Recording-2025-02-26T15:01:14.353Z

Selective Pressure in Bacteria

• Definition: Selective pressure refers to the influence that environmental factors (like antimicrobial drugs) exert on bacterial populations by favoring those with advantageous traits.

Mechanism of Action

• Antimicrobial Drugs: When an antimicrobial drug is introduced, it prioritizes survival for bacteria that are resistant.

• Non-resistant bacterial cells are killed off, while resistant strains survive and proliferate.

• The resistant bacterial cells can then transfer their resistance to non-resistant cells, further spreading the resistance within the population.

Routes of Resistance Acquisition

• There are primarily two ways bacteria can acquire resistance:

1. Random Mutation

• Bacteria can randomly mutate, which results in alterations that can confer drug resistance.

• The specific mutation must change how the drug interacts with bacterial cells, rendering the drug less effective.

2. Gene Transfer

• Bacteria can also acquire resistance through horizontal gene transfer, primarily via plasmids.

• Plasmids: Small circular DNA molecules that can carry resistance genes and can spread between bacterial cells.

• Gene Transfer Types:

  • Vertical Transfer: Involves the transmission of genetic information directly from parent bacteria to offspring (progeny).

    • Example: Mutations passed down to future generations.

  • Horizontal Transfer: Involves the sharing of genetic material between neighboring bacteria, not reliant on lineage.

    • Example: One bacterium transferring a plasmid containing a resistance gene to another cell.

Summary of Resistance Spread

• Selective pressure combined with mutation and gene transfer mechanisms creates a robust environment for the spread of antibiotic resistance among bacterial populations.

• Understanding these processes is critical in efforts to combat antimicrobial resistance.