Expanded repetitive sequences are infamous for causing inherited disease. Think poly-Q tracts that cause Huntington’s or the C9orf72 hexanucleotide run-ons that trigger ALS/FTD. However, given people ...

Investigators at the Johns Hopkins Kimmel Cancer Center have developed a machine learning strategy that has shown the potential to predict cases of early-stage lung or liver cancers in humans, by ...

Repeats of DNA sequences, often referred to as “junk DNA” or “dark matter,” that are found in chromosomes and could contribute to cancer or other diseases have been challenging to identify and ...

Repeats of DNA sequences, often referred to as 'junk DNA' or 'dark matter,' that are found in chromosomes and could contribute to cancer or other diseases have been challenging to identify and ...

Researchers have developed a way to edit the genetic sequences at the root of Huntington's disease and Friedreich's ataxia. If longer than a certain threshold length, these sequences grow in length ...