1. Bacteria and Viruses
Chapter 19

2. Bacteria & Viruses

3. 19.1 Bacteria Come in many shapes and sizes
Most common microorganisms are prokaryotes
Average size of 1-5 micrometers
Compared to eukaryotic cells that are micrometers in diameter

4. 2 Branches of Bacteria (Domains)
Archebacteria (similar to early Earth)
Confined to extreme environments
Methanogens - reduce CO2 to CH4
Extreme halophiles - salt loving
Thermoacidophiles
Similar to early earth
More closely related to eukaryotes than to modern bacteria
Eubacteria (most modern)
very diverse

5. Bacterial Classification

6. Prokaryotic Phylogeny

7. Prokaryotic & Eukaryotic Cells

8. Classifying Prokaryotes
Eubacteria
Largest prokaryote Domain
Lack nuclei
Cell wall of a carbohydrate- Peptidoglycan
Cell membrane around cytoplasm
Some have an extra cell wall on the outside to resist damage

9. Classifying Prokaryotes
Archaebacteria
Lack nuclei
Have cell walls without peptidoglycan
Are chemically different from Eubacteria
Many live in extremely harsh environments

10. Bacteria Shapes

11. Identifying Prokaryotes
Shapes
Bacilli- Rod shaped
Cocci- Spherical shaped
Sprilla- spiral shaped
Colorized SEM 12,000
Colorized SEM 9,000

12. Identifying Prokaryotes
Cell walls
Gram staining used to tell them apart
Gram+ bacteria look purple
Gram- bacteria look pink

13. The Bacterial Cell Wall
Instead of cellulose, contain peptidoglycan
A polymer of modified sugars cross-linked with amino acids
The gram stain distinguishes many disease causing bacteria based on the type of cell wall
Many antibiotics work by attacking the bacterial cell wall

14. The Gram Stain Gram (+) Purple Gram (-) Pink accept gram stain
have simpler cell walls with large amounts of peptidoglycan
Gram (-) Pink
do not stain
have more complex cell walls with less peptidoglycan
cell walls contain lipopolysaccharides
are more likely to be pathogenic (cause disease)
more resistant to antibiotics

15. Cell Wall & Gram Stain

16. Gram (+)Purple & Gram (-)Pink
Gram (+) & Gram (-)
Gram (+)Purple & Gram (-)Pink

17. Identifying Prokaryotes
Movement
Flagella
Lash, snake or spiral forward
They do not move at all

18. Motility (movement) About half are capable of directional movement.
3 mechanisms:
flagella - different from eukaryotes
spiral shaped bacteria (spirochetes) have a filament that spirals around the cell under the outer sheath
some bacteria secrete slimy chemicals & glide
Taxis
movement toward or away from a stimulus
many bacteria exhibit this form of movement

19. Structures of Movement

20. Structure of Prokaryotic Flagella

21. Metabolic Diversity Heterotrophs
Chemoheterotrophs: must take in organic molecules for energy and carbon
Photoheterotrophs: Use sunlight for energy but need organic compounds for a carbon source

22. Metabolic Diversity Autotrophs
Chemoautotrophs: perform chemosynthesis to make carbon from carbon dioxide. Does not require sunlight
Photoautotrophs: use light to convert carbon dioxide and water into carbon compounds and oxygen gas.

23. Getting Energy Bacteria need a constant supply of energy
Obligate aerobes- require constant supply of oxygen
Obligate anaerobes- need no oxygen, for some oxygen will kill it
Facultative anaerobes- survive with or with out oxygen

24. Growth and Reproduction
Binary fission (to split)
Conjugation
Spore formation

25. Binary Fission

26. Bacterial Conjugation

27. Endospores (example: Anthrax)
Some bacteria form resistant cells called endospores (11,000 year old spores found)
Resist extremes of temperature, pH, etc.

28. Importance of Bacteria
Only a minority cause disease
Many are essential to life on earth
Decomposers
Break down dead matter
Nitrogen Fixers
Converts nitrogen into a form plants can use
Humans use Bacteria
Often live in symbiotic relationships with other organisms

29. 19.2 Viruses What is a virus? Particles of nucleic acid and proteins
Core made up of DNA or RNA surrounded by a capsid
Need to infect a
living host to reproduce
Head
Tail
Tail fiber
DNA
300,000

30. Viral Structure

31. Bacteriophage

32. Are Viruses Alive? Viruses contain nucleic acids & proteins
Viruses, by themselves, cannot make or use food, grow or reproduce
Some scientists believe viruses were never independently living organisms
Others believe viruses evolved from simple bacteria like mycoplasmas & rickettsiae
Another hypothesis: viruses are genes that have escaped from the genomes of living cells
Not much evidence to support any one of these

33. Viral Infection Lytic Cycle Virus attaches to host cell
Injects its DNA
Host makes RNA from viral DNA
Cell begins to make copies of virus
New viruses form
Host cell bursts

34. Lytic Cycle of the T4 Phage

35. Viral Infection Lysogenic Cycle Virus attaches to host cell
Injects DNA
Viral DNA incorporates itself into the host DNA
Viral DNA can be dormant
Once it becomes active, it follows the 4 processes in the lytic cycle

36. Lytic and Lysogenic Cycle (video)

37. Phage Lytic and Lysogenic Cycles

38. Viral Infection Retrovirus: Genetic information is RNA
Produces DNA copy and creates a prophage
Example:
HIV/AIDS
Envelope
Glycoprotein
Protein coat
RNA (two identical strands)
Reverse transcriptase

39. 19.3 Diseases Caused by Bacteria and Viruses
Pathogens- disease causing agents
Bacterial Disease
Viral Diseases

40. Diseases Caused By Bacteria
How does bacteria produce disease?
Damage the cells and tissues by breaking down the cells for food
Releasing toxins (poisons into the body)

41. Preventing Diseases
Vaccines
Immunity
Antibiotics

42. Controlling Bacteria
Sterilization
Disinfectants
Proper food storage

43. Diseases Caused by Viruses
Viruses disrupt the body’s normal equilibrium
Cannot be treated with antibiotics
Viruses can infect humans and plants

44. Virus-like Particles (Viroids)
Viroids- single stranded RNA molecule with no capsid
They cause diseases in plants
Infect cell and produce more viroids by disrupting the plant metabolism

45. Virus-like Particles (Prions)
Prions- contain only protein; no DNA or RNA
They cause diseases in animals and humans
Prions clump and cause normal protein to clump with it- creating new prions

46. Prion Action

47. Chapter 19 Viruses and Bacteria Multiple Choice Practice Questions

48. 19–1
Which characteristic distinguishes eubacteria from archaebacteria?
Eubacteria lack peptidoglycan in their cell walls.
Eubacteria contain peptidoglycan in their cell walls.
Eubacteria lack a nucleus.
Eubacteria do not possess mitochondria.

49. 19–1
Which characteristic distinguishes eubacteria from archaebacteria?
Eubacteria lack peptidoglycan in their cell walls.
Eubacteria contain peptidoglycan in their cell walls.
Eubacteria lack a nucleus.
Eubacteria do not possess mitochondria.

50. 19–1 Rod-shaped prokaryotes are called bacilli. cocci. spirilla.
streptococci.

51. 19–1 Rod-shaped prokaryotes are called bacilli. cocci. spirilla.
streptococci.

52. 19–1 Bacteria that must live without oxygen are called
obligate aerobes.
facultative anaerobes.
obligate anaerobes.
facultative aerobes.

53. 19–1 Bacteria that must live without oxygen are called
obligate aerobes.
facultative anaerobes.
obligate anaerobes.
facultative aerobes.

54. 19–1
Prokaryotes that make their own food molecules from carbon dioxide and water but live where there is no light are called
photoautotrophs.
photoheterotrophs.
chemoautotrophs.
chemoheterotrophs.

55. 19–1
Prokaryotes that make their own food molecules from carbon dioxide and water but live where there is no light are called
photoautotrophs.
photoheterotrophs.
chemoautotrophs.
chemoheterotrophs.

56. 19–1
Bacteria that attack and digest the tissue of dead organisms are called
decomposers.
nitrogen fixers.
chemoautotrophs.
archaebacteria.

57. 19–1
Bacteria that attack and digest the tissue of dead organisms are called
decomposers.
nitrogen fixers.
chemoautotrophs.
archaebacteria.

58. 19–2
Viruses that contain RNA as their genetic information are known as
prions.
oncoviruses.
retroviruses.
bacteriophage.

59. 19–2
Viruses that contain RNA as their genetic information are known as
prions.
oncoviruses.
retroviruses.
bacteriophage.

60. 19–2 The first type of virus to be studied was the bacteriophage.
tobacco mosaic virus.
influenza virus.
AIDS virus.

61. 19–2 The first type of virus to be studied was the bacteriophage.
tobacco mosaic virus.
influenza virus.
AIDS virus.

62. 19–2 Which of the following statements about viruses is true?
Viruses appear similar to bacteria when studied with a light microscope.
Viruses display the essential characteristics of living things.
Viruses can reproduce independently if they contain DNA.
Viruses cannot reproduce unless they infect a living cell.
19–2

63. 19–2 Which of the following statements about viruses is true?
Viruses appear similar to bacteria when studied with a light microscope.
Viruses display the essential characteristics of living things.
Viruses can reproduce independently if they contain DNA.
Viruses cannot reproduce unless they infect a living cell.
19–2

64. 19–2
A virus integrates its DNA into the DNA of the host cell but remains inactive for a while in
a lytic infection.
a lysogenic infection.
neither a lytic nor a lysogenic infection.
retroviral infection.

65. 19–2
A virus integrates its DNA into the DNA of the host cell but remains inactive for a while in
a lytic infection.
a lysogenic infection.
neither a lytic nor a lysogenic infection.
retroviral infection.

66. 19–2 Retroviruses are considered unique because
they have RNA in their capsid and not DNA.
they have DNA in their capsid and not RNA.
after infection of a host cell, their RNA makes DNA.
after infection of a host cell, their DNA makes RNA.

67. 19–2 Retroviruses are considered unique because
they have RNA in their capsid and not DNA.
they have DNA in their capsid and not RNA.
after infection of a host cell, their RNA makes DNA.
after infection of a host cell, their DNA makes RNA.

68. 19–3 Biologists know that bacteria can cause human disease by
entering cells and using the cell to make new bacteria.
producing toxic substances that interfere with normal cell functi
decomposing the remains of dead organisms.
changing atmospheric nitrogen into nitrogen compounds.
19–3

69. 19–3 Biologists know that bacteria can cause human disease by
entering cells and using the cell to make new bacteria.
producing toxic substances that interfere with normal cell functio
decomposing the remains of dead organisms.
changing atmospheric nitrogen into nitrogen compounds.
19–3

70. 19–3
A process that destroys bacteria by subjecting them to great heat is known as
refrigeration.
sterilization.
pickling.
boiling.

71. 19–3
A process that destroys bacteria by subjecting them to great heat is known as
refrigeration.
sterilization.
pickling.
boiling.

72. 19–3
Which of the following diseases is transmitted by a mosquito bite?
influenza
measles
West Nile virus
chickenpox

73. 19–3
Which of the following diseases is transmitted by a mosquito bite?
influenza
measles
West Nile virus
chickenpox

74. 19–3
Which of the following diseases is thought to be caused by prions?
diphtheria
mad cow disease
tuberculosis
smallpox

75. 19–3
Which of the following diseases is thought to be caused by prions?
diphtheria
mad cow disease
tuberculosis
smallpox

76. 19–3 The best way to combat viral diseases is to use antibiotics.
to treat individual symptoms.
to use preventive vaccines.
to let the disease “cure itself.”

77. 19–3 The best way to combat viral diseases is to use antibiotics.
to treat individual symptoms.
to use preventive vaccines.
to let the disease “cure itself.”