20221007-retinal-cell.jpg

Using deep Hi-C sequencing, a tool used for studying 3D genome organization, the researchers created a high-resolution map of retinal cell chromatin contract points, shown left. The entire map included about 704 million contact points.

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2022

Title

Using deep Hi-C sequencing, a tool used for studying 3D genome organization, the researchers created a high-resolution map of retinal cell chromatin contract points, shown left. The entire map included about 704 million contact points.

Caption

Using deep Hi-C sequencing, a tool used for studying 3D genome organization, the researchers created a high-resolution map of retinal cell chromatin contract points, shown left. The entire map included about 704 million contact points. Shown right, more than 60,000 chromatin loops are represented on a portion of the map.

Credit

Anand Swaroop, Ph.D., NEI

Description

Using deep Hi-C sequencing, a tool used for studying 3D genome organization, the researchers created a high-resolution map of retinal cell chromatin contract points, shown left. The entire map included about 704 million contact points. Shown right, more than 60,000 chromatin loops are represented on a portion of the map.
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Alt Text

Using deep Hi-C sequencing, a tool used for studying 3D genome organization, the researchers created a high-resolution map of retinal cell chromatin contract points, shown left. The entire map included about 704 million contact points.