jueves, 21 de septiembre de 2017

Genome sequence cannot predict radiation resistance, say researchers

Genome sequence cannot predict radiation resistance, say researchers



News-Medical

Genome sequence cannot predict radiation resistance, say researchers





For the last two decades, researchers worldwide have been using whole genome sequencing to understand what makes cells radiation-resistant, hoping to solve an old biological mystery: why is it that one of the most radiation-resistant organisms, Deinococcus radiodurans, aka "Conan the bacterium," can survive hundreds of times more DNA damage caused by gamma rays than most other organisms? According to a study published recently in Standards of Genomic Sciences by researchers at the Uniformed Services University (USU), the amount of radiation a Deinococcus cell can survive in fact has little to do with the number and types of its DNA repair proteins.
The study, "High-quality genome sequence of the radioresistant bacterium Deinococcus ficusKS 0460," was published July 28 in Standards of Genomic Sciences, and was led by Dr. Michael J. Daly, professor of Pathology at USU, and Drs. Vera Y. Matrosova and Elena K. Gaidamakova, USU staff scientists.
Researchers have known for years that DNA repair enzymes are required to survive chromosome damage caused by radiation. The unanswered question has remained: why do ordinary repair enzymes work so much better in Deinococcus bacteria than in other cells? In 1997, "Conan the bacterium" became one of the first organisms ever to be subjected to whole genome sequencing. Back then, it took two years to sequence and decipher a bacterium, which takes just days now. The research team at USU compared Deinococcus ficus with dozens of its closest relatives including "Conan." In the end, there was nothing special about DNA repair machinery in Deinococcus. Instead, the metabolic configuration of cells – in other words, how they eat and process food – appears more important to understanding radiation resistance. This fresh insight points to new ways to help cancer patients survive radiation therapy, and to develop countermeasures against growing nuclear threats.
"Despite the very best genomic efforts to understand radiation resistance, a sequence simply cannot predict whether a cell is resistant or not. And, this is now forcing scientists to consider other ways to gauge radiation resistance," Daly said.

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