An interesting new short paper out of Tim Lu’s synthetic biology lab showcasing what bacteriophage can bring to the table,
Bacteriophage-based synthetic biology for the study of infectious diseases
Robert J Citorik, Mark Mimee, and Timothy K Lu Published 2014 in Curr. Opin Microbiol. DOI: 10.1016/j.mib.2014.05.022
Since their discovery, bacteriophages have contributed enormously to our understanding of molecular biology as model systems. Furthermore, bacteriophages have provided many tools that have advanced the fields of genetic engineering and synthetic biology. Here, we discuss bacteriophage-based technologies and their application to the study of infectious diseases. New strategies for engineering genomes have the potential to accelerate the design of novel phages as therapies, diagnostics, and tools. Though almost a century has elapsed since their discovery, bacteriophages continue to have a major impact on modern biological sciences, especially with the growth of multidrug-resistant bacteria and interest in the microbiome.
•Multidrug-resistant infections have sparked a renewed interest in bacteriophages.
•Synthetic biology has enabled technologies for next-generation phage engineering.
•Engineered phages and derived parts constitute a new antimicrobial paradigm.
•Bacteriophage-based reporters permit detection of specific pathogens.
•Components from phage form a core set of parts in the synthetic biology toolbox.