Morning Overview on MSN
A new AI method revealed most of the DNA spools inside our cells sit partly unwound, not locked away, sorting into 14 distinct states tied to gene activity
Researchers have found that the DNA spools inside human cells are far less tightly wound than textbooks have long suggested.
Similar to the way DNA damage can contribute to human diseases such as cancer, it can also disrupt growth, development and ...
DNA synthesis is vital to several processes in biopharmaceutical innovation, including the development of gene therapies, CRISPR gene editing, antisense oligonucleotides and RNA therapies. The need ...
A new technology allows scientists to map, in single cells, the DNA binding sites of transcription factors and other regulatory proteins that control gene activity, according to a study led by ...
Nowadays, there's lots of buzz about spectacular new medical treatments such as personalised cancer therapy with modified immune cells or antibodies. Such treatments, however, are very complex and ...
DNA sits in sunlight every day, absorbing ultraviolet radiation that can set off the kind of chemical changes linked to ...
With just a room-temperature “pot,” a sprinkling of molecules, and a simple electrical device, pathogen DNA detection can now be achieved in under an hour anywhere. This method creates ...
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