Genome complexity: RNA polymerase (Introduction)

by David Turell @, Friday, April 24, 2015, 18:32 (3261 days ago) @ David Turell

Transcription speeds up and slows down. The study shows how little we understand about a very complex system of copying:-"Once upon a time, scientists thought RNA polymerase—the molecule that kicks off protein synthesis by transcribing DNA into RNA—worked like a wind-up toy: Set it down at a start site in our DNA and it would whir steadily along, reeling off an RNA copy, until it reached the stop site-"'It's more like a high-performance sports car," said Stirling Churchman, assistant professor of genetics at Harvard Medical School. "It has to speed up, slow down and deal with obstacles in its path."-"First, Churchman found evidence that RNA polymerase really does change speed sharply in our cells. Other researchers had suspected this but had only been able to study it in simplified, modified systems outside the cell.-"For example, Churchman and her team saw RNA polymerase slow down right before it reached particular obstacles called transcription factors—proteins that help RNA polymerase do its job.-"Di Iulio discovered that RNA polymerase slowed down when it encountered DNA that would later become part of the final protein. (Many parts of the RNA copy produced during transcription get cut out, and the remaining bits get pieced back together before a protein is made.) No one had seen that before, Churchman said.-"'The RNA polymerase was somehow detecting it was on DNA that would be retained," said Churchman. "We saw this characteristic pattern of pauses like speed bumps before and after these DNA segments. We don't know yet why they're there or what's causing them.'-"Churchman wouldn't have been able to see the speed bumps with a lower-resolution tool because they happened so sharply, spiking and plunging within ten nucleotides.-"Third, Churchman's team saw evidence of convergent transcription, a scenario where a second RNA polymerase "sports car" started further down the gene and drove toward the beginning, potentially leading to two polymerases colliding head-on.-"Other researchers had seen this at specific places along the genome. The work of Churchman's group indicated that it happens in as many as 25 percent of genes.-"Churchman also determined that convergent transcription tends to happen in less-expressed genes.-"In short, the findings indicate that there's a lot going on, said Churchman.-"'There isn't just the decision to turn a gene on or off; there are all these other control valves during the creation of RNA," she said. "Ultimately, it emphasizes the simplicity of our current views of how transcription occurs.'-"The study only scratches the surface of what NET-seq can help Churchman and others learn about gene transcription, she said. But every little bit helps."-
 Read more at: http://phys.org/news/2015-04-rna-machinery-genomic-obstacle.html#jCp


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