Sanford Researcher Establishes Breakthrough Method to Help Identify Mechanisms of Disease

Share Article

Kyle Roux, PhD, reveals BioID, accelerating medical research worldwide

Kyle Roux, PhD

Roux’s discovery gets us even one step closer to developing treatments and cures for rare diseases.

Sanford Health Children’s Research Center researcher, Kyle Roux, PhD, has revealed a new method of research that will allow the cause of disease—particularly rare diseases—to become more easily identified.

Called BioID, this method identifies the proximity and interactions between proteins in living cells providing insight into the underlying mechanisms of disease. Ultimately, this method could lead to the development of more targeted therapeutic or novel treatments for patients.

“Roux’s discovery gets us even one step closer to developing treatments and cures for rare diseases,” says Gene Hoyme, MD, president of Sanford Research. “BioID is a method that can be quickly shared, accelerating research not just at Sanford, but globally for all scientists committed to finding cures.”

Through Roux’s developments, BioID is accessible to a broad range of researchers and does not require specialized equipment. Individual groups that focus on specific disease-associated proteins or pathways can apply this method to their particular projects and overcome long-standing roadblocks to their research.

“Essentially, BioID provides a new versatile tool for researchers seeking to characterize how proteins participate in functional networks necessary for life,” says Roux, PhD, associate scientist, Sanford Children’s Research Center.

Roux’s lab at the Children’s Research Center studies envelopathies, which are defects in the nuclear envelope associated with a myriad of diverse diseases, such as muscular dystrophy, cardiomyopathy, lipodystrophy, dystonia, neuropathy, skeletal defects, and progeria.

Scientists and researchers can publicly access the BioID method at http://www.addgene.org and can read about BioID in this month’s edition of the Journal of Cell Biology at http://jcb.rupress.org/content/early/2012/03/06/jcb.1966iti3.full?etoc.
###

Share article on social media or email:

View article via:

Pdf Print

Contact Author

Stacy Jones
Visit website