DM-1 - Lesson 13
DM-1 - Lesson 13
DM-1 - Lesson 13
FUNDAMENTALS OF MICROBIOLOGY
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Lesson 13
STRUCTURE AND GERMINATION OF ENDOSPORE, MICROBIAL
LOCOMOTION
13.1 Introduction
13.2 Endospore Forming Bacteria
13.3 Endospore Structure
13.4 Endospore Formation
13.5 Reactivation/Germination
13.6 Significance
13.1 Introduction
The spore (i.e. endospore), discovered in 1876 by Cohn, Koch and Tyndall independently,
is one of the hardiest dormant life forms on earth formed during the resting stage in the life
cycle of spore-forming genera. Endospores are produced within cells and are refractile -
light cannot penetrate them so that they are very easy to see in the phase microscope.
They are resting structures, meaning that there is little or no metabolism inside the spore
and it is a real form of suspended animation. Spores can survive for a very long time, and
then re-germinate. Spores that were dormant for thousands of years in the great tomes of
the Egyption Pharohs were able to germinate and grow when placed in appropriate
medium. There are even claims of spores that are over 250 million years old being able to
germinate when placed in appropriate medium.
Bacterial endospores are complex structures whose basic architecture is conserved across
species. Endospore enables an organism to resist extreme environmental conditions such as
Temperature
Drying
UV radiation
Strong acids and bases
Oxidizing agents
Extremes of both vacuum and ultrahigh hydrostatic pressure
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The presence of high content of calcium-dipicolinate which stabilizes and protect the
DNA
DNA-binding proteins protect DNA from heat, drying, chemicals, and radiation
Dehydration that results in resistance to heat and radiation
DNA repair enzymes are able to repair damaged DNA during germination
These resistant structures survive heating to 150°C although mostly killed at 121°C in
moist medium. They can remain dormant for immense periods of time, perhaps even
millions of years.
Spore formers generally found in soils as their ability to form spores as advantageous for
soil microorganisms. Spore formers are distinguished on the basis of cell morphology,
shape and cellular position of endospore (Fig. 13.1). Key spore forming genera are
Bacillus, Clostridium, Sporosarcina, Heliobacterium. Sporosarcinae are unique among
endospore formers because cells are cocci instead of rods and are strictly aerobic, spherical
cells. Other spore forming genera are Paenibacillus, Sporolactobacillus,
Desulfotomaculum, Thermoanarobacter, Sporomusa, Sporohalobacter, Amphibacillus,
Heliophylium, Heliorestis, Syntrophosphora, and Desulfitobacterium.
It is more complex than of vegetative cell. Inside spore there is a core (Spore protoplast),
containing cytoplasm, nucleoid and ribosomes (Fig. 13.2). The core of the mature
endospore has only 10-25 % of the vegetative cell water content what increases its
resistance to heat and chemicals. The pH of core is one unit lower than that of vegetative
cell cytoplasm and the core contains a high level of small acid-soluble proteins, SASPs,
able to bind DNA and to protect it from potential damage. The coat contains 50-78% of
total spore protein (Cot) which can be divided into two groups - alkali soluble and alkali
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insoluble.
The formation of a spore is an expensive and complex process for the bacterial cell. Spores
are only made under conditions where cell survival is threatened such as starvation for
certain nutrients or accumulation of toxic wastes. Regulation of sporulation is tight and the
first few steps are reversible. This helps the cell conserve energy and only sporulate when
necessary. Sporulation is a seven step process (Fig. 13.3). When a bacterium detects
environmental conditions are becoming unfavourable it may start the process of
endosporulation, which takes about eight hours. The first stages of sporulation are involved
in forming a separate compartment for the spore in the mother cell. Once this occurs,
sporulation is irreversible. The DNA is replicated and a membrane wall known as a spore
septum begins to form between it and the rest of the cell. The plasma membrane of the
cell surrounds this wall and pinches off to leave a double membrane around the DNA, and
the developing structure is now known as a forespore. Calcium dipicolinate is incorporated
into the forespore during this time. The next stages involve laying down the various layers
of the spore. The peptidoglycan cortex forms between the two layers and the bacterium
adds a spore coat to the outside of the forespore. Both, the spore and the mother cell, play
a role in this process. In the final stages, the spore dehydrates its cytoplasm and is released
from the cell. Research on sporulation in Bacillus subtilis is intense. It is a wonderful model
system for development, since the microbe is genetically tractible, allowing the isolation of
many mutants in each stage of sporulation.
Endospores are resistant to most agents that would normally kill the vegetative cells they
formed from. Household cleaning products generally have no effect, nor do most alcohols,
quaternary ammonium compounds or detergents. Alkylating agents however, such as
ethylene oxide, are effective against endospores. While resistant to extreme heat and
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13.5 Reactivation/Germination
Reactivation of the endospore occurs when conditions are more favourable and involves
activation, germination, and outgrowth. Even if an endospore is located in plentiful
nutrients, it may fail to germinate unless activation has taken place. This may be triggered
by heating the endospore. Germination involves the dormant endospore starting metabolic
activity and thus breaking hibernation. It is commonly characterised by rupture or
absorption of the spore coat, swelling of the endospore, an increase in metabolic activity,
and loss of resistance to environmental stress. Outgrowth follows germination and involves
the core of the endospore manufacturing new chemical components and exiting the old
spore coat to develop into a fully functional vegetative bacterial cell, which can divide to
produce more cells.
13.6 Significance
Endospore formation can be considered a primitive system of cell differentiation and has
become a paradigm for the study of this phenomenon in prokaryotes. As a simplified
model for cellular differentiation, the molecular details of endospore formation have been
extensively studied, specifically in the model organism Bacillus subtilis. These studies have
contributed much to our understanding of the regulation of gene expression, transcription
factors, and the sigma factor subunits of RNA polymerase.
Endospores of the bacterium Bacillus anthracis were used in the 2001 anthrax attacks. The
powder found in contaminated postal letters was composed of extracellular anthrax
endospores. Inhalation, ingestion or skin contamination of these endospores, which were
technically incorrectly labelled as ‘spores’, led to a number of deaths.
The presence of endospore formers can be problematic as they can not be inactivated by
heat treatments normally applied in food industry and cause food poisoning (Bacillus
cereus, Clostridium botulinum) and spoilage of even heat treated foods (B. subtilis, B.
coagulans).
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