A synthetic microbial consortium to detect and kill Vibrio cholerae

Vibrio cholerae is nowadays still problematic in several countries which are exposed to recurrent disease outbreaks. The current disease detection and treatment methods are efficient so this approach focused on the prevention of the disease. Indeed, current solutions are not efficient enough to deal with this situation. As V. cholerae which infects more than a million people each year is usually found in water, a synthetic microbial consortium was designed to detect and kill efficiently the bacteria in water. This work shows that Vibrio harveyi, a non-pathogenic strain to human, can be an efficient detector of V. cholerae. Moreover, it proves that Pichia pastoris, a yeast, can efficiently produce a novel antimicrobial peptide coming from the crocodile Crocodylus siamensis (i.e D-NY15) and that this peptide has a killing action towards V. cholerae. This study also shows that a communication between a prokaryote (Vibrio harveyi) and an eukaryote (Pichia pastoris) may be possible.