1 / 14

Plate 29

Plate 29. Bacterial Transduction. Genetic Changes. 3 ways to alter the DNA within bacteria: Bacterial transformation Indirect: cell  extracellular fluid  cell Bacterial conjugation Direct: cell  cell Bacterial transduction Indirect: cell  virus  cell. Bacteriophage.

pomona
Download Presentation

Plate 29

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Plate 29 Bacterial Transduction

  2. Genetic Changes • 3 ways to alter the DNA within bacteria: • Bacterial transformation • Indirect: cell  extracellular fluid  cell • Bacterial conjugation • Direct: cell  cell • Bacterial transduction • Indirect: cell  virus  cell

  3. Bacteriophage • Bacteriophage: a virus that specifically infects bacteria • Phage – Greek for “to eat” • Perhaps the most numerous “living thing” in the world • Composed of a protein capsid surrounding its DNA • Sometimes used as an alternative to antibiotics

  4. Generalized Transduction – Step 1 • Bacteriophages attach to specific receptors on the surface their host cell (they are species specific)

  5. Generalized Transduction – Step 2 • Phage injects its DNA into the host bacteria cell

  6. Generalized Transduction – Step 3 • Phage DNA instructs bacteria to create “fragmentation enzymes” to break up the host cell’s DNA • The bacteria cell begins building new phages, according to the phage DNA’s instructions • Some bacterial DNA segments are accidentally incorporated into the new phage’s DNA

  7. Generalized Transduction – Step 4 • Virus cycle culminates with lysis (rupturing) of the host cell • Hundreds of new bacteriophages are released, ready to infect other bacteria cells

  8. Generalized Transduction – Step 5 • New phages infect other bacteria cells and inject their DNA into the new host cell • If phage contained bacterial DNA from previous host, it may be incorporated into the new host cell’s DNA (like in conjugation) • New phages do not form

  9. Specialized Transduction • Some phages incorporate their DNA in the host cell’s DNA and don’t immediately assemble new phages

  10. Specialized Transduction • A chemical or a change in the host cell’s conditions signal the assembly of new phages • When the phage DNA detaches from the host cell DNA, it occasionally brings some bacterial DNA with it

  11. Specialized Transduction Animation http://highered.mcgraw-hill.com/sites/0072556781/student_view0/chapter17/animation_quiz_3.html

  12. Specialized Transduction • The new phages (with some bacterial DNA) leave the host cell when it lyses (ruptures) • Other bacterial cells can now be infected with the new hybrid DNA

  13. Generalized vs. Specialized Transduction • Generalized transduction is generalized because any of the host cell’s DNA can be incorporated into a new phage (it’s random) • Specialized transduction is specialized because only the host cell DNA that is next to the phage DNA can form in new phages

More Related