High-Throughput Quantitative Measurement of Bacterial Attachment Kinetics on Seconds Time Scale.

Surface attachment is an important factor in the life of many microbial species. Late stages of attachment (i.e., mature biofilms) are rigorously studied, but data on the very early stages is scarce. The lack of robust research methods may go a long way in explaining this situation. We have developed a method that allows the rapid kinetic measurement of bacterial attachment, with seconds to minute's temporal resolution, in a high-throughput setting. The method requires the use of a commercially available microtiter plate reader capable of fluorescence measurement from the bottom, standard microtiter plates, fluorescently tagged bacteria, and a common dye. The high temporal resolution reveals nuanced, fast, and dynamic behaviors in the very early phases of attachment. To demonstrate potential applications, we tested the effect of various conditions on attachment kinetics-specie, substratum, salt concentration, and culture density. Results are in good agreement with crystal violet staining (correlation R2 > 0.95 in all cases) and reproducing published data but show much greater detail and fidelity.