Training genomics to rapidly detect the undetected.
350 million people live with an undiagnosed disease worldwide, including illnesses caused by undetected pathogens.
Novel and fast-evolving viral and bacterial pathogens are undetectable by standard approaches, leaving clinicians with an incomplete picture.
Generative AI tools are capable of creating novel genome sequences that evade current taxonomic classification and DNA screening tools.
AGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGC
AGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGCAGCGGTACCAACCGGCATTGATCCAATGGGACCAAAATTTCCAAAATGACTACGGAGGTACCGAAATCGATGACCAAGC
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To provide rapid, accurate, and low-cost detection of high-risk microbial pathogens missed by standard diagnostic tests and current DNA screening tools.
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