A High-throughput Interbacterial Competition Platform

Abstract

Contact-dependent interbacterial competition is a common strategy used by bacteria to fight for their ecological niches. Interbacterial competition is monitored by a competition assay involving co-culturing the attacker and the recipient bacterial cells on agar, followed by recovery of the surviving recipient cells. Conventional interbacterial competition assays rely on serial dilution, plate spreading, and colony counting experiments for the readout. The high demand for time and labor in a competition assay limits its use for large-scale screening. However, a high-throughput interbacterial competition screening method is required to screen genetic factors involved in an interbacterial competition. Here, using Agrobacterium tumefaciens as an attacker and Escherichia coli as a recipient, we developed a robust, fast, efficient, and high-throughput type VI secretion system-dependent interbacterial competition screening platform. This system allows for 96 simultaneous competition assays without the need for serial dilution and plate spreading. Data analysis of this system relies on only direct and straightforward colony counting. This platform may be easily adapted to identify novel factors involved in any contact-dependent interbacterial competition systems.