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While significantly resistant to heat and radiation, endospores can be destroyed by burning or by autoclaving at a temperature exceeding the boiling point of water, 100 °C. Endospores are able to survive at 100 °C for hours, although the larger the number of hours the fewer that will survive.
Endospores can last for decades in multiple hard conditions, such as drying and freezing. This is because the DNA inside the endospore can survive over a long period. Most bacteria are unable to form endospores due to their high resistance, but some common species are the genera Bacillus ( over 100 species) and Clostridium (over 160 species). [2]
The last stage of the moss lifecycle is shown, where the sporophytes are visible before dispersion of their spores: the calyptra (1) is still attached to the capsule (3). The tops of the gametophytes (2) can be discerned as well.
The term sporogenesis can also refer to endospore formation in bacteria, which allows the cells to survive unfavorable conditions. Endospores are not reproductive structures and their formation does not require cell fusion or division. Instead, they form through the production of an encapsulating spore coat within the spore-forming cell.
Clostridium septicum is a resident bacterium of the human microflora, however it can be found in almost any anoxic habitat in which exists organic compounds. [4] Under unfavorable conditions, C. septicum forms endospores allowing it to survive under harsh conditions such as extreme temperature, dry land, and nutrient-deficient habitats.
Clostridium sporogenes colonizes the human gastrointestinal tract, but is only present in a subset of the population; in the intestine, it uses tryptophan to synthesize indole and subsequently 3-indolepropionic acid (IPA) [5] – a type of auxin (plant hormone) [6] [7] – which serves as a potent neuroprotective antioxidant within the human ...
Lysinibacillus sphaericus (previously known as Bacillus sphaericus) [1] is a Gram-positive, mesophilic, rod-shaped bacterium commonly found on soil. It can form resistant endospores that are tolerant to high temperatures, chemicals and ultraviolet light and can remain viable for long periods of time.
An infected root-knot female can contain up to two million endpsores, [4] while an infected J2 of H. avenae will contain less than a thousand endospores [9]. Interestingly, endopores that do not infect water fleas and pass through a resistant host can still remain viable and infectious. [ 10 ]