Research topic
There is a large interest by the food industry in reducing the addition of chemical preservatives and the intensity of sterilization treatments in food processing, resulting in foods which are more naturally preserved and richer in organoleptic and nutritional properties. The use as biopreservatives of antimicrobial peptides produced by bacteria, and known as bacteriocins, is seen quite positively by the food industry to satisfy the increasing consumer demand for safe, ready to eat, minimally processed food. There is also an increasing number of publications where bacteriocins have been successfully used as antimicrobial agents to fight against pathogenic microorganisms with impact in human and animal health, and the pharmaceutical companies are considering these peptides as a real alternative to the use of antibiotics in the fight against bacterial antibiotic resistant strains. Since 2008, only four new antibiotics have been introduced to the market while the number of newly described bacteriocins is exponentially increasing. It is believed that more than 99% of bacteria can produce at least one bacteriocin. However, only a small percentage of these bacteria can be culturable under standard laboratory conditions. Accordingly, we aim to develop novel, fast and more efficient screening methods for identification and characterization of novel bacteriocins by using next generation sequencing (NGS) techniques that may permit us to broaden the search of bacteriocins produced by both, culturable and non culturable bacteria, from environmental samples. We also aim using synthetic biology tools to explore different bacteriocin production methods and bioengineering techniques to develop bacteriocin variants with enhanced capabilities.