient pool) of the bacteria may be due in part to variation in environmental factors including temperature, soil moisture, soil pH, substrate type and concentration, plant genotype ...