Novel peptide mimics for the disruption of chemical communication in bacteria. It is now well established that bacteria communicate with each other via small diffusible signalling molecules and coordinate their activities such as biofilm formation, swarming and expression of virulence factors in a coordinated manner. This project will investigate the synthesis of novel organic molecules that have the capacity to disrupt chemical communication in bacteria. This could allow control of the unwante ....Novel peptide mimics for the disruption of chemical communication in bacteria. It is now well established that bacteria communicate with each other via small diffusible signalling molecules and coordinate their activities such as biofilm formation, swarming and expression of virulence factors in a coordinated manner. This project will investigate the synthesis of novel organic molecules that have the capacity to disrupt chemical communication in bacteria. This could allow control of the unwanted microbial activity without the use of growth inhibitory agents such as antibiotics, preservatives and disinfectants that select for the resistant organisms. This elegant approach to eradicating the virulence behaviour of microbes represents a novel strategy to combat antimicrobial resistance.Read moreRead less
New scaffolds for antimicrobial discovery. This project aims to investigate the synthesis of novel glyoxylamide antimicrobial peptide mimics that have the capacity to disrupt bacterial membranes. The innovative interdisciplinary approach expects to generate new, small molecular antimicrobial mimics that possess a low propensity for developing resistance. This could allow control of the unwanted microbial activity without the use of antibiotics that select for the resistant organisms. It will pro ....New scaffolds for antimicrobial discovery. This project aims to investigate the synthesis of novel glyoxylamide antimicrobial peptide mimics that have the capacity to disrupt bacterial membranes. The innovative interdisciplinary approach expects to generate new, small molecular antimicrobial mimics that possess a low propensity for developing resistance. This could allow control of the unwanted microbial activity without the use of antibiotics that select for the resistant organisms. It will provide excellent training for young researchers and lead to high quality research publications in international journals.Read moreRead less