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Copyright © by Holt, Rinehart and Winston. All rights reserved.
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BacteriaChapter 23
Table of Contents
Section 1 Prokaryotes
Section 2 Biology of Prokaryotes
Section 3 Bacteria and Humans
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Section 1 ProkaryotesChapter 23
Objectives
• Explain the phylogenetic relationships between the domains Archaea, Bacteria, and Eukarya.
• Identify three habitats of archaea.
• Describe the common methods used to identify bacteria.
• Identify five groups of bacteria.
• Explain the importance of nitrogen-fixing bacteria for many of Earth’s ecosystem.
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Section 1 ProkaryotesChapter 23
Two Major Domains: Archaea and Bacteria
• _____________________ are single-celled organisms that do not have a membrane-bound nucleus, and can live in nearly every environment on Earth.
• Although tiny, prokaryotes differ greatly in their
• Based on genetic differences, prokaryotes are grouped in two domains: Domain ______________ and Domain ___________________.
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Chapter 23
Three Domains of Living Organisms
Section 1 Prokaryotes
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Section 1 ProkaryotesChapter 23
Domain Archaea
• One of the ways in which archaea differ is the make up of their ___________________. Archaeal cells walls do not contain ____________________.
– ________________________ is a protein-carbohydrate complex found in bacterial cell walls that make their cells walls rigid.
• Archaea differ in the types of _______________ in their cell membrane. Also, archaea genes do not contain ________________________.
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Section 1 ProkaryotesChapter 23
Domain Archaea, continued
• Archaeal Groups
– Archaeal groups include methanogens, halophiles, and thermoacidophiles.
• Methanogens convert _______________________ and _________________ into methane. They can be found in the
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Section 1 ProkaryotesChapter 23
Domain Archaea, continued
• Archaeal Groups, continued
– _____________________ are “salt-loving” archaea that live in very salty environments such as the Great Salt Lake and the Dead Sea.
– ___________________________ live in very hot, acidic environments, such as the hot springs of Yellowstone National Park. Some thermoacidophiles live at temperatures up to 110°C (230°F) and at a pH of less than 2.
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Section 1 ProkaryotesChapter 23
Domain Bacteria
• Bacteria occur in many shapes and sizes. Most bacteria have one of three basic shapes: rod-shaped, sphere-shaped, or spiral-shaped.
• Rod-shaped bacteria are called ____________ (singular, bacillus). An example
• Sphere-shaped bacteria are called ___________ (singular, coccus). An example of
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Section 1 ProkaryotesChapter 23
Domain Bacteria, continued
• Spiral shaped bacteria are called _______________ (singular, spirillum). An example of
• Cocci that form chains similar to a string of beads are called ___________________________.
• Cocci that form clusters similar to a bunch of grapes are called _________________________.
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Chapter 23
Three Bacterial Cell Shapes
Section 1 Prokaryotes
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Section 1 ProkaryotesChapter 23
Domain Bacteria, continued
• Gram Stain– Most species of bacteria are classified into two
categories based on the structure of their cell walls as determined by a technique called the Gram stain.
– Gram-positive bacteria have a _____________ layer of
peptidoglycan in their cell wall, and they appear
– Gram-negative bacteria have a ______________ layer of peptidoglycan in their cell wall, and they appear
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Chapter 23
Gram Staining
Section 1 Prokaryotes
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Section 1 ProkaryotesChapter 23
Important Bacterial Groups
• Bacteria are also classified by their biochemical properties and evolutionary relationships.
• Proteobacteria
– Proteobacteria are one of the largest and most diverse groups of bacteria, and contain several subgroups that are extremely diverse.
– Members of this group include bacteria of the genus _________________, the genus ________________, and the bacterium ___________________________.
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Section 1 ProkaryotesChapter 23
Important Bacterial Groups, continued
• Gram-Positive Bacteria
– Not all of the bacteria in this group are Gram-positive. Biologists place a few species of Gram-negative bacteria in this group because
– Members of this group include the streptococcal species, Clostridium botulinum, Bacillus anthracis, and members of the genus Mycobacteria.
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Section 1 ProkaryotesChapter 23
Important Bacterial Groups, continued
• Gram-Positive Bacteria, continued
– Actinomycetes are Gram-positive bacteria, some species of which produce ___________________.
• ___________________________ are chemicals that inhibit the growth of or kill other microorganisms. Streptomycin and tetracycline are examples of antibiotics that are used medicinally.
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Section 1 ProkaryotesChapter 23
Important Bacterial Groups, continued
• Cyanobacteria
– Cyanobacteria use _____________________ to get energy from sunlight, and make carbohydrates from water and carbon dioxide. During this process, they create oxygen as a waste product.
– Once called blue-green algae, cyanobacteria are now known to be bacteria because they
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Section 1 ProkaryotesChapter 23
Important Bacterial Groups, continued
• Spirochetes
– Spirochetes are Gram-negative, spiral-shaped bacteria that move by means of a corkscrew-like rotation. Some are aerobic.
– Spirochetes can live freely or as pathogens. Pathogenic spirochetes include Treponema pallidum, the causative agent of syphilis, and Borrelia burgdorferi, which causes Lyme disease.
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Section 1 ProkaryotesChapter 23
Important Bacterial Groups, continued
• Chlamydia
– Gram-negative coccoid pathogens of the group Chlamydia live only inside animal cells. The cell walls of chlamydia do not have peptidoglycan. Chlamydia trachomatis causes the ____________________________ infection called chlamydia.
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Section 2 Biology of ProkaryotesChapter 23
Objectives
• Describe the internal and external structure of prokaryotic cells.
• Identify the need for endospores.
• Compare four ways in which prokaryotes get energy and carbon.
• Identify the different types of environments in which prokaryotes can live.
• List three types of genetic recombination that prokaryotes use.
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Section 2 Biology of ProkaryotesChapter 23
Structure and Function
• The major structures of a prokaryotic cell include a
• Cell Wall
– Most prokaryotes have a cell wall. Bacterial cell walls contain peptidoglycan. Archaeal cell walls do not have peptidoglycan; instead, some contain __________________________, a compound made of unusual lipids and amino acids.
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Section 2 Biology of ProkaryotesChapter 23
Structure and Function, continued
• Cell Membrane and Cytoplasm
– Bacterial and archaeal cell membranes are lipid bilayers that have proteins. However, the lipids and proteins of archaeal cell walls differ from those of bacterial cell walls.
– The cytoplasm is a semifluid solution that contains ribosomes, DNA, small organic and inorganic molecules, and ions.
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Section 2 Biology of ProkaryotesChapter 23
Structure and Function, continued
• DNA
– Prokaryotic DNA is a
– Along with a single main chromosome, some prokaryotes have _________________________, which are small, circular, self-replicating loops of double-stranded DNA.
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Section 2 Biology of ProkaryotesChapter 23
Structure and Function, continued
• Capsules and Pili
– Many bacteria have an outer covering of polysaccharides called a ____________________ that protects the cell against drying, pathogens, or harsh chemicals.
– _________________ are short, hairlike protein structures on the surface of some bacteria that help bacteria connect to each other and to surfaces, such as those of a host cell.
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Section 2 Biology of ProkaryotesChapter 23
Structure and Function, continued
• Endospores
– Some Gram-positive bacteria can form a thick-coated, resistant structure called an _____________________ when environmental conditions become harsh.
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Section 2 Biology of ProkaryotesChapter 23
Structure and Function, continued
• Prokaryotic Movement
– Many prokaryotes have long flagella that allow the prokaryotes to move toward food sources or away from danger.
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Chapter 23
Structural Characteristics of a Bacterial Cell
Section 2 Biology of Prokaryotes
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Section 2 Biology of ProkaryotesChapter 23
Nutrition and Metabolism
• Prokaryotes obtain nutrients either from the nonliving environment or by utilizing the products or bodies of living organisms. – Heterotrophs
– Autotrophs
– Chemotrophs
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Section 2 Biology of ProkaryotesChapter 23
Prokaryotic Habitats
• Different prokaryotic species live in different environments.
• Temperature requirements range from ______ to __________.
• Most prokaryotic species grow best at a
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Section 2 Biology of ProkaryotesChapter 23
Reproduction and Recombination
• Genetic recombination in bacteria can occur by the following three ways:– Transformation
– conjugation
– transduction
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Section 3 Bacteria and HumansChapter 23
Objectives
• Describe the ways in which bacteria can cause disease in humans.
• Explain how a bacterial population can develop resistance to antibiotics.
• Identify reasons for recent increases in the numbers of certain bacterial infectious diseases.
• Identify ways of preventing a foodborne illness at home.
• List four industrial uses of bacteria.
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Section 3 Bacteria and HumansChapter 23
Bacteria and Health
• Human diseases may result from _____________________ or ___________________ produced by bacteria or from the destruction of body tissues.
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Section 3 Bacteria and HumansChapter 23
Bacteria and Health, continued
• Antibiotics and Antibiotic Resistance
– A _________________ in the DNA of a single bacterium can confer resistance to an antibiotic.
– Cells with the ____________ gene have a selective advantage when the antibiotic is present.
– ___________________ cells take over the
population when the normal cells die.
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Section 3 Bacteria and HumansChapter 23
Bacteria and Health, continued
• Emerging Infectious Diseases Caused by Bacteria
– The number of certain bacterial diseases has increased because of the increase in the number of antibiotic resistant bacteria, the movement of people into previously untouched areas, and global travel.
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Section 3 Bacteria and HumansChapter 23
Bacteria and Health, continued
• Food Hygiene and Bacteria
– Foodborne illnesses can be avoided by
– Frequent hand washing in hot, soapy water is also very important.
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Chapter 23
Important Bacterial Diseases
Section 3 Bacteria and Humans
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Section 3 Bacteria and HumansChapter 23
Bacteria in Industry
• Many species of bacteria are used to produce and process different foods, to produce industrial chemicals, to mine for minerals, to produce insecticides, and to clean up chemical and oil spills.
• Biologists have learned to harness bacteria to recycle compounds in a process called __________________________, which uses bacteria to break down pollutants.