Literature DB >> 18798561

Molecular basis for dimer formation of TRbeta variant D355R.

Natalia Jouravel1, Elena Sablin, Marie Togashi, John D Baxter, Paul Webb, Robert J Fletterick.   

Abstract

Protein quality and stability are critical during protein purification for X-ray crystallography. A target protein that is easy to manipulate and crystallize becomes a valuable product useful for high-throughput crystallography for drug design and discovery. In this work, a single surface mutation, D355R, was shown to be crucial for converting the modestly stable monomeric ligand binding domain of the human thyroid hormone receptor (TR LBD) into a stable dimer. The structure of D335R TR LBD mutant was solved using X-ray crystallography and refined to 2.2 A resolution with R(free)/R values of 24.5/21.7. The crystal asymmetric unit reveals the TR dimer with two molecules of the hormone-bound LBD related by twofold symmetry. The ionic interface between the two LBDs comprises residues within loop H10-H11 and loop H6-H7 as well as the C-terminal halves of helices 8 of both protomers. Direct intermolecular contacts formed between the introduced residue Arg 355 of one TR molecule and Glu 324 of the second molecule become a part of the extended dimerization interface of 1330 A(2) characteristic for a strong complex assembly that is additionally strengthened by buffer solutes. (c) 2008 Wiley-Liss, Inc.

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Year:  2009        PMID: 18798561      PMCID: PMC2649980          DOI: 10.1002/prot.22225

Source DB:  PubMed          Journal:  Proteins        ISSN: 0887-3585


  27 in total

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Authors:  Sabine Borngraeber; Mary-Jane Budny; Grazia Chiellini; Suzana T Cunha-Lima; Marie Togashi; Paul Webb; John D Baxter; Thomas S Scanlan; Robert J Fletterick
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6.  Expression of alpha and beta thyroid receptors during oligodendrocyte differentiation.

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Authors:  Dangsheng Li; Tong Li; Fang Wang; Heather Tian; Herbert H Samuels
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Authors:  X K Zhang; B Hoffmann; P B Tran; G Graupner; M Pfahl
Journal:  Nature       Date:  1992-01-30       Impact factor: 49.962
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3.  A New Mechanism in THRA Resistance: The First Disease-Associated Variant Leading to an Increased Inhibitory Function of THRA2.

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