October 4, 2011
LincRNAs (long intergenic non-coding RNAs) seem to be the flavor du jour for researchers studying the many functions of various types of RNA, in addition to the traditional role of carrying genetic information from DNA to the cellular structures where proteins are made. Very recent research showed that lincRNAs regulate gene expression in embryonic stem cells. Another lab has now come up with a technique for determining exactly where on a cell’s chromosones a given lincRNA binds in order to regulate gene expression.
New Stanford technique gives precise picture of how regulatory RNA controls gene activity – Stanford University
A new technique developed by researchers at the Stanford University School of Medicine allows researchers to identify the exact DNA sequences and locations bound by regulatory RNAs. This information is necessary to understand how the recently identified RNA molecules control the expression of neighboring and distant genes.
The study offers a startling glimpse into the intricate world of gene expression and how RNA, once thought to be only a lowly cellular messenger, actively unlocks our DNA-based genome. “We used to have to just infer where these RNAs were acting based on their biological effects,” said Howard Chang, MD, PhD, professor of dermatology. “But now we can identify precisely where on the chromatin they are binding. We’ve found that these sites are focal, numerous and sequence-specific.”
This research greatly improves lab techniques for studying lincRNA, but doesn’t itself identify new functions.
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September 5, 2011
Traditionally, the roles of only a few types of RNA have been understood for the significant part they play in cell biology. The short list includes messenger RNA, transfer RNA, and ribosomal RNA. More recently, other types have been added: mircroRNA, small interfering RNA, and antisense RNA.
But that hardly exhausts the list. A more recently discovered type of RNA is large, intergenic non-coding RNA (lincRNA), a particular subtype of long non-coding RNA. LincRNA are so-named because they are not derived from gene-coding DNA, but instead from stretches of DNA lying between genes. New research suggests that an important function of some lincRNAs is to regulate the development of embryonic stem cells in the earliest stages of embryo develpment.
New roles emerge for non-coding RNAs in directing embryonic development – Broad Institute of MIT and Harvard
Scientists at the Broad Institute of MIT and Harvard have discovered that a mysterious class of large RNAs plays a central role in embryonic development, contrary to the dogma that proteins alone are the master regulators of this process. The research, published online August 28 in the journal Nature, reveals that these RNAs orchestrate the fate of embryonic stem (ES) cells by keeping them in their fledgling state or directing them along the path to cell specialization.
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