1. Biology, 9th ed,Sylvia Mader
Chapter 21
Chapter 21
Viruses, Bacteria & Archaea
Viruses, Bacteria & Archaea

2. Outline Viruses Prokaryotes Bacteria Archaea Structure Classification
Reproduction
Prokaryotes
Nutrition
Bacteria
Archaea

3. Generally smaller than 200 nm in diameter
The Viruses
Viruses are noncellular and thus cannot be classified with cellular organisms
Generally smaller than 200 nm in diameter
Each type has at least two parts
Capsid: Outer layer composed of protein subunits
Some enveloped by membrane
Others “naked”
Nucleic acid core: DNA or RNA
Vary in shape from thread-like to polyhedral

4. Viruses

5. Classification is based on:
Viral Categorization
Classification is based on:
Type of nucleic acid
Size and shape
Presence / absence of outer envelope

6. Parasitic Nature Viruses are: Obligate intracellular parasites
Cannot reproduce outside a living cell
Can be cultured only inside living cells
Chicken egg
Tissue culture

7. “Growing” Viruses

8. The Bacteriophages: Reproduction
Bacteriophages – Viruses that infect bacterial cells
Portions of capsid adhere to specific receptor on the host cell
Viral nucleic acid enters the cell
Once inside, the virus takes over metabolic machinery of the host cell

9. Bacteriophages: The Lytic Cycle
Lytic cycle may be divided into five stages:
Attachment
Penetration
Biosynthesis
Maturation
Release

10. The Bacteriophages: The Lysogenic Cycle
Phage becomes a prophage
Becomes integrated into the host genome
Becomes latent
May later reenter the lytic cycle

11. Lytic and Lysogenic Cycles in Prokaryotes

12. Reproduction of Animal Viruses
Animal virus enters the host cell
Uncoating releases viral DNA or RNA
Budding:
Viral particles released in a bud
Acquires a membranous envelope
Retroviruses (AIDS)
Contain reverse transcriptase
Carries out RNA  cDNA reverse transcription
cDNA becomes integrated into host DNA

13. Reproduction of the Retrovirus HIV-1

14. Viral Infections
Viruses are best known for causing infectious diseases in plants and animals
Herpes, HIV, cancer
Viruses lack metabolism; thus, antibiotics have no effect
Viroids
Naked strands of RNA
Many crop diseases
Prions
Protein molecules with contagious tertiary structure
Some human and other animal diseases - Mad cow disease

15. Include bacteria and archaea, which are fully functioning cells
The Prokaryotes
Include bacteria and archaea, which are fully functioning cells
A single spoonful of earth can contain >1000 prokaryotes
Range in size from 1-10 µm in length and µm in width

16. Pasteur’s Experiment

17. Bacterial Structure

18. Prokaryote Structure
Lack a membrane-bounded nucleus (DNA in nucleoid region)
Outer cell wall containing peptidoglycan
Some move by means of flagella
Lack membranous organelles
May have accessory ring of DNA (plasmid)

19. Flagella

20. Reproduction in Prokaryotes
Asexual
Prokaryotes reproduce asexually by means of binary fission
Methods of genetic recombination
Conjugation
Sex pilus forms between two cells
Donor cell passes DNA to recipient cell through pilus
Transformation
Transduction

21. Fimbriae and Sex Pilus

22. Binary Fission

23. Reproduction in Prokaryotes
Transformation
Occurs when bacterium picks up free pieces of DNA from other prokaryotes
Becomes incorporated into genome
Transduction
Occurs when bacteriophages carry portions of bacterial DNA from one cell to another
Serve as vectors
Some bacteria form resistant endospores under unfavorable conditions

24. The Endospore of Clostridium tetani

25. Prokaryotic Nutrition
Oxygen requirements:
Obligate aerobes – unable to grow in the absence of free oxygen
Obligate anaerobes – unable to grow in the presence of free oxygen
Facultative anaerobes – able to grow in either the presence or absence of free oxygen

26. Autotrophic Prokaryotes
Photoautotrophs
Use solar energy to reduce carbon dioxide to organic compounds
Photosynthetic
Chemoautotrophs
Oxidize inorganic compounds to obtain the necessary energy
Use it to reduce CO2 to an organic compound
Chemosynthetic

27. Heterotrophic Prokaryotes
Most prokaryotes are chemoheterotrophs that take in organic nutrients
Aerobic saprotrophs decompose most large organic molecules to smaller molecules
Essential components of healthy ecosystem
May be free-living or symbiotic
Nitrogen fixation
Commensalism
Parasites

28. Nodules of a Legume

29. Bacteria are commonly diagnosed using the Gram stain procedure
The Bacteria
Bacteria are commonly diagnosed using the Gram stain procedure
When washed after staining:
Gram-positive bacteria retain dye and appear purple
Gram-negative bacteria do not retain dye and appear pink

30. Structure of cell wall also of diagnostic use
The Bacteria
Structure of cell wall also of diagnostic use
Bacteria can be further classified in terms of their three basic shapes
Spiral (spirilli),
Rod (bacilli), and
Round (cocci)

31. Diversity of Bacteria

32. Biology, 9th ed,Sylvia Mader
Cyanobacteria
Chapter 21
Viruses, Bacteria & Archaea
Formerly called the Blue-Green algae (Cyanophyta)
Cyanobacteria are Gram-negative bacteria that photosynthesize
Believed to be responsible for introducing oxygen into the primitive atmosphere
Lack visible means of locomotion
Can live in extreme environments
When commensals with fungi, form lichens

33. Diversity Among the Cyanobacteria

34. Archaea were earlier considered bacteria
The Archaea
Archaea were earlier considered bacteria
Carl Woese discovered that the base sequence of their rRNA differs from Bacteria
Other differences:
Archaea do not have peptidoglycan in their cell walls like the Bacteria
Archaea biochemical more like Eukarya than Bacteria
Archaea now thought to be more closely related to Eukarya than to Bacteria

35. Archaea Metabolism
Most are chemoautotrophs
Some mutualistic
Some commensalistic
None known to be parasitic
None are photosynthetic
Many live in harsh conditions

36. Types of Archaea Many live in harsh conditions: Anaerobic marshes
Methanogens
Produce methane from hydrogen gas and carbon dioxide
Salty lakes
Halophiles
Require high salt concentrations for growth, and
Hot sulfur springs
Thermoacidophiles
Reduce sulfides and survive best at temperatures above 80ºC
Plasma membranes contain unusual lipids convey tolerance of high temperatures

37. Thermoacidophile Habitat and Structure

38. Review Viruses Prokaryotes Bacteria Archaea Structure Classification
Reproduction
Prokaryotes
Nutrition
Bacteria
Archaea

39. Biology, 9th ed,Sylvia Mader
Chapter 21
Ending Slide Chapter 21
Viruses, Bacteria & Archaea
Viruses, Bacteria & Archaea