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Infectious Diseases Unit 1 Lesson 4 plan

Infectious Diseases Unit 1 Lesson 4 plan. Do Now. How big do you think a virus is in comparison to a bacteria and to a red blood cell?. http://www.cellsalive.com/howbig.htm. How big are microbes?. There are a 1000 microns in a millimeter and a 1000 nanometers in a micron.

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Infectious Diseases Unit 1 Lesson 4 plan

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  1. Infectious Diseases • Unit 1 Lesson 4 plan

  2. Do Now • How big do you think a virus is in comparison to a bacteria and to a red blood cell? http://www.cellsalive.com/howbig.htm

  3. How big are microbes? There are a 1000 microns in a millimeter and a 1000 nanometers in a micron. http://www.cellsalive.com/howbig.htm

  4. The structure of viruses from the inside out • The genome – where the genes are located. • The capsid– a protein coat that covers the genome. • The envelope - a protein coat that covers the capsid. • Viruses with just a genome and a capsidare called naked. • Viruses with a genome, capsid and an envelope are called enveloped.

  5. The structure of viruses from the inside out Naked: Enveloped: envelope A genome surrounded by a capsid. The capsid is surrounded by an envelope. A genome surrounded by a capsid.

  6. The Genome • Is inside the capsid. • Can be DNA or RNA. • Codes for viral proteins. Naked Enveloped Genome Genome

  7. The Capsid • Protects the genome. • Composed of protein. • Contains enzymes needed for replication. Naked Enveloped Capsid Capsid

  8. The Envelope • Protects the capsid when present. • Composed of protein and lipid. • Contains proteins needed to attach to host cells. Naked Enveloped Envelope No envelope

  9. Virus Life Cycle • The virus attaches to its host cell. • The virus enters its host cell. • The virus hijacks the host cell so it can replicate. • The new viruses exit the host cell. • How depends on whether the virus is naked or enveloped

  10. Attachment Both Naked and Enveloped viruses use their own receptors to recognize proteins on the surface of the host cell. HIV has a receptor called gp120. Gp120 binds to a protein on host T cells called CD4.

  11. HowNAKED viruses enter host cells • The naked virus might punch a hole in the host cell membrane and enter through the hole (example polio virus). • The naked virus might be taken up by endocytosis and then punch a hole in the endosome membrane (example adenovirus). Once the genome is in the cell It can begin to replicate

  12. HowENVELOPED viruses enter host cells • Because the enveloped virus alsohas a membrane it might fuse with the host cell membrane (example HIV). • The enveloped virus might be taken up by endocytosis and then fuse with the endosome membrane (example H1N1). Once the genome is in the cell It can begin to replicate

  13. How NAKED viruses exit host cells • The host cell fills with mature viruses and bursts. This is known as lysis. Mature viruses Even bacteria can be infected by viruses! This is a naked virus that infects bacteria called Bacteriophage.

  14. How ENVELOPED viruses exit host cells • The new envelope proteins are collected in the host cell membrane. • The new capsid proteins and the genome collect below the envelope proteins. • The new enveloped virus forms and buds off from the host cell. The new virus buds off the membrane The capsid pushes out and picks up envelope

  15. Which virus structures allow them to infect their hosts? • Videohttp://www.npr.org/templates/story/story.php?storyId=114075029 • Complete the worksheet

  16. Wrap up • Thousands of new viruses can pop out of an infected cell. • What problem would the virus encounter as this happens? • How could a virus solve that problem?

  17. How do ENVELOPED viruses like H1N1 stop re-entering host cells they just infected? • Problem: enveloped viruses don’t kill their host cells. How do they stop re-attaching and re-entering? The N spike on their envelope Is an enzyme that can destroy The host cell receptor

  18. Homework • Complete the Venn Diagram worksheet.

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