We present here a new assay that is based on the idea of the molecular beacon. This assay makes it possible to investigate two proteins interacting with DNA at two binding sites that are close to each other. The effectiveness of the test depends on the exclusive binding of three DNA fragments in the presence of two proteins, and the monitoring of the process depends upon observing the quenching of two independent fluorescence donors. As a model we used the components of the heterodimeric ecdysteroid receptor proteins ultraspiracle (Usp) and ecdysone receptor (EcR) from Drosophila melanogaster and a response element from the promoter of the hsp27 gene. The response element consists of two binding sites (half-sites) for the DNA binding domains (DBDs). We have shown that protein–protein interactions mediate cooperative binding of the ecdysteroid receptor DBDs to a hsp27pal response element. The analysis of the microscopic dissociation constants obtained with the DMB led to the conclusion that there was increased affinity of UspDBD to the 5′ half-site in the presence of EcRDBD when the 3′ half-site was occupied, and increased affinity of EcRDBD to the 3′ half-site when the 5′ half-site was occupied.
Ecdysteroids control molting and metamorphosis in insects via a heterodimeric complex of two nuclear receptors, the ecdysone receptor (EcR) and ultraspiracle protein (Usp). We used fluorescence resonance energy transfer (FRET) to study the topology of the natural pseudopalindromic element from the hsp27 gene (hsp27pal) in complex with the DNA-binding domains of Usp and EcR (UspDBD and EcRDBD, respectively). Steady-state data revealed shortening of the end-to-end distance of the hsp27pal-derived probe. For the 70.8 +/- 0.6 A distance obtained for the UspDBD-complexed DNA a bend of about 23.1 +/- 2.9 degrees was measured. Nearly the same value (23.0 +/- 3.4 degrees) was obtained for the DNA complexed with the UspDBD/EcRDBD heterodimer. The respective bend angles estimated using fluorescence decay measurements were 19.0 +/- 2.1 degrees and 20.9 +/- 3.6 degrees . Thus, the FRET data suggest for the first time that the UspDBD defines the architecture of the UspDBD/EcRDBD heterocomplex due to the significant deformation of the hsp27pal. This suggestion has been further reinforced using gel retardation experiments, which, in conjunction with high-resolution DNase I footprinting, indicate that the main contribution to the observed bend is given by the UspDBD itself, while binding of the EcRDBD molecule brings on a slight additional change of the preformed structure.
Ecdysteroids initiate molting and metamorphosis in insects via a receptor which belongs to the superfamily of nuclear receptors. The ecdysone receptor consists of two proteins: the ecdysone receptor (EcR) and the ultraspiracle (Usp). The EcR-Usp dimer conducts transcription through a hsp27(pal) response element. Usp acts as an anchor orienting the whole complex on the DNA. The molecular beacon methodology was applied to detect the sequence-specific DNA of a natural hsp27 (pal) or mutated protein interaction with the DNA binding domain from the Usp. The dissociation constant, K(d), of the UspDBD-hsp27 (pal) complex was determined to be 1.42+/-0.48 nM, whereas K(d) for UspDBD(DeltaA)-hsp27(pal) was 6.6+/-0.5 nM. Mutation of Val-71 for Ala blocks formation of the protein-DNA complex in contrast to Glu-19 mutation for Ala for which K(d)=4.31+/-1.01 nM. The results obtained with the molecular beacon technology are related to those obtained by fluorescence anisotropy titrations.
The nonstandard molecular beacon described in this article consists of 2 fragments, each built of a short single-stranded oligonucleotide sequence and a double-stranded sequence. One of these hybridization probes, labeled with a fluorescence donor (fluorescein), is solid phase immobilized. The second nonimmobilized probe is labeled with a fluorescence quencher (dabcyl). Annealing of both probes via single-stranded sequences was possible only in the presence of a specific protein molecule that recognized the response element sequence initially separated between the immobilized and nonimmobilized fragments. The system was applied successfully to detect the sequence-specific interaction of a natural hsp27 response element from the promoter of the hsp27 gene with the DNA binding domains of 2 nuclear receptor proteins: ultraspiracle Usp (UspDBD) and the ecdysone receptor EcR (EcRDBD). Measured in the absence of EcRDBD, the dissociation constant, K d of the UspDBD-hsp27 complex, was determined to be 3.26 nM, whereas for UspDBD devoid of the A-box (UspDBDΔA-hsp27), the dissociation constant was 4.81 nM.
The ecdysone receptor (EcR) and the ultraspiracle protein (Usp) form the functional receptor for ecdysteroids that initiates metamorphosis in insects. The Usp and EcR DNA-binding domains (UspDBD and EcRDBD, respectively) form a heterodimer on the natural pseudopalindromic element from the hsp27 gene promoter. The conformational changes in the protein-DNA during the formation of the UspDBD-EcRDBD-hsp27 complex were analyzed. Recombined UspDBD and EcRDBD proteins were purified and fluorescein labeled (FL) using the intein method at the C-ends of both proteins. The changes in the distances from the respective C-ends of EcRDBD and/or UspDBD to the 5'- and/or 3'-end of the response element were measured using fluorescence resonance energy transfer (FRET) methodology. The binding of EcRDBD induced a strong conformational change in UspDBD and caused the C-terminal fragment of the UspDBD molecule to move away from both ends of the regulatory element. UspDBD also induced a significant conformational change in the EcRDBD molecule. The EcRDBD C-terminus moved away from the 5'-end of the regulatory element and moved close to the 3'-end. An analysis was also done on the effect that DHR38DBD, the Drosophila ortholog of the mammalian NGFI-B, had on the interaction of UspDBD and EcRDBD with hsp27. FRET analysis demonstrated that hsp27 bending was induced by DHR38DBD. Fluorescence data revealed that hsp27 had a shorter end-to-end distance both in the presence of EcRDBD as well as in the presence of EcRDBD together with DHR38DBD, with DNA bend angles of about 36.2° and 33.6°, respectively. A model of how DHR38DBD binds to hsp27 in the presence of EcRDBD is presented.
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