Researchers have provided insights key biological events that may eventually be manipulated to provide new disease treatments.
![Future Treatments for Blood Diseases Via Manipulating Chromatin Loops to Regulate Genes Future Treatments for Blood Diseases Via Manipulating Chromatin Loops to Regulate Genes](https://images.medindia.net/health-images/1200_1000/DNA.jpg)
"Many researchers, including ourselves, have shown that chromatin looping is widespread during gene expression," said study leader Gerd A. Blobel, M.D., Ph.D., holder of the Frank E. Weise III Endowed Chair in Pediatric Hematology at The Children's Hospital of Philadelphia. "However, many details remain uncertain—even whether chromatin loops are a cause or effect of gene transcription. Our current study investigated some of these fundamental questions."
Blobel and first author Wulan Deng, a Ph.D. student at the University of Pennsylvania, are publishing their study in the June 8, 2012 print edition of Cell.
The study focused on gene transcription—the fundamental process by which information encoded in a gene's DNA is converted into RNA before the RNA information is translated into a protein.
Blobel and Deng used blood-forming cells in mice, studying a portion of DNA called the beta-globin locus that expresses part of the hemoglobin molecule. The study team already knew that a chromatin loop forms when a distant enhancer touches the promoter in the beta-globin gene and gives rise to gene expression. They did not know all the proteins that were necessary to generate chromatin loops, nor exactly how such proteins functionally interact with other proteins during gene transcription.
The study team sought to identify a looping factor, a protein that triggers chromatin looping. "We had a strong candidate for a looping factor—a molecule called Ldb1," said Deng. In the current study, Blobel and Deng made use of a specialized tool--a genetically engineered DNA binding protein called a zinc finger (ZF) protein, designed to specifically latch onto a chosen gene location.
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"We showed that Ldb1 is a key factor in these long-range chromatin interactions that drive gene expression," said Blobel. "Moreover, our results suggest that chromatin looping is a cause, not an effect, of gene transcription. We will further study whether and how we can use forced chromatin looping to manipulate gene expression for scientific or therapeutic purposes."
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Source-Eurekalert