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Prokaryotes and Viruses . Chapter 21. Microorganisms . Single-celled organisms that are too small to be seen without a microscope Bacteria are the smallest living organisms Viruses are smaller but are not alive. The Prokaryotes. Only two groups Archaebacteria and Eubacteria
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Prokaryotes and Viruses Chapter 21
Microorganisms • Single-celled organisms that are too small to be seen without a microscope • Bacteria are the smallest living organisms • Viruses are smaller but are not alive
The Prokaryotes • Only two groups • Archaebacteria and Eubacteria • Arose before the eukaryotes
Prokaryotic Characteristics • No membrane-bound nucleus • Single chromosome • Cell wall (in most species) • Prokaryotic fission • Metabolic diversity
Prokaryotic Body Plan DNA capsule plasma membrane ribosomes in cytoplasm bacterial flagellum Figure 21.3Page 348 pilus cell wall cytoplasm
Bacterial Shapes coccus bacillus spirillum In-text figurePage 348
Metabolic Diversity • Photoautotrophs • Chemoautotrophs • Chemoheterotrophs
Bacterial Genes • Bacteria have a single chromosome • Circular molecule of DNA • Many bacteria also have plasmids • Self-replicating circle of DNA that has a few genes • Can be passed from one cell to another
DNA replication begins Prokaryotic Fission - 1 Bacterium before DNA replication bacterial chromosome Figure 21.7 Page 350
Membrane growth moves DNA molecules apart DNA replication completed parent DNA molecule DNA copy Prokaryotic Fission - 2 Figure 21.7 Page 350
New membrane and cell-wall material deposited Cytoplasm divided in two Prokaryotic Fission - 3 Figure 21.7 Page 350
nicked plasmid in donor cell conjugation tube to recipient cell Conjugation Transfer of plasmid Figure 21.8Page 351
EUBACTERIA (Bacteria) ARCHAEBACTERIA (Archaea) EUKARYOTES (Eukarya) Prokaryotic Classification • Traditionally classified by numerical taxonomy • Now increased use of comparative biochemistry Figure 21.9Page 351
Archaebacteria Methanogens Extreme halophiles Extreme thermophiles
Eubacteria • Includes most familiar bacteria • Have fatty acids in plasma membrane • Most have cell wall; always includes peptidoglycan • Classification based largely on metabolism
Eubacterial Diversity • Photoautotrophic • Aerobic (Cyanobacteria) • Anaerobic (Green bacteria) • Chemoautotrophic • Important in nitrogen cycle • Chemoheterotrophic • Largest group
Some Pathogenic Eubacteria • Most are chemoheterotrophs • E. coli strains • Clostridium botulinum • Clostridium tetanus • Borrelia burgdorferi • Rickettsiarickettsii
Bacterial Behavior • Bacteria move toward nutrient-rich regions • Aerobes move toward oxygen; anaerobes avoid it • Photosynthetic types move toward light • Magnetotactic bacteria swim downward • Myobacteria show collective behavior
Virus • Noncellular infectious agent • Protein wrapped around a nucleic acid core • Cannot reproduce itself; can only be reproduced using a host cell
Viral Body Plans Complex virus (bacteriophage) • Genetic material is DNA or RNA • Coat is protein Helical virus Polyhedral virus Fig. 21.18Page 356
Enveloped Virus (HIV) viral protein lipid envelope (derived from host) viral RNA reverse transcriptase Fig. 21.18Page 356 viral coat (proteins)
Viral Multiplication - Basic Steps • Attach to host cell • Enter host (virus or just genetic material) • Direct host to make viral genetic material and protein • Assemble viral nucleic acids and proteins • Release new viral particles
Lysis of host cell is induced; infectious particles escape. Tail fibers and other parts are added to coats. Virus particles bind to wall of suitable host. Viral genetic material enters cell cytoplasm. Viral protein molecules are assembled into coats; DNA is packaged inside. Viral DNA directs host machinery to produce viral proteins and viral DNA. Lytic Pathway Stepped ArtFig. 21.20 Page 358
Viral DNA is excised from chromosome and cell enters lytic pathway. Viral DNA usually becomes integrated into the bacterial chromosome. After binary fission, each daughter cell will have recombinant DNA. Prior to prokaryotic fission, the chromosome and integrated viral DNA are replicated. Lysogenic Pathway Stepped ArtFig 21.20 (2)Page 358
DNA virus particle Replication of anEnvelopedVirus plasma membrane of host cell Transcription of viral DNA Replication of viral DNA Translation nuclear envelope some proteins for viral coat viral DNA other proteins for viral envelope Figure 21.21Page 359
Viroids • Smaller than viruses • Strands or circles of RNA • No protein-coding genes • No protein coat • Cause many plant diseases
Prions • Small proteins • Linked to human diseases • Kuru • Creutzfeldt-Jakob disease (CJD) • Animal diseases • Scrapie in sheep • Bovine spongiform encephalopathy (mad cow disease)
Nature of Disease • Contagious disease pathogens must directly contact a new host • Epidemic • Pandemic (AIDS) • Sporadic • Endemic
Evolution and Disease • Host and pathogen are coevolving • If a pathogen kills too quickly, it might disappear along with the individual host • Most dangerous if pathogen • Is overwhelming in numbers • Is in a novel host • Is a mutant strain
New Threats • Emerging Pathogens • Ebola virus • Monkeypox virus • Drug-resistant strains • Food poisoning • E. coli • Salmonella