Neuroscience

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Dark matter made visible before the final cut Research findings from the University of North Carolina School of Medicine are shining a light on an important regulatory role performed by the so-called dark matter, or “junk DNA,” within each of our genes. The new study reveals snippets of information contained in dark matter that can alter the way a gene is assembled. “These small sequences of genetic information tell the gene how to splice, either by enhancing the splicing process or inhibiting it. The research opens the door for studying the dark matter of genes. And it helps us further understand how mutations or polymorphisms affect the functions of any gene,” said study senior author, Zefeng Wang, PhD, assistant professor of pharmacology in the UNC School of Medicine and a member of UNC Lineberger Comprehensive Cancer Center. The study is described in a report published in the January 2013 issue of the journal Nature Structural & Molecular Biology. 

Dark matter made visible before the final cut

Research findings from the University of North Carolina School of Medicine are shining a light on an important regulatory role performed by the so-called dark matter, or “junk DNA,” within each of our genes.

The new study reveals snippets of information contained in dark matter that can alter the way a gene is assembled.

“These small sequences of genetic information tell the gene how to splice, either by enhancing the splicing process or inhibiting it. The research opens the door for studying the dark matter of genes. And it helps us further understand how mutations or polymorphisms affect the functions of any gene,” said study senior author, Zefeng Wang, PhD, assistant professor of pharmacology in the UNC School of Medicine and a member of UNC Lineberger Comprehensive Cancer Center.

The study is described in a report published in the January 2013 issue of the journal Nature Structural & Molecular Biology

Filed under junk DNA dark matter genetics mutations splicing process science

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