New tools are making it easier to understand not only our genetic code but also the ways that the code's three-dimensional structure contributes to gene expression. This understanding will be vital in the search for cures to diseases with multiple and complex causes, such as lupus. On this episode of BioScience Talks, we discuss one such tool. It's the product of a collaboration among data scientists, medical scientists, and software engineers, and the new "xapp" allows researchers to view the 3D, looped structure of chromatin and examine the ways in which those loops affect our genes' expression. Richard Pelikan, a bioinformatician at the Oklahoma Medical Research Foundation, and Austin Schwinn, a data scientist at Exaptive, joined us on this episode to discuss the collaboration, epigenetics, chromatin looping, and the future of understanding human disease. Images discussed in the podcast can be found below the links. Learn more about Exaptive. Oklahoma Medical Research Foundation. Subscribe on iTunes. Subscribe on Stitcher. Catch up with us on Twitter.
New tools are making it easier to understand not only our genetic code but also the ways that the code's three-dimensional structure contributes to gene expression. This understanding will be vital in the search for cures to diseases with multiple and complex causes, such as lupus. On this episode of BioScience Talks, we discuss one such tool. It's the product of a collaboration among data scientists, medical scientists, and software engineers, and the new "xapp" allows researchers to view the 3D, looped structure of chromatin and examine the ways in which those loops affect our genes' expression.
Richard Pelikan, a bioinformatician at the Oklahoma Medical Research Foundation, and Austin Schwinn, a data scientist at Exaptive, joined us on this episode to discuss the collaboration, epigenetics, chromatin looping, and the future of understanding human disease. Images discussed in the podcast can be found below the links.
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