M465:Antibiotic Resistance

Antibiotic Production

Many microbes secrete antimicrobial compounds to help them compete with other microorganisms for habitat. Some of the bacteria that are common antibiotic producers are the Actinomycetes (including Streptomycetes species), many of the Bacillus species, and the fruiting myxobacteria, to name just a few among many, many antibiotic producing bacteria. You can also test for the opposite: the sensitivity of your organisms (or known stock bacteria) to manufactured or secreted antibiotics.

(This testing will take 3 weeks.)
Week 1:
Identify how many potential antibiotic producers you might have. It's possible that you might discover the next great antimicrobial drug and get very rich by selling the patent for your discovery to a drug company. Remember that the discovery of penicillin was completely accidental.

Using aseptic technique, transfer an isolate that's likely to be an antibiotic producer to a microfuge tube containing 500μL of sterile water. Vortex to mix. Using a sterile swab, dip the swab in the diluted bacteria and make an inoculation (as shown below) down the middle of a plate of appropriate agar media. Make a second plate exactly like the first for each isolate to be tested. Label them carefully and incubate the plates for ~1 week at RT.

Week 2

We will provide you with 3 fresh cultures of Escherichia coli (Gram negative), Staphylococcus aureus (Gram positive) and grown in nutrient broth.

PROTOCOL

• Use a sterile swab and aseptically apply a line of inoculation of each of the provided broth cultures of : E. coli and S. aureus. as shown below. Draw a line perpendicular to the antibiotic producer's (Streptomyces) inoculation. Be careful not to touch the antibiotic producer's growth. Using the same swabs, inoculate a new NA plate (one plate for all three cultures) by making a line across the plate for E. coli and S. aureus. Incubate this plate along with your test plate. It will serve as a control to make sure that lack of growth is due to antibiotic sensitivity and not to no living cells in the inoculum.
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• Incubate for another week.

Week 3

• Examine the plate and look for evidence of inhibition of growth of "test" organisms near the antibiotic producer's midline streak.
• Draw the results and evaluate whether or not there was evidence that an antibiotic was produced by the organism and, if so, which of the bacteria tested were sensitive to it and to what degree. If you found no inhibition of growth, does that mean that your potential antibiotic producer does not secrete an any antimicrobial compounds? Why or why not?