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VIRUSES!

This comprehensive guide covers the basics of viruses, including structure, replication, virology, and their impact on medicine. Learn how viruses invade cells, replicate, and cause diseases like colds, flu, and more.

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VIRUSES!

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  1. VIRUSES!

  2. CONTENTS 1. Introduction 4. Virology 2. Virus Structure 5. Virus and Medicine 3. Virus Replication 6. Review Introduction – Structure – Replication – Virology – Medicine - Review

  3. We have all gotten viruses… from bacteria, plants to animals. Viruses cause colds, flu, warts and diseases such as measles, AIDS and cancer. BUTnot all viruses cause diseases, AND not all viruses are harmful to humans. Introduction – Structure – Replication – Virology – Medicine - Review

  4. WHAT IS A VIRUS? Introduction – Structure – Replication – Virology – Medicine – Review

  5. A VIRUS is either DNAorRNA, that is protected by a protein coat called a CAPSID. DNA CAPSID VIRUS Introduction – Structure – Replication – Virology – Medicine - Review

  6. Why are some viruses harmful? Virus invades cell When your cells make viruses instead of operating normally, YOU get sick Virus forces cell to make copies of virus Eventually so many copies are made, the cell explodes, releasing all of the new viruses Introduction – Structure – Replication – Virology – Medicine - Review

  7. Examples of some viral diseases: Introduction – Structure – Replication – Virology – Medicine - Review

  8. Who do viruses infect? • Viruses infect Bacteria • These viruses are called bacteriophages • Viruses infect Plants • One example is the Tobacco Mosaic Virus • Viruses infect Animals • One example is the common cold Viruses usually infect a specific host including: Introduction – Structure – Replication – Virology – Medicine - Review

  9. Let’s look at the Defining Properties of Viruses • Viruses are parasites that invade cells • Viruses have either DNA (Deoxyribose Nucleic Acid)or RNA (Ribonucleic Acid) • Viruses direct the synthesis of new virus within a host cell. • Newly made viruses infect other cells. Introduction – Structure – Replication – Virology – Medicine - Review

  10. Cell Biology Let's review a little cell biology since viruses cannot multiply without the help of cells. The viruses enter the cell and forces the cell to make more viruses. nucleus The cell has three main zones: Nucleus – this holds the DNA or genetic information about the cell. Cytoplasm – this is the “factory” where biochemical reactions occur. Membrane – this double layer protects the cell and allows the cell to communicate with the outside environment. membrane cytoplasm Introduction – Structure – Replication – Virology – Medicine - Review

  11. DNA/RNA DNA or RNA code for genes that defines who we are. DNA, deoxyribonucleic acid, is the double-stranded molecule that encodes genetic information (e.g. your hair color, height, etc.) in the nucleus of cells. The complete set of DNA in a cell is called the genome. RNA, ribonucleic acid, is typically single stranded so that it can be read to make proteins. Introduction – Structure – Replication – Virology – Medicine - Review

  12. How small is a virus? Introduction – Structure – Replication – Virology – Medicine - Review

  13. Viruses range in size from 20 nanometers (nm) – 250 nanometers (nm) 1 nm = 0.00000004 inches If a cell was the size of your classroom, then an average virus would be the size of a softball. proteins animal cells atom bacteria viruses 0 m 10-5 m 10-6 m 10-7 m 10-8 m 10-9 m Go five more feet! 10-10 m

  14. Helical Capsids RNA Helical capsids are rod-like structures with the RNA in the center of the helix. A helix is made by stacking repeating units in a spiral. protein coat Introduction – Structure – Replication – Virology – Medicine - Review

  15. Tobacco Mosaic Virus Tobacco Mosaic Virus (TMV) is an example of a virus with a helical structure. Protein subunits wrap around the spiraling RNA strand. This image taken using an Electron Microscope Introduction – Structure – Replication – Virology – Medicine - Review

  16. Adenovirus Adenoviruses cause diseases like pink-eye or the common cold Introduction – Structure – Replication – Virology – Medicine - Review

  17. Bacteriophage Bacteriophage is a virus that infects bacteria. Introduction – Structure – Replication – Virology – Medicine - Review

  18. Enveloped Viruses Enveloped viruses are viruses which have a membrane coat surrounding the protein coat or capsid. These viruses are common in animal viruses, but are uncommon in plant viruses. Herpes Simplex Virus. A membrane (made of proteins) surrounds the capsid (also made of proteins) which surrounds the viral DNA. Introduction – Structure – Replication– Virology – Medicine - Review

  19. How do viruses replicate? Introduction – Structure – Replication – Virology – Medicine - Review

  20. Replication Phases • I, II, III - Viruses enter cell • Attachment to cell membrane • Penetration inside cell • Losing virus protein coat Phase I V - Release • Assembly of virus DNA and protein coat into whole new viruses • Leaving the cell • IV - Replication • Tricks cell into making more viral DNA • Tricks cell into making viral protein coat Phase II Phase III Phase V Phase IV http://www.cat.cc.md.us/courses/bio141/lecguide/unit2/viruses/adlyt.html Introduction – Structure – Replication – Virology – Medicine - Review

  21. The concept of a virus as an organism challenges the way we define life: * Viruses do not breathe. * Viruses do not metabolize. * Viruses do not grow. * However, they do reproduce. Introduction – Structure – Replication – Virology – Medicine - Review

  22. Are Viruses Living? Create a table where one column represent properties of living organisms and the second column represent properties of a virus. Introduction – Structure – Replication – Virology – Medicine - Review

  23. A Brief History of Virology 1898 Martinus Beijerinick work on TMV Freidrich Loeffler & Paul Frosch work on foot-and-mouth disease in cattle 1915-1917 Bacteriophages (eaters of bacteria)Frederick Twort & Felix d’Herelle discovered viruses which infect bacteria. 1880 – Germ Theory Robert Koch & Louis Pasteur Pasteur identified rabies to be cause by an agent he termed “virus” from the Latin for ‘poison’. 100BC – China Protection from smallpox using variolation practice ~1400BC First written record of virus infections in heiroglyphics found in Memphis, Eygpt 1892 beginning of virology Dmitri Iwanowski showed that ceramic filtered extracts from diseased plants could transmit disease to other plants. 1909 Landsteiner & Popper Poliomyelitis (Yellow Fever) was the first human disease to be recognized as a viral disease 1950-2003 Discoveries of Ebola, West Nile, HIV, SARS 1796 - Vaccination Edward Jenner vaccinated a boy with cowpox-infected material Introduction – Structure – Replication– Virology – Medicine - Review

  24. Techniques to Study Viruses X-ray Crytallography – X-rays are directed at a sample. How those rays scatter can be used to determine the structure of that sample Atomic Force Microscope – A tiny tip probes a surface, from which the shape of the surface can be determined

  25. Sedimentary Centrifugation – A sample is spun so fast, different elements in it are separated by density Filters – Very small holes in material filter only viruses through Electron Microscope – Electrons are smaller than light wavelengths, so viruses can be “seen” by reflecting electrons off of them

  26. Viruses Can Help Cells, Too • Since viruses can transport DNA and RNA into cells, scientists are exploring GeneTherapy • In Gene Therapy, viral genetic material is replaced with new DNA • In time, this could be used to cure genetic diseases. Currently we have no cure for these types of illnesses Introduction – Structure – Replication – Virology – Medicine - Review

  27. The End! And Review • Viruses are very simple: a shell containing either DNA or RNA. They infect by hijacking cells’ machinery to force them to make more viruses. • Viruses are tiny, even compared to a cell. • Some viruses may prove useful in gene therapy as natural carriers of DNA that was specially designed to be good for a particular reason. Introduction – Structure – Replication– Virology – Medicine - Review

  28. The End Introduction – Structure – Replication– Virology – Medicine - Review

  29. Active Viruses Hidden Viruses Host VIRUS Parasite Organisms that live on or near a host and cause it harm. A living thing that provides a source of energy for a virus or an organism A tiny, nonliving that invades and then multiplies inside of a cell. Some viruses hide for a while and become part of the cell’s genetic material. It may stay inactive and “hidden” for years. Then under certain conditions it becomes active and acts like an active virus. Ex – cold sores A virus that immediately goes into action. It begins to take over cell functions and produce the virus’s proteins and genetic material.These parts then assemble into new viruses. The viruses multiply like a copy machine left on. When it is full it bursts open – releases the new viruses and dies.

  30. - Viruses How Viruses Multiply • Active viruses enter cells and immediately begin to multiply, leading to the quick death of the invaded cells.

  31. - Viruses How Viruses Multiply • Hidden viruses “hide” for a while inside host cells before becoming active.

  32. - Viruses Active and Hidden Viruses Activity • Click the Active Art button to open a browser window and access Active Art about active and hidden viruses.

  33. - Viruses Deadly Virus • Click the Video button to watch a movieabout deadly viruses.

  34. - Viruses, Bacteria, and Your Health Common Viral Diseases • Unlike with bacterial diseases, there are currently no medications that can cure viral infections.

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