Zygotic pioneer factor activity of Odd-paired/Zic is necessary for establishing the Drosophila Segmentation Network

Abstract

AbstractBecause regulatory networks of transcription factors drive embryonic patterning, it is possible that chromatin accessibility states impact how networks interact with information encoded in DNA. To determine the interplay between chromatin states and regulatory network function, we performed ATAC seq on Drosophila embryos over the period spanning the establishment of the segmentation network, from zygotic genome activation to gastrulation. Chromatin accessibility states are dynamic over this period, and establishment of the segmentation network requires maturation of the ground chromatin state. Elimination of all maternal patterning information allows identification of patterning-dependent and -independent dynamic chromatin regions. A significant proportion of patterning-dependent accessibility stems from pioneer activity of the pair-rule factor Odd-paired (opa). While opa is necessary to drive late opening of segmentation network cis-regulatory elements, competence for opa to pioneer is regulated over time. These results indicate that dynamic systems for chromatin regulation directly impact the interpretation of embryonic patterning information.