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First images of DNA mix-ups linked to cancer

Time-lapse microscopy has captured severed DNA strands linking up with partners from the wrong chromosome, a process implicated in cancer

BREAK-UPS are tough, but getting back together can be even harder.

When DNA strands get torn, the pieces can drift apart. Cells have a repair system that tries to reconnect the loose ends, but it sometimes goes wrong and DNA from different chromosomes is spliced together. These mix-ups – known as chromosome translocations – can lead to harmful mutations and are a . But the details of the process are unclear.

So at the National Cancer Institute in Bethesda, Maryland, and colleagues engineered mouse DNA to split when exposed to a yeast enzyme and tagged the break points with fluorescent proteins to make them visible. They then watched thousands of cells repair themselves over 24 hours ().

They found that an enzyme called DNA-dependent protein kinase plays an important part in correctly reuniting broken strands. Removing this enzyme made a translocation 10 times as likely. The team eventually hopes to find ways to prevent DNA repair going wrong, potentially helping to fight certain cancers.

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