Chapter 4 Prokaryotic Profiles

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Chapter 4 Prokaryotic Profiles Topics: External Structures Cell Envelope Internal Structures Cell Shapes, Arrangement, and Sizes Prokaryotes are unicellular organisms Prokaryotes include two small groups of organisms - the archaeobacteria and the photosynthetic cyanobacteria plus the large group of true bacteria or eubacteria Prokaryotes are generally small - in the range of 0.2 to 6.0 µm. However, there are exceptions. Cyanobacteria may be 60 µm long External Structures Flagella Pili and fimbriae Glycocalyx Flagella Composed of protein subunits Role - Motility (chemotaxis) Varied arrangement (ex. Monotrichous, lophotrichous, amphitrichous, peritrichous) Responsible for swarming in P. aeruginosa 1

Three main parts of the flagella include the basal body, hook, and filament. 2 3 Differences in Gram (+) and Gram (-) bacteria 1 Mono Lopho Associated with flagella is the phenomenon of chemotaxis random tumbles followed by directional runs Chemotaxis - cells have the capability of responding to chemical attractants Amphi Peri The rotation of the flagella enables bacteria to be motile Chemotaxis - response to chemical signals RUN TUMBLE 2

Periplasmic flagellum or Axial filament present in some spirochetes Pili and fimbriae Attachment Mating (Conjugation) - Pili are formed on certain bacterial cells and are important for bacteriophage attachment, conjugation bridges for gene transfer (transfer of antibiotic resistance plasmids for example) Pili enable conjugation to occur, which is the transfer of DNA from one bacterial cell to another - Fimbriae are smaller and are important for attachment E. coli attachment to intestinal cells Fimbriae binding to epithelial cells Glycocalyx outer coating on bacteria 2 types Capsule Protects bacteria from phagocytosis Streptococcus pneumoniae, Bacillus anthracis Slime layer Enable attachment and aggregation of bacterial cells. Source of nutrients? Most often associated with the biofilm mode of growth 3

Slime layer - Loose surface attachment not very thick virulence factor of biofilms Bacteria Biofilms Capsule - thick protection against phagocytosis often associated with increased virulence Griffin s experiments Cell envelope - the barrier that separates the environment from the 'living' cell Composed of cell wall, cell membrane and in Gram negative organisms, an outer cell membrane Cell Wall = PEPTIDOGLYCAN Cell Membrane = Phospholipids - just us!!! Cell wall- made up of linked N-acetyl glucosamine (NAG) and N-acetyl muramic acid (NAM) Gram POSITIVE cell wall Thick peptidoglycan (PG) layer Acidic polysaccharides Teichoic acid and lipoteichoic acid Gram NEGATIVE cell wall Thin PG layer Outer membrane Lipid polysaccharide Accentuated periplasmic space Structures associated with gram-positive and gram-negative cell walls - Teichoic acid consisting of glycerol, phosphates and ribitol is found in polymers in gram-positives. - Outer membrane - found primarily in Gram negatives - lipopolysaccharide (LPS) is a major component - also called endotoxin - lipid A is a major component of LPS and causes the toxic events of fever and blood vessel dilation observed in Gram-negative infections. - Periplasmic space - a gap between the cell membrane and the cell wall - particularly evident in Gram negative bacteria. 4

Cartoon of the NAG and NAM polymers - Layers of alternating NAM and NAG - Linkage between NAM from one layer to the NAM of the other one Linkage of two polymer chains through NAM in Gram positive bacteria NAN to NAM tetrapeptide bridge GRAM NEGATIVE Nontypical Cell Walls - Mycobacteria - Non Gram positive or Negative - Increased amounts of LIPIDS - Special staining ACID-FAST STAINING GRAM POSITIVE (waxy coat) Mycobacteria No cell wall = No Peptidoglycan Cell membrane contain sterols for stability - classical example is Mycoplasma - a common cause of atypical pneumonia - on agar, Mycoplasma looks like a 'fried egg' Scanning electron micrograph of Mycoplasma pneumoniae 5

Cell Membrane Phospholipid bilayer and integral proteins Mycoplasma STEROLS Function: 1) Selective permeability 2) Energy reactions 3) Synthesis of molecules Internal Structures Cytoplasm Genetic structures Endospore Cytoplasm Gelatinous solution containing water (70-80%), nutrients, proteins, and genetic material. Presence of ACTIN-like filaments = Cytoskeleton Genetic material and structures Single circular bacterial chromosome Nucleoid PLASMIDS Independent circular DNA structures Ribosomes - 'structures' that have multiple components - responsible for protein synthesis Prokaryotic Ribosome Storage Bodies - NUTRITIONAL SOURCE Glycogen, Starch, β- hydroxybutyrate - Gas vesicles 6

During nutrient depleted conditions, some bacteria (vegetative cell) form into an endospore in order to survive - Specific endospore staining techniques often make the endospores look like a safety pin - Bacillus and Clostridium Endosporulation - a survival mechanism for lean times Cell shapes, arrangements and sizes # # # # (RIGID) (Flexible) 7

You must know at least 3 features between the 3 domains Table 4.5 The End 8

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