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Terms • Zoonosis
• Antibiotic resistance
• Bioremediation
• Prokaryote
• Peptidoglycan
• Methanogen
• Halophile
• Thermoacidophile
• Bacillus
• Coccus
• Spirillum
• Streptococcus
• Staphylococcus
• Gram-negative
• Gram-positive
• Antibiotic
• Plasmid
• Capsule
• Pilus
• Endospore
• Heterotroph
• Autotroph
• Phototroph
• Chemotroph
• Obligate anaerobe• Facultative anaerobe• Obligate aerobe• Pathology• Exotoxin• Endotoxin• Bacteriophage• Retrovirus• Prokaryote• Binary fission• Endospore• Conjugation• Transformation• transduction• Pathogen• Antiobiotic• Gram stain• Pili
Chapter 23 Bacteria 2
Chapter 23 Bacteria 3
Questions? Review
• Differences bet. Prok and euk cells
a. no nucleus, or membrane bound organelles, no cell well, smaller
• What are two metabolic pathways by which cells obtain energy
a. aerobic respiration, fermentation
Chapter 23 Bacteria 4
Objectives 23.1
• Explain the phylogenetic relationship between the domains Archaea, Bacteria, Eukarya
• Identify three habitats of Archaea• Describe the common methods used to id
bacteria• Identify five phyla of bacteria• Explain importance of nitrogen fixing
bacteria for many of earths ecosystems
Chapter 23 Bacteria 5
Prokaryotes
Prokaryotes are the most numerous organisms on Earth. They are found almost everywhere, from the skin of a fingertip to the waters of a thermal geyser to the freezing landscape of the Antarctic. The earliest fossils of prokaryotes, which are about 2.5 billion years old, indicate that prokaryotes lived long before other forms of life evolved.
Chapter 23 Bacteria 6
Classification review
Prokaryotes-
1. Domain Bacteria
Kingdom Eubacteria
2. Domain Archaea
Kingdom Archaebacteria
Eukaryotes
1. Domain Eukarya
a. K. Protista
b. K. Fungi
C. K. Plantae
d. K. Animalia
Chapter 23 Bacteria 7
Two major Domains
1. Archaea- ancient (extreme environments)
2. Bacteria-
Prokaryotes- no nucleus, single-celled, live in all environments
http://bio156.aznetwork.com/animated!/chapter01/videos_animations/three_domains.html
Honors Biology Chapter 168
Domain ArchaeaDifferent from bacteria-• cell walls (NO peptidoglycan)• Membrane lipids• Genetics and metabolism• Found in extreme harsh environments3 major groups:1. Methanogens- convert Hgas and CO2 to methane gas2. Halophiles- loves salt- live in high concentrations3. Thermoacidophiles-acidic environment, high salt,
high tempshttp://www.sciencepiction.com/extremo/extremo_thumbs.htmlhttp://www.theguardians.com/Microbiology/gm_mbm04.htm
Chapter 23 Bacteria 9
Domain Bacteria• Most known prokaryotes are bacteria3 basic shapes:
1. bacilli- rod-shaped2. spirilla- spiral shaped3. cocci- sphere-shaped
2 major goups1. strepto- chains2. staphlo- clusters
Chapter 23 Bacteria 11
Gram stain• Used to put bacteria into categories based
on cell walls
• Gram-negative- have less peptidoglycan, absorb red dye, look pink/red in micro
• Gram-positive- have more peptidoglycan in cells wall and look purple
Chapter 23 Bacteria 12
http://www.youtube.com/watch?v=NWASSXDzHRshttp://www.youtube.com/watch?v=Ly6j4pZFU3A&feature=relmfu
http://www.youtube.com/watch?v=2KDT82koX7w&feature=relmfu
Honors Biology Chapter 16 13
Important bacterial 9 groups1. Proteobacteria- nitrogen-fixing bac, convert
nitrogen into usable ammonia
2. Cyanobacteria- use photosynthesis
3. Spirochetes- gram-neg, STDs, helicial bacteria (syphilis, Lyme disease)
4. Chlamydia- gram-neg, no peptidoglycan, most common std in the us
5. Gram positive- streptomyces- antibiotics, staphylococcus and streptococcus, mycoplasmas
wbcd16.c
Chapter 23 Bacteria 14
Cutaneous (skin) anthrax
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Chapter 23 Bacteria 15
DescriptionThis image depicts a Petri dish containing a sheep’s blood agar (SBA) medium, which had been inoculated with Gram-negative Yersinia pestis bacteria. Y. pestis is the pathogen responsible for causing human plague. This was the appearance of the colonial growth after 96 hours of incubation at 25º C.
Figure 2. Cyanobacteria can be found in a multitude of forms despite their common phototrophic metabolism (Image courtesy of Indiana University, School of Medicine, Center for Environmental Health).
Treponema pallidum, the spirochete that causes syphilis. Silver stain. CDC.
Chapter 23 Bacteria 16
Objectives 23.2
• Describe the internal and external structure of prokaryotic cells
• Identify the need for endospores
• Compare four ways in which prok get energy and carbon
• Identify the different types of environments
• List three types of genetic recombination that prok use
Chapter 23 Bacteria 17
Biology of Prokaryotes
• A look at prok cells under a light microscope show that they are very small. Such a view, however, leaves unexplained the complexity of the cells’ internal workings. Here, we will study the structure of prok cells and the many ways that they gather nutrients and energy and reproduce.
Chapter 23 Bacteria 18
Structure and Function- will be on test!!
1. Cell wall- shape, protection, peptidoglycan2. Cell membrane/cytoplasm- selective barrier3. DNA- single closed loop of double stranded DNA ,
Plasmids are small and self-replicating double stranded
4. Capsules- outer covering of polysaccharides, protection, made of glycocalyx (fuzzy coat of sticky sugars)
5. Pili- are short hairlike projections, help to connect to other surfaces, pass DNA
6. Endospores- gram +, thick coat for protection till conditions are good
7. Flagellum- whip like motion, movementCD 16B.
Chapter 23 Bacteria 21
Nutrition and metabolism
Heterotrophs
1. photoheterotrophs- use light energy and get carbon from other organisms
2. Chemohetertrophs- obtain energy and carbon from other organisms
Autotrophs-
1. photoautrophs- use light energy, CO2
2. chemoautrophs- use inorganic molecules, and CO2
Chapter 23 Bacteria 23
Prokaryotic Habitats
• Live in certain habitats based on their biochemical abilities (needs)
1. Obligate anaerobes- no O2 present
2. Faculatative anaerobes- can live w/wo
3. Obligate aerobes- must have O2
Chapter 23 Bacteria 25
Reproduction and Recombination• Most reproduce by Binary fissionhttp://www.ryancshaw.com/Files/micro/Animations/BacterialGrowth/PLAY_bacterial_growth.html
• Prok can exchange pieces of DNA that can be added to the cell’s DNA w/o reproduction recombination
To get DNA in 3 ways:1. Transformation- take DNA from outside
http://www.youtube.com/watch?v=4Cq5LFWGBUw&feature=fvsr
2. Conjugation- 2 prok bind and pass DNAhttp://www.youtube.com/watch?v=ogOoIWuWXOg
3. Transduction- virus changes DNAhttp://www.youtube.com/watch?v=xXbyJNRwjlg&NR=1&feature=fvwp
Chapter 23 Bacteria 28
Objectives 23.3
• Describe the ways in which bacteria can cause disease in humans
• Explain how a bacterial population can develop resistance to antibiotics
• Identify reason for recent increased in the numbers of certain bacterial infections
• Identify ways of preventing a food born illness at home
• List four industrial uses of bacteria
Chapter 23 Bacteria 29
Bacteria and humans
Bacteria are probably best know for the disease that they cause in humans. However, most bacteria that live on human skin are harmless, and other bacteria are used biotechnologically, as in the production of yogurt. Still, other bacteria that live in soil change atmospheric nitrogen into ammonia and nitrites, which plants use for growth
Chapter 23 Bacteria 30
Bacteria and Health
• Pathology- study of diseases (pathogen)
Bacteria can cause diseases by:
1. Exotoxins- toxic substances that bacteria secret into environment
2. Endotoxins- not released until the cell dies, causes fevers, body aches, diarrhea, (made of lipids and carbs)
Chapter 23 Bacteria 31
Antibiotics and resistance• Antibiotics affect bacteria by interfering
with certain cellular activities• http://www.youtube.com/watch?v=iVMIZy-Y3f8&feature=related• http://www.youtube.com/watch?v=-iE-JbtxB6w
• Resistances- evolution of populations of bacteria that antibiotics can no longer kill
• Zoonosis- pass diseased from animals to humans- (http://aboundlessethic.com/?cat=46)
Foodborne-
• Industrial uses today
Bioremediation
• To use organisms to remove pollutants
• Decomposers
• Oil eating bacteria
• Waste treatment facilities
Honors Biology Chapter 16 32
Biological weapon• Bubonic plague, Yersini pestis, gave
infected blankets to native people killing entire tribes
• Bacillus anthracis, “coal” October 2001 found in envelopes mailed to US Senate, 18 people infected, 5 died, treat with penicillin, symptoms like common cold
Cutaneous lesions, pulmonary
- 1943- 1969 Fort Detrick, Maryland
- 1975- US signed the Biological Weapons Convention (103 Nations)
Honors Biology Chapter 16 33
“Superbugs”
– An especially dangerous form of multiple drug resistance has recently appeared in a common bacterium. Methicillin-resistant Staphylococcus aureus, known as MRSA, can cause infections that are especially difficult to control.
– MRSA skin infections can be spread by close contact, including the sharing of personal items such as athletic gear, and are especially dangerous in hospitals, where MRSA bacteria can infect surgical wounds and spread from patient to patient.
“Superbugs”
– Infection by MRSA can be very serious or fatal for people in hospitals and nursing homes who have weakened immune systems.
– This table shows the incidence of MRSA infections in U.S. hospitals during a 13-year period.
Chapter 23 Bacteria 38
TETANUS BACTERIA (© Eraxion | Dreamstime.comID: 11898406 Level: 2Size: 2,941 KB (18.8 MP)
Cholera Bacterium showing NucleoidIllustration of a prokaryotic, Gram-negative bacterium with a single flagellum. The nucleoid, which contains the genome of the bacterium, can be clearly seen.Vibrio cholerae is an example of a gram-negative bacterium with a polar flagellum which causes cholera in humans. The potentially deadly cholera toxin is produced using this genetic information, and the toxin payload is secreted into the host organism.
A PHOTOMICROGRAPH OF NEISSERIA MENINGITIDIS RECOVERED FROM THE URETHRA OF AN ASYMPTOMATIC MALE; MAGNIFIED 1125X (N. MENINGITIDIS IS RESPONSIBLE FOR CAUSING “MENINGOCOCCAL” MENINGOCOCCAL. THIS BACTERIUM IS NOT NORMAL FLORA, BUT A PATHOGENIC ORGANISM THAT MAY BE PRESENT IN A LARGE PERCENTAGE OF THE POPULATION WITHOUT CAUSING DISEASE).
Chapter 23 Bacteria 39
Review Questions1. List 4 diseases caused by bacteria (see
last slide)
2. Explain Antibiotic Resistance-
3. How is bacteria used in industry (discovery video)-
4. What is the difference between bacterial cell walls and plant cell walls?
5. Diff bet photoautroph and chemoautotroph?
Chapter 23 Bacteria 40
6. Bacteria reproduce-
7. Name 3 groups of archaea-
8. Name some characteristics of spirochetes
9. How are bacteria classified (web quest/notes)
Chapter 23 Bacteria 41
Review Answers1. List 4 diseases caused by bacteria (see last
slide)
2. Explain Antibiotic Resistance- evolution of populations of pathogenic bacteria that antibiotics are unable to kill
3. How is bacteria used in industry (discovery video)- bacteria are used to make and process food and chemicals. Help break down sewage and recycle carbon and nitrogen, used in mining, used to clean up oil spills, make pesticides
Chapter 23 Bacteria 42
4. What is the difference between bacterial cell walls and plant cell walls? BC are made of peptidoglycan and pc have cellulose
5. Diff bet photoautroph and chemoautotroph? makes carbon cpds by light energy, makes carbon by breaking down inorganic sub
6. Bacteria reproduce- binary fission7. Name 3 groups of archaea-
methanogens, halophiles, theromophiles
Chapter 23 Bacteria 43
8. Name some characteristics of spirochetes
- Gram -, sprial-shaped, aerobic and anaerobic
9. How are bacteria classified (web quest/notes)
Shape, gram stain, biochemical prop, evolutionary relationships