The Ftz Upstream Element Drives Late Ftz Stripes But is Not Required for Regulation of Ftz Target Genes

17 Pages Posted: 13 Oct 2023

See all articles by Matthew D. Fischer

Matthew D. Fischer

affiliation not provided to SSRN

Patricia Graham

University of Maryland

Leslie Pick

University of Maryland

Abstract

The regulation of gene expression in precise, rapidly changing spatial patterns is essential for embryonic development. Multiple enhancers have been identified for the evolving expression patterns of the cascade of Drosophila segmentation genes that establish the basic body plan of the fly. Classic reporter transgene experiments identified multiple cis-regulatory elements (CREs) that are sufficient to direct various aspects of the evolving expression pattern of the pair-rule gene fushi tarazu (ftz). These include enhancers that coordinately activate expression in all seven stripes and stripe-specific elements that activate expression in one or more ftz stripes. Of the two 7-stripe enhancers, analysis of reporter transgenes demonstrated that the upstream element (UPS) is autoregulatory, requiring direct binding of Ftz protein to direct striped expression. Here, we asked about the endogenous role of the UPS by precisely deleting this 7-stripe enhancer.  In ftzDUPS7S homozygotes, ftz stripes appear in the same order as wildtype and all but stripe 4 are expressed at wildtype levels by the end of the cellular blastoderm stage. This suggests that the zebra element and UPS harbor information to direct stripe 4 expression, although previous deletion analyses failed to identify a stripe-specific CRE within these two 7-stripe enhancers. However, the UPS is necessary for late ftz striped expression, with all stripes decaying earlier than wildtype in ftzDUPS7S homozygotes. Despite this premature loss of ftz expression, downstream target gene regulation proceeds as in wildtype, and segmentation is unperturbed in the overwhelming majority of animals. We propose that this late-acting enhancer provides a buffer against perturbations in gene expression but is not required for establishment of Ftz cell fates. Overall, our results demonstrate that multiple enhancers, each directing distinct aspects of an overall gene expression pattern, contribute to fine-tuning the complex patterns necessary for embryonic development.

Keywords: enhancer, Drosophila, pair-rule gene, ftz

Suggested Citation

Fischer, Matthew D. and Graham, Patricia and Pick, Leslie, The Ftz Upstream Element Drives Late Ftz Stripes But is Not Required for Regulation of Ftz Target Genes. Available at SSRN: https://ssrn.com/abstract=4601830 or http://dx.doi.org/10.2139/ssrn.4601830

Matthew D. Fischer

affiliation not provided to SSRN ( email )

No Address Available

Patricia Graham

University of Maryland ( email )

College Park
College Park, MD 20742
United States

Leslie Pick (Contact Author)

University of Maryland ( email )

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