The Evolution of Bacteria on a “Mega-Plate” Petri Dish (Kishony Lab)

Harvard Medical School
9 Sept 201601:55

Summary

TLDRIn the video script, a large-scale Petri dish experiment is described, illustrating the rapid evolution of antibiotic resistance in bacteria. The setup consists of nine bands with varying antibiotic concentrations, from none to a thousand times the wild-type's tolerance. Bacteria spread and adapt by developing mutations, allowing them to survive in increasingly higher concentrations. The process showcases how successive mutations can lead to extreme antibiotic resistance in a short time, highlighting the dynamic nature of bacterial evolution.

Takeaways

  • 🧪 The experiment created a large-scale Petri dish, 2 feet by 4 feet, to study bacterial resistance to antibiotics.
  • 🔬 The Petri dish contained nine bands, each with a different concentration of antibiotic in the agar at the base.
  • 🌿 The outermost band had no antibiotics, simulating an environment where bacteria could initially thrive.
  • 🚫 The next bands had increasing levels of antibiotics, with the innermost band having 1000 times the concentration that E. coli can normally survive.
  • 📏 The setup allowed for the observation of bacterial growth and mutation in response to antibiotic levels.
  • 🤍 The bacteria appeared white against a black background due to the ink in the agar, making them easily visible.
  • 🔄 Bacteria initially spread in the antibiotic-free area and then encountered the need for mutation to survive higher concentrations.
  • 🛑 The script describes a 'pause' as bacteria at the antibiotic boundaries had to develop new mutations to progress.
  • 🔄 Mutants that developed resistance spread until they encountered other resistant strains and competition ensued.
  • 🔝 Over time, different mutants were able to adapt to 10 times, then 100 times, and finally 1000 times the antibiotic concentration.
  • 🕒 The process took approximately 11 days for the bacteria to evolve resistance to extremely high antibiotic concentrations.
  • 🧬 The experiment demonstrates the rapid evolution of antibiotic resistance in bacteria through successive mutations.

Q & A

  • What was the size of the Petri dish used in the experiment described in the script?

    -The Petri dish used in the experiment was 2 feet by 4 feet.

  • How many bands were there in the experimental setup, and what was their purpose?

    -There were nine bands in the setup, each with a different concentration of antibiotic to test the bacteria's resistance.

  • What was the concentration gradient of antibiotics in the bands from the outside to the inside?

    -The concentration started with no antibiotic on the outside, then barely enough for E. coli to survive, followed by 10 times as much, 100 times as much, and finally, the middle band had a thousand times as much antibiotic.

  • What was the role of the thin agar poured on top of the bands?

    -The thin agar allowed the bacteria to move around and interact with different concentrations of antibiotics.

  • Why was the background of the Petri dish black?

    -The background was black because of the ink in it, which made the bacteria appear as white for better visibility.

  • What was the initial observation of the bacteria's behavior in the Petri dish?

    -The bacteria initially spread in the area without antibiotics until they reached a point where they could no longer survive due to the antibiotic concentration.

  • How did the script describe the appearance of a mutant bacteria resistant to antibiotics?

    -A mutant bacteria resistant to the antibiotic appeared on the right side of the Petri dish and started to spread.

  • What happens when the resistant mutants encounter a higher concentration of antibiotics?

    -When the mutants encounter a higher concentration, they pause and develop new mutations to survive in the increased antibiotic environment.

  • How long did it take for the bacteria to adapt to 1000 times the antibiotic concentration?

    -It took about 11 days for the bacteria to adapt to 1000 times the antibiotic concentration.

  • What does the experiment demonstrate about the evolution of antibiotic resistance in bacteria?

    -The experiment demonstrates that bacteria can evolve resistance to extremely high concentrations of antibiotics through a process of accumulating successive mutations in a relatively short period of time.

  • What is the significance of the different bands with varying antibiotic concentrations in the experiment?

    -The different bands with varying antibiotic concentrations simulate a gradient that allows for the observation of how bacteria adapt and develop resistance progressively.

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関連タグ
Antibiotic ResistanceEvolutionBacteriaPetri DishMutationScientific ExperimentE. coliSurvivalCompetitionAdaptation
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