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Chapter 16 Evolution of Microbial Life
I. Viruses General information General structures Host specificity Replication inside bacteria & animal host cells Diseases & treatments
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Viruses Non-cellular - therefore are non-living (acellular or particles – not in Domain or Kingdom) Smaller than bacteria: approximately 0.2 – 2 µm (1 µm = 1/1,000,000 m) µm is a micrometer which is a millionth of a meter. Diverse in structure; however, they ALL are composed of TWO distinct parts: Outer protein capsid Inner nucleic acid core (DNA or RNA) (OPTIONAL: Some viruses that infect animals may have an envelope covering capsid.) Are categorized by: Type of nucleic acid – DNA or RNA – Single or Double stranded Size and shape Presence or absence of outer envelope
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Have specific host range:
Bacterial viruses = bacteriophage aka phages Plant viruses Animal viruses (may have envelope)
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Not classified using Linnaean system: Have capability to mutate (adapt/evolve) & multiply (replicate) Because they replicate ONLY within living cells, viruses are considered obligate intracellular parasites (commandeers host cell’s machinery for replication)
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Replication processes within bacteria: lytic & lysogenic cycles (pg
Lytic: shorter Attachment, penetration, biosynthesis, maturation, release Lysogenic: longer (dormancy or latency period) Attachment, penetration, integration (prophage); biosynthesis, maturation, release Lock and key receptors give “specificity” DNA/RNA only Virus not actively being replicated. Lysis of the host cell
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How do Viruses Replicate?
The lytic cycle: 1- absorption/attachment 2- injection/entry/penetration 3- replication of viral parts/biosynthesis 4- assembly/maturation 5- release by lysis Results in death of host cell Virulent virus (only lytic cycle)
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Lysogenic Cycle First steps just like lytic!!
Does NOT destroy the host cell Nucleic acid joins the cell’s DNA. Viral DNA becomes a part of hosts cell DNA (prophage) Could go on for years Temperate virus (capable of using the lytic and lysogenic cycles) i.e. HIV, cold sores, shingles
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Both Cycles Together
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Replication process within animal cells
If DNA based: Attachment, penetration, biosynthesis, maturation, release If RNA based: Attachment, penetration, reverse transcription, integration (provirus), biosynthesis, maturation, release Similar to lysogentic cycle – e.g. Retrovirus live HIV Buds out to gain an envelope coat from the membrane of the host Removes coat – NA and protein capsid enter cell
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Examples of Diseases Plant Viruses: Tobacco mosaic virus (TMV), Banana streak virus, Carrot thin leaf virus Animal viruses: Rabies, Polio, Mumps, Chicken pox, Small pox, and Influenza. Emerging – Ebola, Avian Influenza, SAR, Hantavirus, West Nile
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Viruses – Human Viral Diseases
Human viruses causing disease vary in nucleic acid type, structure & vectors
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Viruses – Human Viral Diseases
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Treatment/Prevention:
Tx: anti-virals (not antibiotics) Treat symptoms and try to prevent the virus from replicating Prev: vaccines, public awareness, vector control Viruses and Cancer HPV – human papilloma virus – ↑ cervical cancer Hep C - ↑ liver cancer
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Viruses – Prions & Viroids
Prions are “proteinaceous infectious particles” infectious agents for transmissible spongiform encephalopathies (TSEs) Mad Cow Disease – Bovine Spongiform Encephalopathy similar sheep disease – scrapie Creutzfeldt-Jacob disease - humans normal animals have normal prions misfolded prion proteins cause disease Viroids are tiny “naked” molecules of RNA plant pathogens highly complementary, circular, single-stranded RNA smallest discovered = 220 nb scRNA (small cytoplasmic RNA) associated w/ rice yellow mottle sobemovirus (RYMV) cause diseases in other plants - coconuts mechanism of pathogenicity unclear
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