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Accurate transmission of the genetic information requires complete duplication of the chromosomal DNA each cell division cycle. However, the idea that replication forks would form at origins of DNA replication and proceed without impairment to copy the chromosomes has proven naive. It is now clear that replication forks stall frequently as a result of encounters between the replication machinery and template damage, slow-moving or paused transcription complexes, unrelieved positive superhelical tension, covalent protein-DNA complexes, and as a result of cellular stress responses. These stalled forks are a major source of genome instability.

We are developing nanoscale sensors to detect cancer at its earliest stages. Using novel nanomaterials with unique optical properties, we are making it easier to identify disease biomarkers within the body, permitting detection before symptoms arise.