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Transcript of Micro A Prokaryyotic Structure - …faculty.spokanefalls.edu/InetShare/AutoWebs/georget/Micro...
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Chapter 3
The Prokaryotic Cell Structure and Function
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for a sphere: surface area = 4πr2; volume = 4/3πr3
Does Size Matter?
if r = 1 µm; then surface area = 12.6 and vol. = 4.2
surface area/volume = 3
if r = 2 µm; then surface area = 50.3 and vol. = 33.5
surface area/volume = 1.5
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•largest –50 µm indiameter
• smallest –0.3 µm in diameter
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An Overview of Procaryotic Cell Structure
• a wide variety of sizes, shapes, and cellular aggregation patterns
• simpler than eucaryotic cell structure
• unique structures not observed in eucaryotes
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5Figure 3.4
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Size, Shape, and Arrangement• cocci (s., coccus) – spheres
– diplococci (s., diplococcus) – pairs– streptococci – chains– staphylococci – grape-like clusters– tetrads – 4 cocci in a square– sarcinae – cubic configuration of 8
cocci
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Size, Shape, and Arrangement• bacilli (s., bacillus) – rods
– coccobacilli – very short rods– vibrios – curved rods
• mycelium – network of long, multinucleate filaments
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Size, Shape, and Arrangement• spirilla (s., spirillum) – rigid helices• spirochetes – flexible helices• pleomorphic – organisms that are
variable in shape
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Flagella and Motility
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Motile Cells
Figure 4.9
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The filament
• hollow, rigid cylinder• composed of the protein flagellin• some procaryotes have a sheath
around filament
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Flagellar Ultrastructure
• 3 parts– filament– basal body– hook
Figure 3.33a
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Figure 3.34
Hook
Basal Body
Filament
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Flagellar Synthesis• an example of self-assembly• complex process involving many
genes and gene products• new molecules of flagellin are
transported through the hollow filament
• growth is from tip, not base
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The hook and basal body• hook
– links filament to basal body
• basal body– series of rings that
drive flagellar motor
Figure 3.33b
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Figure 3.35
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Chemotaxis
• movement towards a chemical attractant or away from a chemical repellant
• concentrations of chemoattractants and chemorepellants detected by chemoreceptors on surfaces of cells
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Travel towards attractant• caused by
lowering the frequency of tumbles
• biased random walk
Figure 3.40
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Patterns of arrangement• monotrichous – one flagellum• polar flagellum – flagellum at end of cell• amphitrichous – one flagellum at each
end of cell• lophotrichous – cluster of flagella at one
or both ends• peritrichous – spread over entire surface
of cell
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•Flagella can spin over 60,000 rpm
•Cells can travel up to 90µm/sec and swim up to 100 cell lengths/sec (fast man runs at 5 lengths/sec)
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The Mechanism of Flagellar Movement• flagellum rotates like a propeller
– in general, counterclockwise rotation causes forward motion (run)
– in general, clockwise rotation disrupts run causing a tumble (twiddle)
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Pili and Fimbriae• fimbriae (s., fimbria)
– short, thin, hairlike, proteinaceous appendages
• up to 1,000/cell– mediate attachment to surfaces– some (type IV fimbriae) required for
twitching motility or gliding motility that occurs in some bacteria
• sex pili (s., pilus)– similar to fimbriae except longer, thicker,
and less numerous (1-10/cell)– required for mating
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The Procaryotic Cell Wall• rigid structure
that lies just outside the plasma membrane
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Functions of cell wall
• provides characteristic shape to cell• protects the cell from osmotic lysis• may also contribute to pathogenicity• may also protect cell from toxic
substances• region of energy metabolism
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Cell walls of Bacteria
• Bacteria are divided into two major groups based on the response to Gram-stain procedure.– gram-positive bacteria stain purple– gram-negative bacteria stain pink
• staining reaction due to cell wall structure
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Figure 3.15
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some amino acids are not observed in proteins
Figure 3.16
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Gram -
Gram +
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Figure 3.19
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32 Figure 4.13b, c
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• Teichoic acids:– Lipoteichoic acid links to plasma
membrane– Wall teichoic acid links to peptidoglycan
• May regulate movement of cations• Polysaccharides provide antigenic
variation
Gram-Positive cell walls
Figure 4.13b
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Figure 3.22
teichoic acids
• polymers of glycerolor ribitol joined byphosphate groups
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Gram-Negative Cell Walls
• consist of a thin layer of peptidoglycan surrounded by an outer membrane
• outer membrane composed of lipids, lipoproteins, and lipopolysaccharide(LPS)
• no teichoic acids
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Figure 3.23
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The Mechanism of Gram Staining• thought to involve constriction of the
thick peptidoglycan layer of gram-positive cells– constriction prevents loss of crystal
violet during decolorization step• thinner peptidoglycan layer of gram-
negative bacteria does not prevent loss of crystal violet
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Procaryotic Cell Membranes
• membranes are an absolute requirement for all living organisms
• plasma membrane encompasses the cytoplasm
• some procaryotes also have internal membrane systems
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The Plasma Membrane
• contains lipids and proteins– lipids usually form a bilayer– proteins are embedded in or associated
with lipids• highly organized, asymmetric,
flexible, and dynamic
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The asymmetry of most membrane lipids• polar ends
– interact with water
– hydrophilic• nonpolar ends
– insoluble in water
– hydrophobic Figure 3.5
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Lipid Bilayer
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Figure 3.7 Fluid mosaic model of membrane structure
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Functions of the plasma membrane• separation of cell from its
environment• selectively permeable barrier
– some molecules are allowed to pass into or out of the cell
– transport systems aid in movement of molecules
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Other internal membrane systems• complex in-foldings of the plasma
membrane– observed in many photosynthetic
bacteria and in procaryotes with high respiratory activity
– may be aggregates of spherical vesicles, flattened vesicles, or tubular membranes
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Internal Membrane Systems• mesosomes
– may be invaginations of the plasma membrane• possible roles
– cell wall formation during cell division– chromosome replication and distribution– secretory processes
– may be artifacts of chemical fixation process
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The Cell Wall and Osmotic Protection• osmotic lysis
– can occur when cells are in hypotonic solutions
– movement of water into cell causes swelling and lysis due to osmotic pressure
• cell wall protects against osmotic lysis
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Cell walls do not protect against plasmolysis
• plasmolysis– occurs when cells are in hypertonic
solutions[solute]outside cell > [solute]inside cell
– water moves out of cell causing cytoplasm to shrivel and pull away from cell wall
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• Osmosis– Movement of water
across a selectively permeable membrane from an area of high water concentration to an area of lower water.
• Osmotic pressure– The pressure needed to
stop the movement of water across the membrane.
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Practical importance of plasmolysis and osmotic lysis• plasmolysis
– useful in food preservation– e.g., dried foods and jellies
• osmotic lysis– basis of lysozyme and penicillin action
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Figure 3.26
•protoplast – cell completely lacking cell wall
•spheroplast – cell with some cell wall remaining
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Membrane proteins
• peripheral proteins– loosely associated with the membrane
and easily removed• integral proteins
– embedded within the membrane and not easily removed
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More functions…
• location of crucial metabolic processes
• detection of and response to chemicals in surroundings with the aid of special receptor molecules in the membrane
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Important connections• Braun’s lipoproteins connect outer
membrane to peptidoglycan• Adhesion sites
– sites of direct contact (possibly true membrane fusions) between plasma membrane and outer membrane
– substances may move directly into cell through adhesion sites
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Lipopolysaccharides (LPSs)• consist of three parts
– lipid A– core polysaccharide– O side chain (O antigen)
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Figure 3.25
2-keto-3-deoxyoctonate (8C)
Heptulose (7C)
glucosamine
Abequose (6C)
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Importance of LPS
• protection from host defenses (O antigen)
• contributes to negative charge on cell surface (core polysaccharide)
• helps stabilize outer membrane structure (lipid A)
• can act as an endotoxin (lipid A)
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Endotoxin• Lipid A released when cells lyse• Causes systemic effects
– Fever, Shock, Blood coagulation, Weakness, Diarrhea, Inflammation, Intestinal Hemorrhage, Fibrinolysis
• Effects are indirect, i.e., the LPS causes host systems to turn on including activating white cells, especially macophages and monocytes
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Other characteristics of outer membrane• more permeable than plasma
membrane due to presence of porin proteins and transporter proteins– porin proteins form channels through
which small molecules (600-700 daltons) can pass
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Examples of active transport1. ATP- bindinq cassette transporter ABC transporter.
2. Svmport and antiport systems
3. Active transport by means of Grouptranslocation or Phosphotransferase system.
4. Transport of iron
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Movement Across Membranes
Figure 4.17
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Transporter Proteins
1. Passive diffusion
2. Facilitated diffusion
3. Active transport
Transport of nutrients and waste by bacteria (Usually small molecules: ions, amino-acids, sugars, purines and pyrimidines, vitamins, organic acids and alcohols, etc.
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Capsules, Slime Layers, and S-Layers• layers of material lying outside the cell
wall– capsules
• usually composed of polysaccharides• well organized and not easily removed from cell
– slime layers• similar to capsules except diffuse, unorganized
and easily removed
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Capsules, Slime Layers, and S-Layers• glycocalyx
– network of polysaccharides extending from the surface of the cell
– a capsule or slime layer composed of polysaccharides can also be referred to as a glycocalyx
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Capsules, Slime Layers, and S-Layers• S-layers
– regularly structured layers of protein or glycoprotein
– common among Archaea, where they may be the only structure outside the plasma membrane
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Functions of capsules, slime layers, and S-layers
• protection from host defenses (e.g., phagocytosis)
• protection from harsh environmental conditions (e.g., desiccation)
• attachment to surfaces
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More functions…
• protection from viral infection or predation by bacteria
• protection from chemicals in environment (e.g., detergents)
• motility of gliding bacteria• protection against osmotic stress
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Sporogenesis
• normally commences when growth ceases because of lack of nutrients
• complex multistage process
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The Bacterial Endospore• formed by some bacteria• dormant• resistant to numerous environmental
conditions– heat– radiation– chemicals– desiccation
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Figure 3.40
endospore
sporangium
central spore
subterminalspore
terminalspore
terminal sporewith swollensporangium
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Figure 3.42
Core WallSpore CoatExosporium
Cortex
Core
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What makes an endospore so resistant?• calcium (complexed with dipicolinic
acid) in the core• acid-soluble, DNA-binding proteins• dehydrated core• spore coat (protein layers)• DNA repair enzymes (during
germination)
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Figure 3.44
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Transformation of endospore into vegetative cell
• complex, multistage process
Figure 3.45
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Stages in transformation• activation
– prepares spores for germination– often results from treatments like heating
• germination– spore swelling– rupture of absorption of spore coat– loss of resistance– increased metabolic activity
• outgrowth– emergence of vegetative cell
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Inclusion Bodies• granules of organic or inorganic
material that are stockpiled by the cell for future use
• some are enclosed by a single-layered membrane– membranes vary in composition– some made of proteins; others contain
lipids
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CytoplasmicMatrix
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Organic inclusion bodies• glycogen
– polymer of glucose units (like starch)• poly-ß-hydroxybutyrate (PHB)• Both are for storing
C for energy and biosynthesis
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Organic inclusion bodies
• gas vacuoles– found in cyanobacteria and some other
aquatic procaryotes– provide buoyancy– aggregates of hollow cylindrical
structures called gas vesicles
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Inorganic inclusion bodies• polyphosphate granules
– also called volutin granules and metachromatic granules
– linear polymers of phosphates• sulfur granules• magnetosomes
– contain iron in the form of magnetite– used to orient cells in magnetic fields
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Figure 3.12a
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Box 3.2b