Biology

Deciphering the combinatorial architecture of a Drosophila homeotic gene enhancer

Document Type

Article

Abstract

In Drosophila, the 330. kb bithorax complex regulates cellular differentiation along the anterior-posterior axis during development in the thorax and abdomen and is comprised of three homeotic genes: Ultrabithorax, abdominal-A, and Abdominal-B. The expression of each of these genes is in turn controlled through interactions between transcription factors and a number of cis-regulatory modules in the neighboring intergenic regions. In this study, we examine how the sequence architecture of transcription factor binding sites mediates the functional activity of one of these cis-regulatory modules. Using computational, mathematical modeling and experimental molecular genetic approaches we investigate the IAB7b enhancer, which regulates Abdominal-B expression specifically in the presumptive seventh and ninth abdominal segments of the early embryo. A cross-species comparison of the IAB7b enhancer reveals an evolutionarily conserved signature motif containing two FUSHI-TARAZU activator transcription factor binding sites. We find that the transcriptional repressors KNIRPS, KRUPPEL and GIANT are able to restrict reporter gene expression to the posterior abdominal segments, using different molecular mechanisms including short-range repression and competitive binding. Additionally, we show the functional importance of the spacing between the two FUSHI-TARAZU binding sites and discuss the potential importance of cooperativity for transcriptional activation. Our results demonstrate that the transcriptional output of the IAB7b cis-regulatory module relies on a complex set of combinatorial inputs mediated by specific transcription factor binding and that the sequence architecture at this enhancer is critical to maintain robust regulatory function. © 2013 Elsevier Ireland Ltd.

Publication Title

Mechanisms of Development

Publication Date

2-1-2014

Volume

131

Issue

1

First Page

68

Last Page

77

ISSN

0925-4773

DOI

10.1016/j.mod.2013.10.002

Keywords

Bithorax, Drosophila, enhancer, FUSHI-TARAZU, KNIRPS, transcription

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