Abstract
Bacterial endospores are formed by certain bacteria, such as Bacillus subtilis or the pathogenic Bacillus anthracis and Clostridioides difficile, to allow survival in environmental conditions which are lethal to vegetative bacteria. The spores possess a particular architecture and molecular inventory which endow them with a remarkable resistance against desiccation, heat and radiation. Another remarkable spore feature is their rapid return to vegetative growth during spore germination and outgrowth. The underlying processes of this latter physiological and morphological transformation involve a number of different events, some of which are mechanistically not entirely understood. One of these events is the expansion of the central spore core, which contains the DNA, RNA and most spore enzymes. To date, it has been unclear how the ~1.3- to 1.6-fold expansion of the core membrane surface area that accompanies core expansion takes place, since this occurs in the absence of significant if any ATP synthesis. In the current work, we demonstrate the presence of intracellular membrane structures in spores located just below the core membrane. During spore germination these internal core membranes disappear when the core size increases, suggesting that they are integrated into the core membrane to allow core expansion. These intracellular membranes are most probably present as more or less compressed vesicles or tubules within the dormant spore core. Investigations of spores from different species suggest that these intracellular membrane structures below the core membrane are a general feature of endospore forming bacteria.
Highlights
Bacteria of the classes Bacilli and Clostridia form endospores to survive harsh environmental conditions such as lack of nutrients[1]
In the work presented in this paper we show that pre-formed membrane-structures are present within the core of dormant spores just below the core membrane (CM), and we provide evidence that this additional membrane serves as a reservoir of membrane which is inserted in the CM during spore germination to allow core expansion
Thickness measurements of the sub-CM membranes (sCMMs) resulted in a mean width of 5.4 nm (n = 14) for the structures with a single dark-bright-dark contrast, which is identical to the mean width measured for the CM (5.4 nm, n = 21). sCMMs with a periodic contrast revealed a mean width of 9.9 nm (n = 28), which is about 1.8-fold greater than the mean CM width
Summary
Bacteria of the classes Bacilli and Clostridia form endospores to survive harsh environmental conditions such as lack of nutrients[1]. Unique features of the central core and the core membrane (CM) include: i) a low water content, as low as 25% of wet weight for spores in water; ii) high core levels, ~25% of core dry weight, of a 1:1 chelate of Ca2+ and dipicolinic acid (CaDPA); iii) DNA stabilisation by novel spore-specific proteins; and iv) a relatively impermeable CM. These features are all major reasons for spore’s dormancy and extreme resistance[3]. In the work presented in this paper we show that pre-formed membrane-structures are present within the core of dormant spores just below the CM, and we provide evidence that this additional membrane serves as a reservoir of membrane which is inserted in the CM during spore germination to allow core expansion
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