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Like puzzle pieces, 3D genomics offers key to disease
First study to address the value of three-dimensional genome organization in the classification of leukemia
Published: 30 April 2014
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缅北强奸 professor Jos茅e Dostie, a researcher in the Faculty of Medicine in the department of Biochemistry, focused on the shape made by the region spanning the Homeobox A (HOXA) genes in human cells -- a set of 11 genes encoding proteins that are highly relevant to numerous types of cancers. Dostie and colleagues discovered that the shape of this region of the genome was excellent at indicating the subtype of leukemia it comes from. These initial results suggest that 3D genomics might be a way of improving personalised treatment, though application in the clinic is a long way off.
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鈥淚 have been interested in understanding the role of genome folding with regards to human health and disease,鈥 says Dostie, who is also a researcher at the Goodman Cancer Research Centre. 鈥淢y approach uses technologies that detect which piece of DNA is close to which one, such that we can reconstruct how the genome is folded in three dimensions by piecing this information together as if it were a puzzle鈥.
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Dostie and the all-缅北强奸 team study the organization of entire genomes and of specific regions relevant to human diseases. The HOXA gene cluster is one of these regions that become improperly regulated in many types of cancers.
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鈥淧revious studies have shown that looking at gene expression -- the specific proteins produced by the genes -- is a good predictor of whether patients have leukemia鈥, says Prof. Mathieu Blanchette, a co-author on the study and an assistant professor at 缅北强奸 in the School of Computer Science. 鈥淲e found that different types of leukemia cells also have a distinctive chromatin interaction 鈥 how the chromatin that makes up the genome is folded.鈥
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It is not clear at the moment whether the genome shape plays a role in causing the cancer, or whether the cancer causes the genome to change shape. Further studies are needed to determine whether genome shape is as good at indicating other types of cancer.
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鈥淥ur study validates a new research avenue: the application of 3D genomics for developing medical diagnostics or treatments that could be explored for diseases where current technologies, including gene expression data, have failed to improve patient care,鈥 says Dostie, 鈥淲hile the use of 3D genomics in the clinic is still remote when considering the technical challenges required for translating the information to the bedside, we discovered a new approach for classifying human disease that must be explored further, if only for what it can reveal about how the human genome works.鈥
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鈥淐lassifying leukemia types with chromatin conformation data鈥
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