Genetic manipulation is widely employed in laboratories for purposes such as gene function characterization, the development of novel traits in transformed microorganisms, and the production of biotechnologically relevant compounds. A key step in this process is the selection of mutant strains, often facilitated by antibiotics. Tetracyclines are commonly used; however, their aqueous solutions tend to precipitate and turn brown over time, potentially compromising stability and efficacy. This necessitates frequent in situ preparation. The present study aimed to evaluate the functional stability of tetracycline hydrochloride for selecting transformed tetracycline-resistant bacterial strains in both liquid and solid media. A tetracycline stock solution and supplemented agar plates were prepared and used to cultivate resistant and non-resistant strains of Escherichia coli and Arcobacter butzleri. This allowed for assessment of antibiotic stability and utility over a 200-day period. Additionally, the minimal inhibitory concentration (MIC) of tetracycline was determined for each strain. Results indicated that the tetracycline-containing materials maintained functional stability for at least 175 days post-preparation, effectively supporting the selection of resistant strains in genetic manipulation experiments. These findings obviate the need for the continual and time-consuming preparation of tetracycline-supplemented culture media, thereby enhancing the practicality of employing this antibiotic in genetic modification studies.
Salazar-Sánchez et al. (Fri,) studied this question.