SBIR 2020: 6823823214: The development of FastMyco™: A novel isothermal colorimetric assay for the rapid detection of mycoplasma contamination. The development of FastMyco™: A novel isothermal colorimetric assay for the rapid detection of mycoplasma contamination. Project Summary/ Abstract (Word Count: 350) Mycoplasma (myco) contamination of mammalian cell lines are recognized as a major contributor to the lack of reproducibility in modern biomedical research. Despite the availability of commercially marketed detection systems, the unabated prevalence of myco in research attests to the shortcomings of these protocols. Indeed, all currently marketed myco tests fail to address the actual needs of the consumer, the bench scientist. For a myco detection product to be widely adopted it must: 1) require no additional equipment or infrastructure, 2) integrate seamlessly into a laboratory’s daily tissue culture routine with no additional labor burden on the users, and 3) be sensitive, inexpensive, and yield results immediately. To this end, in Phase I of this proposal we will optimize the FastMyco™ assay to test cell-culture media samples. FastMyco™ uses breakthrough Recombinase Polymerase Amplification (RPA) coupled to an initial reverse transcriptase (RT) step (RT-RPA), resulting in an all-in-one isothermal alternative to PCR myco detection. In FastMyco™, the RT-RPA reaction will target the 16S rRNA of myco, with amplification conducted in the cell-culture incubator at 37°C for approx. 15- 20 minutes. The assay has a potential detection limit of less than 1 CFU/ ml and immediate colorimetric output from an onboard detection system. The thermal stability of the system is a major technical and cost advantage of FastMyco™ over comparable systems. This will be achieved using cutting-edge lyophilization techniques that will create a multi-layered bead containing all necessary enzymes and reagents, freeze-dried around a core of DNA-detection substrate. The bead dissolves at different rates releasing the detection reagent only after target amplification has begun. In Phase II, we will continue to develop FastMyco™ for large HTP research organizations but also expand the bead-based detection systems to other human and agricultural pathogens. We will strive to integrate FastMyco™ into every laboratory’s routine cell-culture. The assay would also give regulatory agencies such as NIH and FDA the leverage to require this more rigorous testing protocols to help curb the spread of mycoplasma in research.