From Penn Today: “Bioengineers shed light on folding genomes”


From Penn Today

July 18, 2019

A light-triggered technique that allows genomes to be folded into specific configurations at high speeds has potential to advance the field of 3D epigenetics.

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The genome is identical in every cell of the body. However, this tightly-packed genetic material isn’t always folded into the same shape in each cell. The folding pattern can lead to variations in which genes are activated to make proteins.

A genome can be thought of as a beaded string, with each bead representing a gene. Reporting in Nature Methods, Jennifer Phillips-Cremins, an assistant professor in Penn Engineering’s Department of Bioengineering, led a team in using light to force both ends of that string together, folding it into specific shapes so that certain genes are in direct physical contact with each other. By controlling which genes are touching, Phillips-Cremins and colleagues hope to determine how different configurations lead to different combinations of genes that are expressed in the body.

This field of genomic shape manipulation is known as “3D Epigenetics,” and Phillips-Cremins is one of the researchers at its forefront. Her team’s light-triggered folding method, known as light-activated dynamic looping (LADL), can fold genomes into specific loops in a matter of hours. The loops are temporary and can be easily undone. Since prior research from the Phillips-Cremins lab indicates that these looping mechanisms may play a role in some neurodevelopmental diseases, this speedy new folding tool may one day be of use in further research or even treatments.

“It is critical to understand the genome structure-function relationship on short timescales because the spatiotemporal regulation of gene expression is essential to faithful human development and because the mis-expression of genes often goes wrong in human disease,” Phillips-Cremins says. “The engineering of genome topology with light opens up new possibilities to understanding the cause-and-effect of this relationship. Moreover we anticipate that, over the long term, the use of light will allow us to target specific human tissues and even to control looping in specific neuron subtypes in the brain.”

See the full article here .

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