|Year of selection||2013|
|Institution||Molecular and structural bases of living organisms (Inserm)|
Type of support
120 000 €
DNA Detours Avoid Genetic Roadblocks
Our genetic material, DNA, may seem to be tucked safely away inside our cells, but it is under constant assault. DNA suffers damage at the hands of chemicals, radiation and reactive molecules. While our cells fix the vast majority of these problems with incredible efficiency, some damage to the DNA does occasionally go unnoticed. And that is thought to be involved in ageing, cancer and other diseases. The lesions can cause a fatal roadblock when the DNA replication machinery comes along, as a cell tries to copy itself and divide. Fortunately, cells have two systems for facing this problem. One simply moves past the roadblock, but is more likely to include errors in the copy. The other, called the damage avoidance (DA) pathway, is able to replicate faithfully the undamaged genetic code. Although distinctly important for our health, these ingenious cellular mechanisms are still poorly understood.
To witness the phenomenon in action, Dr. Luisa Laureti and her team developed tools to introduce lesions at precise locations in bacterial DNA and to identify which pathway the bacteria used to bypass it. E. coli bacteria, she found, had a strong preference for avoiding copying the damage. Using techniques of molecular biology, she will now be able to grab the proteins involved in that kind of repair and determine how they operate.
The techniques Dr. Laureti is developing will also let her compare DNA damage caused by different sources, to see which repair pathway predominates in each case. If the dominant system is likely to include errors, it may indicate a greater risk of such lesions resulting in disease. Taken together, Dr. Laureti’s results could not only increase our knowledge of how cancer and aging begin, but present a strategy for combating the DNA damage that can arise when people are repeatedly exposed to carcinogens, on the job or in the environment.
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