Researchers at the European Bioinformatics Institute (EMBL-EBI), the University of Dundee and the Wellcome Sanger Institute have used human and worm data to explore the mutational causes of cancer. Their study, published today in Genome Research, also shows that results from controlled experiments on a model organism – the nematode worm C. elegans – are relevant to humans, helping researchers refine what they know about cancer.
Enigmatic DNA mutation and repair
Cancer is caused by DNA mutations which can be triggered by a range of factors, including UV radiation, certain chemicals and smoking, but also errors occurring naturally during cell division. A cell recognises most of these mutations and corrects them through multiple repair mechanisms. However, DNA repair is not perfect, so it can leave certain mutations unrepaired or repair them incorrectly leading to changes in DNA. Understanding the footprints of these mutational processes is an important first step in identifying the causes of cancer and potential avenues for new treatments.
Read more at The European Bioinformatics Institute
Image: Caenorhabditis elegans (CREDIT: Arturo Agostino)