Montreal Scientists develop a novel approach for scanning the entire genome
In a study published in Nature Communications, Dr. Constantin Polychronakos from the Research Institute of the McGill University Health Centre (RI-MUHC), and collaborators from McGill University and The University of Texas, propose a novel approach for scanning the entire genome that will help us understand the effect of genes on human traits.
“This completely new methodology really opens up different ways of understanding how the genome affects the biology of the human body”, says Dr. Polychronakos, corresponding author of the study and Director of the Endocrine Genetics Laboratory at the Montreal Children’s Hospital and Professor in the Departments of Pediatrics and Human Genetics at McGill University.
DNA is the blueprint according to which our body is constructed and functions. Cells “read” this blueprint by transcribing the information into RNA, which is then used as a template to construct proteins – the body’s building blocks. Genes are scanned based on the association of their RNA with ribosomes – particles in which protein synthesis takes place.
“Until now, researchers have been focusing on the effects of disease-associated genomic variants on DNA-to-RNA transcription, instead of the challenging question of effects on RNA-to-protein translation,” says Dr. Polychronakos. “Thanks to this methodology, we can now better understand the effect of genetic variants on translation of RNA to protein – a powerful way of developing biomarkers for personalized medicine and new therapies.”
Supported by the McGill University and Genome Québec Innovation Centre, the research team applied this method to a diabetes gene and discovered that at least one of the 50 genetic loci that confer risk to type-1 diabetes shows an effect on the human body by altering RNA translation to protein.
This paper is one of six that were chosen, from approximately 4000, for presentation at the plenary session of the 2012 conference of the American Society of Human Genetics.
This work was funded by Genome Canada, Génome Québec (GRiD project) and the DP3 program of the USA National Institutes of Health (NIDDK).
August 5, 2013