KEY CONCEPT Bacteria and archaea are both single-celled prokaryotes.

Prokaryotes are widespread on Earth. Prokaryotes can be grouped by their need for oxygen. obligate anaerobes are poisoned by oxygen obligate aerobes need oxygen facultative aerobes can live with or without oxygen

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

Bacteria commonly come in three forms. rod-shaped, called bacilli Bacteria and archaea are structurally similar but have different molecular characteristics. Bacteria commonly come in three forms. rod-shaped, called bacilli spiral, called spirilla or spirochetes spherical, called cocci Lactobacilli: rod-shaped Spirochaeta: spiral Enterococci: spherical Archaea have many shapes.

Clicker Question! What shape and grouping describes the bacteria pointed out below? A: Staphalacoccus B: Streptobacillus C: Diplococcus

Staphylococcus Bacterial

Streptococcus Causes Strep Throat

Bacillus - E. coli

Streptobacilli

Spirillum

Leptospira

Clicker Question! 1. _________ 2. _________ 3. _________ 4. _________ 5. _________ 6. _________ A. Staphylococcus B. Coccus C. Spirillum D. Bacillus E. Streptococcus F. Diplococcus

Bacteria

Archaebacteria

Methanogens Break down cellulose in a cow’s stomach Produce marsh (methane) gas

Extreme Halophiles Live in very salty water Use salt to generate ATP (energy) Dead Sea, Great Salt Lake inhabitants

Thermoacidophiles or Thermophiles Live in extremely hot environments Found in volcanic vents, hot springs, cracks on ocean floor that leak acid

Have a membrane bound nucleus and organelles: Clicker Question! Have a membrane bound nucleus and organelles: A: Prokaryotes B: Eukaryotes C: Nokaryotes

Bacteria vs Archaebacteria

Bacteria and archaea have similar structures. plasmid flagellum pili cell wall chromosome plasma membrance This diagram shows the typical structure of a prokaryote. Archaea and bacteria look very similar, although they have important molecular differences.

Bacteria and archaea have molecular differences. The amount of peptidoglycan within the cell wall can differ between bacteria GRAM NEGATIVE GRAM POSITIVE Archaea have different lipids entirely (cell walls lack peptidoglycan)

Gram staining identifies bacteria. stains polymer peptidoglycan gram-positive stains purple, more peptidoglycan gram-negative stains pink, less peptidoglycan Gram-negative bacteria have a thin layer of peptidoglycan and stain red. Gram-positive bacteria have a thicker peptidoglycan layer and stain purple.

Bacteria have various strategies for survival. Prokaryotes exchange genes during conjugation. conjugation bridge TEM; magnification 6000x Bacteria may survive by forming endospores.

Pili in Conjugation Hairlike structures that help them attach to surfaces and allow for transfer of genetic material between two bacteria

Sticky Bacterial Capsule Prevents drying out, allows it to attach to other surfaces, prevents it from being engulfed, & shelters it from antibiotics

Flagella Bacteria that are motile have appendages called flagella A bacteria can have one or many flagella

Monotrichous Lophotrichous Amphitrichous Peritrichous

Clicker Question! What domain can be found in harsh environments like: Undersea volcanic vents, acidic hot springs, salty water? A: Bacteria B: Archaea C: Eukarea

Clicker Question! Some bacteria gain energy from the sun (cyanobacteria), but the rest have to gain energy by consuming other organisms. These are called: A. Homotrophs B. Heteroeaters C. Heterotrophs D. Homoconsumers

Clicker Question! What structure does this bacterium use for motility? A: Flagella B: Cilia C: Pili

Clicker Question! Which type of bacteria is susceptible to antibiotics? A: Gram Positive (Dark Purple) B: Gram Negative (Light Pink)

Clicker Question! What kind of reproduction is depicted in the photo below? A: Asexual B: Conjugation C: Binary fission

KEY CONCEPT Prokaryotes perform important functions for organisms and ecosystems.

Prokaryotes provide nutrients to humans and other animals. Prokaryotes live in digestive systems of animals. make vitamins break down food fill niches

Bacteria help ferment many foods. yogurt, cheese pickles, sauerkraut soy sauce, vinegar

Bacteria make Medicine Vitamins Antibiotics: Streptomycin Bacitracin Tetracycline Vancomycin

Prokaryotes play important roles in ecosystems. Prokaryotes have many functions in ecosystems. photosynthesize recycle carbon, nitrogen, hydrogen, sulfur fix nitrogen

Bioremediation uses prokaryotes to break down pollutants. oil spills biodegradable materials

KEY CONCEPT Understanding bacteria is necessary to prevent and treat disease.

Some bacteria cause disease. Bacteria cause disease by invading tissues or making toxins. A toxin is a poison released by an organism.

Normally harmless bacteria can become destructive. may colonize new tissues

Normally harmless bacteria can become destructive. immune system may be lowered

Pathogens STD: Syphilis, gonorrhea, Chlamydia Respiratory: Strep throat, pneumonia, whooping cough, tuberculosis, anthrax Skin: Acne, boils Digestive: Gastroenteritis, food poisoning, cholera Nervous: Botulism, tetanus, bacterial meningitis Other: Lyme disease, typhoid fever

Antibiotics are used to fight bacterial disease. Antibiotics may stop bacterial cell wall formation. Antibiotics do not work on viruses. Prevention is best method to fight bacterial disease.

Bacteria can evolve resistance to antibiotics. Bacteria are gaining resistance to antibiotics. A bacterium carries genes for antibiotic resistance on a plasmid. A copy of the plasmid is transferred through conjugation. Resistance is quickly spread through many bacteria. overuse underuse misuse Antibiotics must be used properly.