The histone chaperone FACT coordinates H2A.X-dependent signaling and repair of DNA damage. Piquet et al.

Name: The histone chaperone FACT coordinates H2A.X-dependent signaling and repair of DNA damage. Piquet et al.
Creator: Sophie Polo
Published: 2018-09-10T13:01:35.948Z
Keywords: Molecular Biology, Cell Biology, DNA Repair, Epigenetics

Polo, Sophie

doi:10.17632/gz5xtcyxzj.1

The histone chaperone FACT coordinates H2A.X-dependent signaling and repair of DNA damage. Piquet et al.

Published: 10 September 2018| Version 1 | DOI: 10.17632/gz5xtcyxzj.1

Contributor:

Sophie Polo

Description

Original data used in our publication by Piquet et al., Mol Cell 2018, including original microscopy images, western-blot scans, FACS data and results of image analyses. We describe a reshaping of histone variant patterns at sites of UVC damage repair in human cells with H2A.Z removal followed by de novo deposition of H2A.X, and we show that the H2A.X deposition machinery provides a means for fine-tuning DNA damage signaling.

The histone chaperone FACT coordinates H2A.X-dependent signaling and repair of DNA damage. Piquet et al.

Description

Files

Categories

Licence