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1997 | 44 | 3 |

Tytuł artykułu

Crystal structure of rat transthyretin at 2.5 A resolution: First report on a unique tetrameric structure

Autorzy

Warianty tytułu

Języki publikacji

EN

Abstrakty

EN
The first observation of a unique tetrameric molecular structure of transthyretin from rat (rlTR, prealbumin) is reported. The structure has been determined by X-ray diffraction using molecular replacement and the structure of human transthyretin (hTTR) as a starting model. Crystals of native rat transthyretin are tetragonal, space group P4 3 2 1 2, and have four independent monomers in the asymmetric unit of the crystal lattice. Data were collected to 2.5 A resolution and the structure has been refined to R = 18.9% for 13584 data points between 6-2.5 A resolution. Like hTTR, the rat protein is also a 54000 Da tetramer with four identical polypeptide chains of 127 amino-acid residues. Of the 22 amino-acid residues which are different in the human and rat TTR sequences, none are in the thyroxine binding domain. Analysis of these data reveal that the tertiary structure of rTTR is similar to that of hTTR with only small differences in the flexible loop regions on the surface of the protein. As a result of local changes in flexible loop regions near residues 30-41, 60-65 and 102-104, the structure of rTTR monomers is more compact than that of the corresponding hTTR monomers. The loop between residues 30-41 is bound closer to the monomer core in the former as compared with the latter structure and there is a wider opening of the space formed between these loops at two adjacent monomeric subunits. These conformational changes do not affect the interfaces between the monomeric subunits and are not transmitted to the thyroxine binding site so that its topology remains not altered.

Wydawca

-

Rocznik

Tom

44

Numer

3

Opis fizyczny

p.505-518,fig.

Twórcy

autor
  • N.Copernicus University, J.Gagarina 7, 87-100 Torun, Poland

Bibliografia

  • 1. Braverman, L.E. & Utiger, R.D. (cds) (1991) The Thyroid, a Fundamental and Clinical Text; 6th edn., J.B. Lippincott, Philadelphia.
  • 2. Robbins, J. (1991) Thyroid hormone transport proteins and the physiology of hormone bind­ing; in The Thyroid, a Fundamental and Clinical Text; 6th edn. (Braverman, L.E. & Utiger, R.D., eds.) pp. 111-125, J.B. Lippin­cott, Philadelphia.
  • 3. Sundelin, J., Melhus, H., Das, S., Eriksson, U., Lind. P., Tragiirdh, L., Peterson, P.A. & Rask, L. (1987) The primary structure of rab­bit and rat prealbumin and a comparison with the tertiary structure of human prealbumin. J. Biol. Chem. 260, 6481-6487.
  • 4. Pettersson, T.M., Carlstrom, A., Ehrenburg, A. & Jornval, H. (1989) Transthyretin micro- heterogeneity and thyroxine binding are in­fluenced by non-amino acid components and glutathione constituents. Biochem. Bio- physic. Res. Comm. 158, 341-347.
  • 5. Blake, C.C.F. & Oately, S.J. (1977) Protein- -DNA and protein-hormone interactions in prealbumin: A model of the thyroid hormone nuclear receptor? Nature 268, 115-129.
  • 6. De La Paz, P., Burridge. J.M., Oatley, S.J. & Blake, C.C.F. (1992) Multiple modes of bind­ing thyroid hormones and other iodothyroni- nes to human plasma transthyretin; in The Design of Drugs to Macromolecular Targets (Beddell, C.K., ed.) pp. 119-172, J. Wiley & Sons. Inc. New York.
  • 7. Wojtczak, A., Luft, J.R. & Cody, V. (1992) Mechanism of molecular recognition: Struc­tural aspects of 3,3'-diiodo-L-thyronine bind­ing to human serum transthyretin. J. Biol. Chem. 267, 353-357.
  • 8. Wojtczak, A., Luft, J.R. & Cody, V. (1993) Structural aspects of inotropic bipyridine binding: Crystal structure determination to 1.9 A of the human serum transthyretin-mil­rinone complex. J. Biol. Chem. 268, 6202- -6206.
  • 9. Steinrauf, L.K., Hamilton, J.A., Braden, B.C., Murrell, J.R., & Benson, M.D. (1993) X-ray crystal structure of the Ala-109-Thr variant of human TTR which produces euthyroid hy- perthyroxinemia. J. Biol. Chem. 268. 2425- 2430.
  • 10. Terry, C.J., Damas. A.M.. Oliveira, P., Sara- iva, M.J.M., Alves, I.L., Costa, P.P., Matias, P.M., Sakaki, Y. & Blake, C.C.F. (1993) Struc­ture of Met 30 variant of transthyretin and its amyloidogenic implications. EMBO J. 12, 735-741.
  • 11. Wojtczak, A., Cody, V., Luft, J.R. & Pang- born, W. (1996) Ligand binding in human transthyretin complexes with thyroxine at 2.0 A resolution and 3',5'-dinitro-Af-acetyl-L-thy- ronine at 2.2 A resolution. Acta Cryst. D52, 758-765.
  • 12. Damas, A.M., Ribeiro, S., Lamzin, V.S., Palha, J.A. & Saraiva, M.J. (1996) Structure of Vall22Ile variant transthyretin — a cardiomyopatic mutant. Acta Cryst. D52, 966-972.
  • 13. Sunde, M., Richardson, S.J., Chang, L., Pet­tersson, T.M., Schreiber, G. & Blake, C.C.F (1996) The crystal structure of transthyretin from chicken. Eur. J. Biochem. 236, 491-499.
  • 14. Cody, V., Wojtczak, A., Ciszak, E. & Luft, J.R. (1991) Differences in inhibitor and substrate binding in transthyretin crystal complexes; in Progress in Thyroid Research (Gordon, A., Gross, J. & Hennemann, G., eds.) pp. 793-796, Balema, Rotterdam.
  • 15. Ciszak, E., Luft, J. & Cody, V. (1992) Crystal structure determination at 2.3 A resolution of human transthyretin^',5'- dibromo-2',4.4',6-tetrahydroaurone complex. Proc. Natl. Acad. Sci. U.S.A. 89, 6644-6648.
  • 16. Luft, J.R., Cody, V. & DeTitta, G.T. (1992) Experiences with HANGMAN: A macro- molecular hanginig drop vapor diffusion tech­nique. J. Crystal Growth 122, 181-185.
  • 17. Luft, J R. & DeTitta, G.T. (1992) HANGMAN: A macromolecular hanging-drop vapor-diffu­sion technique.«/. Appl. Cryst. 25, 324-325.
  • 18. Brunger, A. (1992) XPLOR Version 3.1. A System for X-ray Crystallography and NMR. Yale University Press.
  • 19. Sack, J.S. (1988) CHAIN: A crystallographic modeling program. J. Mol. Graphics 6, 224-225.
  • 20. Smith, G.D. HWI Library of Programs.
  • 21. Laskowski, R.A., MacArthur. M.W., Moss, D.S. & Thornton, J.M. (1993) PROCHECK: A program to check the stereochemical quality of protein structures. J. Appl. Cryst. 26, 283-291.
  • 22. Evans, S.V. (1993) SETOR: Hardware lighted three-dimensional solid model represent­ations of macromolecules. J. Mol. Graphics 11, 148-153.

Typ dokumentu

Bibliografia

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Identyfikator YADDA

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