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CAMPBELL & REECE CHAPTER 27. BACTERIA & ARCHAEA. PROKARYOTIC ADAPTATIONS. typical prokaryote: 0.5 -5 microns unicellular variety of shapes cocci (spherical) bacilli (rods) spirochetes (corkscrews). Cell-Surface Structures. nearly all have cell wall maintains shape protects cell
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CAMPBELL & REECE CHAPTER 27 BACTERIA & ARCHAEA
PROKARYOTIC ADAPTATIONS • typical prokaryote: • 0.5 -5 microns • unicellular • variety of shapes • cocci (spherical) • bacilli (rods) • spirochetes (corkscrews)
Cell-Surface Structures • nearly all have cell wall • maintains shape • protects cell • plasmolyze in hypertonic solution • water loss inhibits cell division hence salt used as food preservative (ham)
Cell Wall Structure Prokaryotes Eukaryotes cell walls mostly cellulose or chitin ARCHAEA (-) peptidoglycan (+) variety polysaccharides & proteins • bacterial cell walls contain peptidoglycan: a polymer made of sugars cross-linked with short polypeptides
Gram Staining • used to classify many bacteria as gram + or gram – • + or – staining due to differences in cell wall composition
Gram + Gram - more complex less peptidoglycan + outer membrane with lipopolysaccharides • simpler cell walls • more peptidoglycan
Gram + Gram -
Gram + Rods Gram - Rods
Medical Implications of Gram Stain Gram + Gram - many strains virulent: tends to be: toxic (fever, shock more likely) drug resistance • some strains virulent • some drug resistance (staph)
Penicillin • works by inhibiting peptidoglycan cross-linking makes cell nonfunctional • since none in eukaryotic cells does not harm them
Penicillin • Which infection would more likely respond to treatment with pcn?
Prokaryotic Capsules • dense, well-defined outermost layer (called slime layer if not well-defined) • Sticky • stick to each other in a colony or to infected individual’s cells • make it more difficult for immune system to get to bacterial cell
Fimbriae • used to stick to host cells • shorter & more numerous than pili
Pili • appendages that pull cells together prior to DNA transfer between cells • aka sex pili
Bacteria Motility • taxis: a directed movement toward or away from a stimulus • chemotaxis: movement toward a chemical (+ chemotaxis) or away from a toxic chemical (- chemotaxis)
Flagella • most common structure used for prokaryotic motility
Flagella • not covered by extension of plasma membrane as in eukaryotic cell flagellum • smaller (~ 1/10th width of eukaryotic flagella) • Bacteria & Archaea flagella similar in size & rotation mechanism but composed of different proteins
Flagella • all these differences suggest flagella arose independently in all 3 Domains • so are analogous structures not homologous structures
Flagella Archaea Bacteria
Bacterial Flagella • 3 main parts: • motor • hook • filament
Bacterial Flagella • evidence indicates it started as a simpler structure that has been modified in steps over time • (like evolution of eye) each step would have had to have been useful • analysis shows only ~1/2 proteins in flagellum necessary for it to function
Bacterial Flagella • analysis shows only ~1/2 proteins in flagellum necessary for it to function • 19 of 21 proteins in flagella are modified versions of proteins that perform other tasks in bacteria • this is example of exaption: process in which existing structures take on new functions through descent with modification
DNA in Prokaryotic Cells • most have less DNA than eukaryotic cell • circular chromosome with many fewer proteins • loop located in nucleoid • most also have a plasmid: smaller ring(s) of independently replicating DNA
Inner Membranes in Prokaryotic Cells • So how do some prokaryotic cells undergo photosynthesis and cellular respiration if they do not have membrane-bound organelles?
Reproduction of Prokaryotic Cells • BINARY FISSION
Bacterial Reproduction • many bacteria can divide in 1- 3 hrs. (some in 20 min) • factors that slow down reproduction: • loss of nutrients • toxic metabolic waste • competition with other bacteria • eaten by predators
Survivors in Extreme Environments • Halobacterium • rod-shaped • Archaea • lives in 4M saline (or higher)
Endospores • developed by certain bacteria to withstand harsh conditions • resistant cells develop when essential nutrients lacking
Endospores • survive boiling water • remain dormant & viable for centuries
Prokaryotic Evolution • short generations (up to 20,000 in 8 yrs) • adapt rapidly • populations have high genetic diversity • have been around for 3.5 billion yrs
Genetic Diversity • Factors that promote genetic diversity: • rapid reproduction • mutation • genetic recombination
Rapid Reproduction & Mutation • because generations are so short even 1 mutation will produce many offspring and so increase genetic diversity which contributes to evolution
Genetic Recombination • the combining of DNA from 2 sources • occurs 3 ways in prokaryotes • transformation • transduction • conjugation
Transformation in Prokaryotic Cells • uptake of foreign DNA from its surroundings • many bacteria have cell-surface proteins that recognize DNA from closely related species & transport it into the cell
Transduction in Prokaryotic Cells • bacteriophages (phages) carry prokaryotic genes from 1 host cell to another…..usually as result of “accidents” during replicative cycle
Conjugation & Plasmids • DNA is transferred between 2 prokaryotic cells (usually same species) that are temporarily joined by a mating bridge (from pilus) • transfer in 1 direction only • must have particular piece of DNA: F factor • DNA transferred either plasmid or section of loop DNA
Metabolic Adaptations in Prokaryotic Cells • phototrophs: obtain energy from light • chemotrophs: obtain energy from chemicals • autotrophs: need CO2 as carbon source • heterotrophs: require at least 1 organic nutrient to make other organic compounds
Oxygen • obligate aerobes: must use O2 for cellular respiration • obligate anaerobes: O2 is toxic to them (fermentation) • faculative anaerobes: use O2 when available but also carry out fermentation if have to
