Deepak Srivastava, M.D., a pediatric cardiologist and director of the Gladstone Institute of Cardiovascular Disease, has been working to understand how the heart develops. His research has shown that microRNAs and proteins work in complementary networks to help progenitor cells choose what kind of heart cells to become. "There is a transcriptional network that controls cell fate decisions in the heart," said Dr. Srivastava. "Overlaid on that is a translational network controlled by microRNAs that controls how much protein is made of those same transcription factors. But also, those transcription factors control the dose of microRNAs. It's a very coordinated network."

Amy Pasquinelli, Ph.D., associate professor at UC, San Diego, is working to determine how microRNAs bind to their target. "We want to understand the pairing rules," said Dr. Pasquinelli. "If we can understand those, we can use bioinformatics to predict, simply by looking at the microRNA sequence, where it's going to bind, what gene it will target and what will be the ultimate result."

Other researchers shared their work on a number of topics, including the fundamental roles of microRNAs in biology and epigenetics; developing cutting-edge technologies that use small RNAs to investigate disease processes; high-resolution structures of RNAi machinery; RNA-mediated regulation of herpes infections; and RNA-based treatments for neurodegenerative disorders, AIDS, cancer and metabolic diseases.

Source: Sanford-Burnham Medical Research Institute