nucleolus – NIH Director's Blog (original) (raw)
Creative Minds: A New Mechanism for Epigenetics?
Posted on April 6th, 2017 by Dr. Francis Collins
Keith Maggert
To learn more about how DNA and inheritance works, Keith Maggert has spent much of his nearly 30 years as a researcher studying what takes place not just within the DNA genome but also the subtle modifications of it. That’s where a stable of enzymes add chemical marks to DNA, turning individual genes on or off without changing their underlying sequence. What’s really intrigued Maggert is these “epigenetic” modifications are maintained through cell division and can even get passed down from parent to child over many generations. Like many researchers, he wants to know how it happens.
Maggert thinks there’s more to the story than scientists have realized. Now an associate professor at the University of Arizona College of Medicine, Tucson, he suspects that a prominent subcellular structure in the nucleus called the nucleolus also exerts powerful epigenetic effects. What’s different about the nucleolus, Maggert proposes, is it doesn’t affect genes one by one, a focal point of current epigenetic research. He thinks under some circumstances its epigenetic effects can activate many previously silenced, or “off” genes at once, sending cells and individuals on a different path toward health or disease.
Maggert has received a 2016 NIH Director’s Transformative Research Award to pursue this potentially new paradigm. If correct, it would transform current thinking in the field and provide an exciting new perspective to track epigenetics and its contributions to a wide range of human diseases, including cancer, cardiovascular disease, and neurodegenerative disorders.
Tags: 2016 NIH Director’s Transformative Research Award, cardiovascular disease, cell biology, cell division, cellular stress, DNA, Drosophila melanogaster, epigenetic modification, epigenetic silencing, epigenetic theory, epigenetics, eye color, fruit fly, genome, genomics, inheritance, neurodegenerative disorders, nucleolus, ribosomal DNA, ribosome, subcellular organization