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Structure of a DNA-bound Ultrabithorax–Extradenticle homeodomain complex

Jonathan M. Passner, Hyung Don Ryoo, Leyi Shen, Richard S. Mann and Aneel K. Aggarwal ()
Additional contact information
Jonathan M. Passner: Structural Biology Program
Hyung Don Ryoo: Columbia University
Leyi Shen: Structural Biology Program
Richard S. Mann: Columbia University
Aneel K. Aggarwal: Structural Biology Program

Nature, 1999, vol. 397, issue 6721, 714-719

Abstract: Abstract During the development of multicellular organisms, gene expression must be tightly regulated, both spatially and temporally. One set of transcription factors that are important in animal development is encoded by the homeotic (Hox) genes, which govern the choice between alternative developmental pathways along the anterior–posterior axis1,2. Hox proteins, such as Drosophila Ultrabithorax, have low DNA-binding specificity by themselves but gain affinity and specificity when they bind together with the homeoprotein Extradenticle (or Pbx1 in mammals)3,4. To understand the structural basis of Hox–Extradenticle pairing, we determine here the crystal structure of an Ultrabithorax–Extradenticle–DNA complex at 2.4 Å resolution, using the minimal polypeptides that form a cooperative heterodimer. The Ultrabithorax and Extradenticle homeodomains bind opposite faces of the DNA, with their DNA-recognition helices almost touching each other. However, most of the cooperative interactions arise from the YPWM amino-acid motif of Ultrabithorax—located amino-terminally to its homeodomain—which forms a reverse turn and inserts into a hydrophobic pocket on the Extradenticle homeodomain surface. Together, these protein–DNA and protein–protein interactions define the general principles by which homeotic proteins interact with Extradenticle (or Pbx1) to affect development along the anterior–posterior axis of animals.

Date: 1999
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DOI: 10.1038/17833

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