The resistome is the totality of the ancient genetic base of antibiotic-resistant genes among bacterial species. In the past, the resistome was wholly the subject of the natural world and the antibiotics that developed within it. However, ever since the use and misuse of antibiotics by humans began, the balance between the resistome and antibiotics has turned into a race between the emergence of highly antibiotic-resistant “superbugs” and the development of novel antibiotic compounds and antibiotic techniques. Among those superbugs that have become of human concern in recent years, Methicillin-resistant S. aureus (MRSA) is one of the most important. This paper aims to outline a possible novel vesicle vaccine that is effective against MRSA, and additionally, the process by which the vaccine might be experimentally created.

As of November 2020, approximately 63% of Americans say they would not be willing to immediately receive a COVID-19 vaccine—even if the vaccine was approved by the Food and Drug Administration (FDA) and free of cost [1]. Public willingness to receive a COVID-19 vaccine has rebounded since its all time low of 50% in September of 2020. The fluctuation in willingness to be vaccinated ...

Oral vaccines are known to be a convenient and effective method for treatment or prevention of diseases caused by pathogenic microorganisms. The difficulty of developing such vaccines is due to the often inhospitable environment of the stomach and intestinal tract because of low pH, or acidity, as well as enzymes that can digest or destroy biological molecules. Using a virus-like ...