Major advances in understanding the regulation and organization of the human genome

The National Human Genome Research Institute today announced the results of a five-year international study of the regulation and organization of the human genome. The project is named ENCODE, which stands for the Encyclopedia of DNA Elements. In conjunction with the release of those results, the Journal of Biological Chemistry has published a series of reviews that focus on several aspects of the findings.

"The ENCODE project not only generated an enormous body of data about our genome, but it also analyzed many issues to better understand how the genome functions in different types of cells. These insights from integrative analyses are really stories about how molecular machines interact with each other and work on DNA to produce the proteins and RNAs needed for each cell to function within our bodies," explains Ross Hardison of Pennsylvania State University, one of the JBC authors.

Hardison continued: "The Journal of Biological Chemistry recognized that the results from the ENCODE project also would catalyze much new research from biochemists and molecular biologists around the world. Hence, the journal commissioned these articles not only to communicate the insights from the papers now being published but also to stimulate more research in the broader community."

The human genome consists of about 3 billion DNA base pairs, but only a small percentage of DNA actually codes for proteins. The roles and functions of the remaining genetic information were unclear to scientists and even referred to as "junk DNA." But the results of the ENCODE project is filling this knowledge gap. The findings revealed that more than 80 percent of the human genome is associated with biological function.

The study showed in a comprehensive way that proteins switch genes on and off regularly – and can do so at distances far from the genes they regulate – and it determined sites on chromosomes that interact, the locations where chemical modifications to DNA can influence gene expression, and how the functional forms of RNA can regulate the expression of genetic information.

The results establish the ways in which genetic information is controlled and expressed in specific cell types and distinguish particular regulatory regions that may contribute to diseases.

"The deeper knowledge of gene regulation coming from the ENCODE project will have a positive impact on medical science," Hardison emphasizes. For example, recent genetic studies have revealed many genomic locations that can affect a person's susceptibility to common diseases. The ENCODE data show that many of these regions are involved in gene regulation, and the data provide hypotheses for how variations in these regions can affect disease susceptibility, adds Hardison.

The effort behind the ENCODE project was extraordinary. More than 440 scientists in 32 labs in United States, the United Kingdom, Spain, Singapore and Japan performed more than 1,600 sets of experiments on 147 types of tissue. The results were published today in one main integrative paper and five other papers in the journal Nature, 18 papers in Genome Research and six papers in Genome Biology.

The JBC thematic review series was organized by Peggy J. Farnham of the University of Southern California. Farnham is also an author on the main integrative paper in Nature, as were seven other JBC authors, including Hardison, Vishwanath R. Iyer, Bum-Kyu Lee, Raymond K. Auerbach, Ghia Euskirchen, Victor X. Jin and Michael Snyder.

View and download the JBC reviews at https://www.dropbox.com/sh/047x6l5w54t9byi/zP3abN_7Oc?m.

Visit the ENCODE project portal, www.encodeproject.org, for more information.

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Press release written by Danielle Gutierrez.