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Microbiology – Chapter 4, Bacteria

Microbiology – Chapter 4, Bacteria. Bacteria are Prokaryotes – No nucleus or organelles bound in membranes DNA is a single circular chromosome No Histones associated with DNA Cell Walls of peptidoglycan (polymer of NAG and NAM cross-linked with polypeptide chain) Smaller ribosome unit

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Microbiology – Chapter 4, Bacteria

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  1. Microbiology – Chapter 4, Bacteria Bacteria are Prokaryotes – No nucleus or organelles bound in membranes DNA is a single circular chromosome No Histones associated with DNA Cell Walls of peptidoglycan (polymer of NAG and NAM cross-linked with polypeptide chain) Smaller ribosome unit Divide by binary fission (not mitosis)

  2. Microbiology – Chapter 4, Bacteria Typical bacteria diagram

  3. Microbiology – Chapter 4, Bacteria Another bacteria diagram

  4. Microbiology – Chapter 4, Bacteria Bacterial Chromosme in “nucleoid area”

  5. Microbiology – Chapter 4, Bacteria Bacterial chromosome and an extra-chromosomal “plasmid”

  6. Microbiology – Chapter 4, Bacteria Smaller ribosome than eukaryotes, same function: protein synthesis

  7. Microbiology – Chapter 4, Bacteria Bacteria divide by “binary fission”

  8. Microbiology – Chapter 4, Bacteria Eukaryotes – “true nucleus”, and membrane bound organelles DNA is membrane bound, inside nucleus, nuclear membrane is a double membrane Chromosomes are usually multiple (paired), and have special histone protein associated with the DNA molecules Membrane bound “organelles”: packages where specialized functions take place: mitochondria, lysosome, ER, Golgi, etc. Cell wall if present is chemically simple (cellulose, or chitin) Slightly larger ribosome Cells divide by a process like mitosis (and can have meiosis too)

  9. Microbiology – Chapter 4, Bacteria Typical Eukaryote cell Diagram: More in chapter 5

  10. Microbiology – Chapter 4, Bacteria Bacterial appendages: Pilli (fimbriae) and Flagella Pilli are short, hair-like, protein: function “adherence” – stick to each other, stick to surfaces, harder to wash away Specialized “sex” pilus - conjugation

  11. Microbiology – Chapter 4, Bacteria Flagella: complex organ of motility, a “motor” VERY COOL A = monotrichous B = amphitrichous C = lophotrichous D = peritrichous

  12. Microbiology – Chapter 4, Bacteria • Bacterial “Envelope” – Structures on the outside of bacteria: • Glycocalyx – sugar coat, if tightly bound = capsule • Protects and prevents from drying, also protects from phagocytes • Slimy, and often a significant component of “biofilms”

  13. Microbiology – Chapter 4, Bacteria • Outer membrane (outside of cell wall) found in Gram (-) bacteria

  14. Microbiology – Chapter 4, Bacteria • Outer membrane (outside of cell wall) found in Gram (-) bacteria • Gram – bacteria have LPS (lipopolysaccharide), lipoprotein, and phospholipids • These can cause some of the symptoms of Gram – bacterial infections (fever, shock, diarrhea)

  15. Microbiology – Chapter 4, Bacteria • Bacterial Cell Wall – macromolecule, polysaccharide, repeating sugars, NAG and NAM, cross-linked with shot chains of Amino Acids • “Peptidoglycan, aka: murein” • Tough outer coat, prevents rupture, protects cell, gives it its distinct shape • Certain antibiotics work by inhibiting cell wall synthesis (penicillins)

  16. Microbiology – Chapter 4, Bacteria • Bacterial Cell Wall

  17. Microbiology – Chapter 4, Bacteria • Gram + and Gram – bacteria have differences in Cell Wall and outer envelope (the theory of why the grams stain works is based on this difference)

  18. Microbiology – Chapter 4, Bacteria • Gram + and Gram – bacteria have differences in Cell Wall and outer envelope (the theory of why the grams stain works is based on this difference) Gram – are less sensitive to penicillin as a result of thinner CW and outer membrane

  19. Microbiology – Chapter 4, Bacteria • Grams stain = a differential stain procedure, different results, + and (-)

  20. Microbiology – Chapter 4, Bacteria • Grams stain = a differential stain procedure, different results, + and (-)

  21. Microbiology – Chapter 4, Bacteria • Gram negative cell envelope much more complicated than Gram +: lipid, phospholipid, lipid A, peiplasmic space (fluid filled area between cell wall and outer membrane), various protein porons

  22. Microbiology – Chapter 4, Bacteria • Bacterial cell “shapes” A=bacillus or pl. bacilli B= round, coccus, cocci pl., in chains “Streptococcus) C. Staphylococcus – clusters D= diplococcus E=Spirillum, spirilla pl. (spirochete is a corkscrew shape – not shown) F= vibrio, more comma shaped

  23. Microbiology – Chapter 4, Bacteria • Cell shape is determined by the genetic character of the organism. Its genes code for the synthesis of the CW material and the cell division mechanism that results in a “round” or “rod” or “spiral” shape • One of the criteria used in ID of bacteria • Coupled with gram reaction = helpful • Ex. Gram + cocci in clusters is “Staphylococcus” Gram (-) bacilli, motile, green sheen on EMB is E.coli

  24. Microbiology – Chapter 4, Bacteria • Bacterial cell membrane: regulates what moves in and out of the cytoplasm • Diffusion –concentration gradients > high to low • Osmosis – diffusion of water across a semipermeable membrane • Isotonic • Hypertonic • Hypotonic ***REVIEW ON YOUR OWN*** • Passive transport • Active transport • Engulfment (phagocytosis, pinocytosis) • Specialized group translocation

  25. Microbiology – Chapter 4, Bacteria • Inside the bacterial cytoplasm • Nuceloid – area containing the bacterial chromosome (DNA)

  26. Microbiology – Chapter 4, Bacteria • Inside the bacterial cytoplasm • Plasmid – Extrachromosomal DNA, not part of “genome”, different genes • Can transfer in a process – conjugation across sex pilus, change the genetic character of the recipient • Tool of “genetic”engineer

  27. Microbiology – Chapter 4, Bacteria • Inside the bacterial cytoplasm • Ribosomes: structure made of RNA, site of protein synthesis • Some antibiotics work by messing with the “ribosome” • Slightly smaller than our eukaryote ribosome, so antibiotic can work on bacteria but not affect us (selective toxicity)

  28. Microbiology – Chapter 4, Bacteria • Inside the bacterial cytoplasm • Inclusions: granules of sugar, lipid storage, etc. (storage) • Endospores (Genus: Bacillus and Clostridium) Hardiest of bacterial structures. Difficult to kill with heat or chemical. Autoclave: 121 degree C, 15 lbs/sq. in. pressure – to penetrate thick coat and destroy genome of bacteria. Purpose: survival not reproduction • Inclusions:

  29. Microbiology – Chapter 4, Bacteria • Inside the bacterial cytoplasm More spores:

  30. Microbiology – Chapter 4, Bacteria • Taxonomy and Bacteria: Yucch!!!!!! • We use Bergey’s Manual for rapid ID of bacteria. Started in the • 1940’s, before a lot of modern tech. invented

  31. Microbiology – Chapter 4, Bacteria • Taxonomy and Bacteria: Yucch!!!!!! • We use Bergey’s Manual: Based on 3 primary things: • 1. Cell Wall (or lack of cell wall) – Gram reaction (+) or (-) • 2. Cell Morphology (shape) Bacillus, Coccus, Spirillum, Vibrio • 3. Biochemical characteristics: sugars they ferment, enzymes like catalase and oxidase, decarboxylase, etc. • More modern techniques used today to get very specific “strains” • Serological groups (antigen - antibody reactions) • DNA hybridization studies Ex. E.coli 0157H7 or • DNA fingerprinting Azotobacter vinelandii 12837 • Bacterial viruses (phage typing)

  32. Microbiology – Chapter 4, Bacteria • Taxonomy and Bacteria: Yucch!!!!!! • Flow charts are useful – we will use them in our unknowns

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