Trouble in transitioning: activation of zygotic transcription can lead to DNA breakage and genome instability

Melina Butuči; Matthew M Wong; W Matthew Michael

doi:10.1080/21624054.2015.1115946

Trouble in transitioning: activation of zygotic transcription can lead to DNA breakage and genome instability

Worm. 2015 Dec 10;4(4):e1115946. doi: 10.1080/21624054.2015.1115946. eCollection 2015 Oct-Dec.

Authors

Melina Butuči¹, Matthew M Wong¹, W Matthew Michael¹

Affiliation

¹ Molecular and Computational Biology Section; Department of Biological Sciences; University of Southern California ; Los Angeles, CA USA.

Abstract

Recent work from our laboratory has identified zygotic genome activation as a source of intrinsic DNA damage during germline development in C. elegans. More specifically, we have found that the primordial germ cells Z2 and Z3 experience DNA damage and damage checkpoint activation shortly after RNA polymerase II is activated by a nutrient-dependent signal in L1 stage animals. In this Commentary we review these data, put them into context with other examples of programmed DNA double-strand breaks (DSBs) during gene activation, and speculate as to how a DSB would facilitate signal-dependent activation of gene expression.

Keywords: C. elegans; DNA damage; TOP-2; X chromosome; Z2/Z3; primordial germ cells (PGCs); transcription.