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Viruses and Bacteria

Viruses and Bacteria. What is a Virus?. A virus is a noncellular particle made up of genetic material and protein that can invade living cells Structure Core of nucleic acid surrounded by a protein coat called a capsid Capsid can be DNA or RNA, but not both

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Viruses and Bacteria

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  1. Viruses and Bacteria

  2. What is a Virus? • A virus is a noncellular particle made up of genetic material and protein that can invade living cells • Structure • Core of nucleic acid surrounded by a protein coat called a capsid • Capsid can be DNA or RNA, but not both • Core can be several to several hundred genes

  3. SO HOW BIG ARE VIRUSES??? • Viruses are REALLY small. • They are much smaller than bacteria. • They can only be seen with an electron microscope.

  4. Bacteriophage • Bacteriophages are viruses that infect bacteria • Bacteriophage • Head – capsid and DNA • Tail – with fibers to attach to bacteria

  5. VIRUS SHAPES • Round • Rod-shaped • Many sided (icosohedral)

  6. ROUND VIRUSES • Herpes virus • There are two types: • Genital • oral

  7. ROD-SHAPED • Tobacco mosaic virus

  8. Why viruses infect us? All viruses are parasites. Parasites depend entirely upon other living organisms for their existence, harming these organisms in the process. • Viruses take advantage of the nutrients and cellular machinery of their hosts.

  9. Viruses Living ?? • Viruses have many of the characteristics of living things. • After infecting living cells, viruses can reproduce, regulate gene expression, and even evolve.

  10. Virus Specificity • Specificity – usually infect specific organisms • Cannot infect animals if it infects plants • Some can infect wider variety • Rabies – all mammals, some birds

  11. VIRUSES ARE SPECIFIC IN THE CELLS THEY INFECT Tobacco mosaic virus: only tobacco plants…not wheat or corn Rabies: only nervous system cells of mammals Common cold: infects cells on airway passage to lungs

  12. Lytic Infection Lytic infection: • virus nucleic acid enters a bacterial cell • makes copies of itself • causes the cell to burst or lyse.

  13. Lytic Cycle Section 19-3 Bacteriophage protein coat Bacteriophage DNA Bacterial chromosome Bacteriophage attaches to bacterium’s cell wall Bacteriophage enzyme lyses the bacterium’s cell wall, releasing new bacteriophage particles that can attack other cells. Lytic Cycle Bacteriophage injects DNA into bacterium Bacteriophage proteins and nucleic acids assemble into complete bacteriophage particles Bacteriophage Bacteriophage DNA Bacteriophage protein Bacteriophage takes over bacterium’s metabolism, causing synthesis of new bacteriophage proteins and nucleic acids

  14. Lysogenic Cycle • viral nucleic acid is inserted into host cell’s DNA • copied along with host DNA without damaging host. • Viral DNA multiplies as host cells multiply so each • generation of daughter cells is infected.

  15. Lysogenic Cycle

  16. Retroviruses • RNA viruses • When they infect a cell, they produce DNA copies of their RNA genes. • Retroviruses have their genetic information copied backwards. RNA  DNA • One Ex of a retrovirus is HIV. Others cause cancer in animals and humans. • The theory is that viruses were not the first living things. They are dependent on living things to survive.

  17. EUBACTERIA & ARCHAEBACTERIA The two bacterial kingdoms Bacteria on a pin head

  18. PROKARYOTIC CELLS Classification of Prokaryotes lacking a nucleus • All prokaryotes were in kingdom Monera. • Now – 2 kingdoms • Eubacteria • Archaebacteria

  19. Eubacteria • “True” bacteria • largest Kindgom of prokaryotes • generally surrounded by cell wall composed of complex carbohydrates • have a cell membrane (some have 2 cell membranes) • Some have flagella for movement • Found everywhere • Some produce disease • Some photosynthetic • some very useful – cheese is just one example

  20. Archaebacteria • Archaebacteria includes organisms that live in very harsh environments • Methanogens – live in oxygen free environments – mud, digestive tracts of animals • Extremely salty environments • Hot springs

  21. Identifying Bacteria • Cell Shape • Rod – bacilli • Sphere – cocci • Spiral – spirilla

  22. Bacterial Shapes Rod Spiral Round

  23. Arrangement • 2 cocci – diplococci • long chains – streptococci • clumps, clusters – staphylococci

  24. Cell Wall • Chemical nature – Gram staining • Hans Christian Gram • 2 dyes – crystal violet (purple) and safranine (red) • bacteria either take one or the other • If only one thick layer of carbohydrate and protein molecules outside the cell membrane – picked up crystal violet – appeared purple – GRAM POSITIVE • If cell had 2nd, outer layer of lipid and carbohydrate – picked up safranine – appeared red GRAM NEGATIVE

  25. Bacterial movement • propelled by flagella • lash, snake, or spiral forward • no movement

  26. Bacterial Respiration • Obligate aerobes – require oxygen • Obligate anaerobes – must live in absence of oxygen • example is Clostridium botulinum • Facultative anaerobes – can live with or without oxygen

  27. Reproduction • Some can reproduce every 20 minutes • Held in check by food and production of wastesTypes: • Binary Fission • Replication of DNA and division in half • Asexual • Conjugation • Sexual – involves the exchange of genetic material • Long bridge of protein forms between the cells • Donor genetic information transferred to recipient through bridge • Recipient cell has different genes at the end than it did to begin with

  28. Importance of Bacteria • Used in production of products we use every day • Yogurt • Cheese • Buttermilk • Sour cream • Pickles • Sauerkraut • Vinegar • Wine • Industry • digest petroleum • remove wastes and poisons from water • synthesizing drugs – through genetic engineering

  29. Symbiotic Relationships (mutuallism) • E. coli in humans – help us digest food – make vitamins we can’t, we give them a home, food, and transportation • Bacteria in the intestines of cattle allow them to break down cellulose (in grass and hay)

  30. Bacteria in the Environment • Bacteria are like the stage hands that allow the show to go on without being seen (or always given the credit) • Bacteria recycle and decompose dead material • Saprophytes – organisms that use the complex molecules of a once living organism as their food source

  31. Sewage decomposition • Sewage treatment – bacteria is added directly to the raw sewage • How does a septic tank work?

  32. Nitrogen Fixation • All organisms are TOTALLY dependent on monerans for Nitrogen • All Plants need nitrogen to make amino acids (-NH2) • Because animals eat plants, they get their proteins from plants • What percentage of the air is Nitrogen? • Plants, and most other organisms cannot use this directly • Need Nitrogen to be “FIXED” chemically as ammonia

  33. Nitrogen Fixation • Scientists can make synthetic nitrogen containing fertilizers by mixing Nitrogen and Hydrogen gases, heating to 500 degrees C and compressing it to 300 X normal atmospheric pressure – dangerous, expensive, time consuming • Many cyanobacteria can take nitrogen from the air and convert it to a useable form – this is called Nitrogen Fixation • Bacteria are the only organisms that can do this. • Some plants have a symbiotic relationship with nitrogen fixing bacteria • soybean – Rhizobium grows in nodules around roots

  34. Diseases caused by Viruses and Monerans • only a small number of viruses and bacteria can cause disease • Pathogens – organisms that cause disease • All viruses infect living cells • Disease occurs when infection causes damage to the cells

  35. Viruses and Disease • Examples are: • Small Pox • Polio • Measles • AIDS • Mumps • Influenza • Yellow Fever • Rabies • Common Cold • Ebola etc…

  36. Vaccine • The body’s own defenses must be used • Vaccine – dead or weakened viruses that stimulate the bodies defense system • Symptoms can be treated sometimes, but once someone is infected by a virus, there is not much science can do

  37. Bacteria and Disease • Bacterial diseases include: • Diptheria • TB • Typhoid • Tetnus • Hansen disease • syphilis • cholera • bubonic plague • Flesh Eating Bacteria

  38. 2 ways bacteria cause disease • Damage cells and tissues of infected organisms directly by breaking down cells • Releasing toxins (poisons) • Many bacteria can live without a host organism (on a petri dish) • Rickettsiae cannot live outside a host cell. They have leaky cell walls • Rickettsiae cause Rocky Mountain Spotted Fever, typhus, and Legionnaire’s disease

  39. Measures to fight bacterial infection include: • Antibiotics – drugs and natural compounds that attack and destroy bacteria in the body • NOT Effective against viruses

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