1 Bacteria Structure and Function. 2 Prokaryote & Eukaryote Evolution.
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Transcript of 1 Bacteria Structure and Function. 2 Prokaryote & Eukaryote Evolution.
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Bacteria
Structure and Function
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Prokaryote &
EukaryoteEvolution
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Cellular Evolution
• Current evidence indicates that eukaryotes evolved from prokaryotes between 1 and 1.5 billion years ago
• Two theories:1. Infolding theory2. Endosymbiotic theory
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Infolding Theory
• The infolding of the prokaryotic plasma membrane gave rise to eukaryotic organelles.
infolding
organelle
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Endosymbiotic Theory
• Endosymbiosis refers to one species living within another(the host)
• Movement of smaller photosynthetic & heterotrophic prokaryotes into larger prokaryotic host cells
• Formed cell organelleschloroplast
mitochondria
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Prokaryotic & Eukaryotic Cells
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Earliest Prokaryotes
• Most numerous organisms on Earth
• Include all bacteria
• Earliest fossils date 2.5 billion years old
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Classification of Life
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Three Domains of Life
• Archaea – prokaryotes living in extreme habitats
• Bacteria- Cyanobacteria and eubacteria
• Eukarya – Protozoans, fungi, plants, & animals
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Kingdoms of Bacteria
Archaebacteria:Found in harsh
environmentsUndersea volcanic
vents, acidic hot springs, salty water
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Archaebacteria
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Kingdoms of Bacteria
Eubacteria:Called the true
bacteriaMost bacteria are in
this group Include
photosynthetic Cyanobacteria
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Eubacteria
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Characteristics of
Bacteria
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Bacterial Structure
• Microscopic prokaryotes
• No nucleus or membrane-bound organelles
• Contain ribosomes• Single, circular
chromosome in nucleoid region
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Bacterial Cell
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Protection
• Cell Wall made of Peptidoglycan
• May have a sticky coating called the Capsule for attachment to host or other bacteria
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Sticky Bacterial Capsule
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Bacterial Structure
• Have small rings of DNA called Plasmids
• Unicellular• Small in size (0.5 to 2μm)
PLASMIDS
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Bacterial Structure
• Infoldings of cell membrane carry on photosynthesis & cellular respiration
• Infoldings called Mesosomes
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MesosomesMESOSOME
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Bacterial Structure
• Most grow best at pH of 6.5 to 7.0
• Many act as decomposers recycling nutrients
• Some cause disease
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Staphylococcus Bacterial
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Useful Bacteria
• Some bacteria can degrade oil
• Used to clean up oil spills
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Useful Bacteria
• Other uses for bacteria include making yogurt, cheese, and buttermilk.
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Flagella• Bacteria that
are motile have appendages called flagella
• Attached by Basal Body
• A bacteria can have one or many flagella
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Flagella• Made of Flagellin• Used for Classification• Monotrichous: 1
flagella• Lophotrichous: tuft
at one end• Amphitrichous: tuft
at both ends• Peritrichous: all
around bacteria
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Monotrichous Lophotrichous
Amphitrichous Peritrichous
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Question:
What is this type of bacteria ?
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Pili• Short protein
appendages• Smaller than flagella• Adhere bacteria to
surfaces• Used in conjugation
for Exchange of genetic information
• Aid Flotation by increasing buoyancy
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Pili in Conjugation
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Bacterial Shapes
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Shapes Are Used to Classify
• Bacillus: Rod shaped• Coccus: Spherical
(round)• Vibrio: Comma shaped
with flagella• Spirillum: Spiral shape• Spirochete: wormlike
spiral shape
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Grouping of Bacteria
• Diplo- Groups of two
• Strepto- chains• Staphylo- Grapelike clusters
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Diplococcus
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Streptococcus Causes Strep Throat
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Staphylococcus
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Bacillus - E. coli
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Streptobacilli
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Spirillum
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Spirochetes
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Leptospira
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Bacterial Kingdoms
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Archaebacteria
• Lack peptidoglycan in cell walls
• Have different lipids in their cell membrane
• Different types of ribosomes
• Very different gene sequences
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Archaebacteria
• Archaebacteria can live in extremely harsh environments
• They do not require oxygen and can live in extremely salty environments as well as extremely hot environments
• Called the Ancient bacteria
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Archaebacteria
• Subdivided into 3 groups:
MethanogensThermoacidophiles
Extreme Halophiles
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Methanogens
• Live in anaerobic environments (no oxygen)
• Get energy by changing H2 & CO2 into methane gas
• Found in swamps, sewage treatment plants, digestive tracts of animals
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Methanogens
• Break down cellulose in a cow’s stomach
• Produce marsh (methane) gas
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Extreme Halophiles
• Live in very salty water
• Use salt to generate ATP (energy)
• Dead Sea, Great Salt Lake inhabitants
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Thermoacidophiles or Thermophiles
• Live in extremely hot environments
• Found in volcanic vents, hot springs, cracks on ocean floor that leak acid
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Kingdom Eubacteria
True Bacteria
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Characteristics
• 3 basic shapes (coccus, bacillus, spirilla)
• Most are heterotrophic (can’t make their own food)
• May be aerobic or anaerobic
• Identified by Gram staining
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Gram Staining
• Developed in 1884 by Hans Gram
• Bacteria treated with purple Crystal Violet & red Safranin stains
• Cell walls either stain purple or reddish pink
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Gram Positive
• Have thick layer of peptidoglycan (protein-sugar complex)
• Single lipid layer
• Stain purple• Can be
treated with antibiotics
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Gram Positive Bacteria
Lactobacilli (makes yogurt & buttermilk)
Actinomycetes (make antibiotics)
Clostridium (lockjaw bacteria)
Streptococcus (strep throat)
Staphylococcus (staph infections)
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Gram Negative Bacteria
• Thin layer of peptidoglycan in cell wall
• Extra thick layer of lipids• Stain pink or reddish• Hard to treat with
antibiotics• Some photosynthetic but
make sulfur not oxygen• Some fix nitrogen for
plants
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Gram Negative
• Rhizobacteria grow in root nodules of legumes (soybeans, peanuts)
• Fix N2 from air into usable ammonia
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Gram Negative• Rickettsiae
are parasitic bacteria carried by ticks
• Cause Lyme disease & Rocky Mountain Spotted Fever
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Cyanobacteria
• Gram negative• Photosynthetic• Called blue-green
bacteria• Contain phycocyanin
(red-blue) pigments & chlorophyll
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Cyanobacteria• May be red, yellow, brown,
black, or blue-green• May grow in chains
(Oscillatoria)• Have Heterocysts to help fix
N2
• First to re-enter devastated areas
• Some cause Eutrophication (use up O2 when die & decompose in water)
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Cyanobacteria
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Spirochetes• Gram positive• Flagella at each
end• Move in
corkscrew motion
• Some aerobic; others anaerobic
• May be free living, parasitic, or symbiotic
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Enteric Bacteria
• Gram negative• Can live in aerobic &
anaerobic habitats• Includes E. coli in
intestines• Salmonella – causes
food poisoning
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Chemoautotrophs
• Gram negative• Obtain energy from
minerals like iron• Found in
freshwater ponds
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Nutrition, Respiration,
and Reproduction
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Modes of Nutrition• Saprobes – feed on
dead organic matter• Parasites – feed on a
host cell• Photoautotroph – use
sunlight to make food• Chemoautotroph –
oxidize inorganic matter such as iron or sulfur to make food
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Methods of Respiration
• Obligate Aerobes – require O2 (tuberculosis bacteria)
• Obligate Anaerobes – die if O2 is present (tetanus)
• Facultative Anaerobes – don’t need O2, but aren’t killed by it (E. coli)
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Bacterial Respiration
• Anaerobes carry on fermentation
• Aerobes carry on cellular respiration
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Reproduction
• Bacteria reproduce asexually by binary fission
• Single chromosome replicates & then cell divides
• Rapid• All new cells identical
(clones)
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Cellular organism copies it’s genetic information then splits into two identical
daughter cells
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Binary Fission E. coli
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Reproduction
• Bacteria reproduce sexually by Conjugation
• Form a tube between 2 bacteria to exchange genetic material
• Held together by pili• New cells NOT
identical
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Conjugation
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Spore Formation• Form endospore
whenever when habitat conditions become harsh (little food)
• Able to survive for long periods of time as endosperm
• Difficult to destroy (heat resistant)
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Transduction & Transformation
• Genetically change bacteria• May become antibiotic
resistant• Transformed bacteria pick
up pieces of DNA from dead bacterial cells
• Transduction – viruses carry foreign DNA to bacteria; used to make insulin
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Pathenogenic Bacteria
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Pathogens
• Called germs or microbes• Cause disease• May produce poisons or
toxins• Endotoxins released after
bacteria die (E. coli)• Exotoxins released by
Gram + bacteria (C. tetani)
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