1b0y

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Revision as of 09:50, 21 February 2008

MUTANT H42Q OF HIPIP FROM CHROMATIUM VINOSUM AT 0.93A

Overview

The crystal structure of the reduced high-potential iron protein (HiPIP) from Chromatium vinosum has been redetermined in a new orthorhombic crystal modification, and the structure of its H42Q mutant has been determined in orthorhombic (H42Q-1) and cubic (H42Q-2) modifications. The first two were solved by ab initio direct methods using data collected to atomic resolution (1.20 and 0. 93 A, respectively). The recombinant wild type (rc-WT) with two HiPIP molecules in the asymmetric unit has 1264 protein atoms and 335 solvent sites, and is the second largest structure reported so far that has been solved by pure direct methods. The solutions were obtained in a fully automated way and included more than 80% of the protein atoms. Restrained anisotropic refinement for rc-WT and H42Q-1 converged to R(1) = summation operator||F(o)| - |F(c)|| / summation operator|F(o)| of 12.0 and 13.6%, respectively [data with I > 2sigma(I)], and 12.8 and 15.5% (all data). H42Q-2 contains two molecules in the asymmetric unit and diffracted only to 2.6 A. In both molecules of rc-WT and in the single unique molecule of H42Q-1 the [Fe(4)S(4)](2+) cluster dimensions are very similar and show a characteristic tetragonal distortion with four short Fe-S bonds along four approximately parallel cube edges, and eight long Fe-S bonds. The unique protein molecules in H42Q-2 and rc-WT are also very similar in other respects, except for the hydrogen bonding around the mutated residue that is at the surface of the protein, supporting the hypothesis that the difference in redox potentials at lower pH values is caused primarily by differences in the charge distribution near the surface of the protein rather than by structural differences in the cluster region.

About this Structure

1B0Y is a Single protein structure of sequence from Allochromatium vinosum with as ligand. Full crystallographic information is available from OCA.

Reference

Ab initio solution and refinement of two high-potential iron protein structures at atomic resolution., Parisini E, Capozzi F, Lubini P, Lamzin V, Luchinat C, Sheldrick GM, Acta Crystallogr D Biol Crystallogr. 1999 Nov;55(Pt 11):1773-84. PMID:10531472

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-[[Image:1b0y.jpg|left|200px]]<br /><applet load="1b0y" size="450" color="white" frame="true" align="right" spinBox="true"
+[[Image:1b0y.jpg|left|200px]]<br /><applet load="1b0y" size="350" color="white" frame="true" align="right" spinBox="true"
 caption="1b0y, resolution 0.93&Aring;" />
 '''MUTANT H42Q OF HIPIP FROM CHROMATIUM VINOSUM AT 0.93A'''<br />
 ==Overview==
-The crystal structure of the reduced high-potential iron protein (HiPIP), from Chromatium vinosum has been redetermined in a new orthorhombic, crystal modification, and the structure of its H42Q mutant has been, determined in orthorhombic (H42Q-1) and cubic (H42Q-2) modifications. The, first two were solved by ab initio direct methods using data collected to, atomic resolution (1.20 and 0. 93 A, respectively). The recombinant wild, type (rc-WT) with two HiPIP molecules in the asymmetric unit has 1264, protein atoms and 335 solvent sites, and is the second largest structure, reported so far that has been solved by pure direct methods. The solutions, were obtained in a fully automated way and included more than 80% of the, protein atoms. Restrained anisotropic refinement for rc-WT and H42Q-1, converged to R(1) = summation operator||F(o)| - |F(c)|| / summation, operator|F(o)| of 12.0 and 13.6%, respectively [data with I &gt; 2sigma(I)], and 12.8 and 15.5% (all data). H42Q-2 contains two molecules in the, asymmetric unit and diffracted only to 2.6 A. In both molecules of rc-WT, and in the single unique molecule of H42Q-1 the [Fe(4)S(4)](2+) cluster, dimensions are very similar and show a characteristic tetragonal, distortion with four short Fe-S bonds along four approximately parallel, cube edges, and eight long Fe-S bonds. The unique protein molecules in, H42Q-2 and rc-WT are also very similar in other respects, except for the, hydrogen bonding around the mutated residue that is at the surface of the, protein, supporting the hypothesis that the difference in redox potentials, at lower pH values is caused primarily by differences in the charge, distribution near the surface of the protein rather than by structural, differences in the cluster region.
+The crystal structure of the reduced high-potential iron protein (HiPIP) from Chromatium vinosum has been redetermined in a new orthorhombic crystal modification, and the structure of its H42Q mutant has been determined in orthorhombic (H42Q-1) and cubic (H42Q-2) modifications. The first two were solved by ab initio direct methods using data collected to atomic resolution (1.20 and 0. 93 A, respectively). The recombinant wild type (rc-WT) with two HiPIP molecules in the asymmetric unit has 1264 protein atoms and 335 solvent sites, and is the second largest structure reported so far that has been solved by pure direct methods. The solutions were obtained in a fully automated way and included more than 80% of the protein atoms. Restrained anisotropic refinement for rc-WT and H42Q-1 converged to R(1) = summation operator||F(o)| - |F(c)|| / summation operator|F(o)| of 12.0 and 13.6%, respectively [data with I &gt; 2sigma(I)], and 12.8 and 15.5% (all data). H42Q-2 contains two molecules in the asymmetric unit and diffracted only to 2.6 A. In both molecules of rc-WT and in the single unique molecule of H42Q-1 the [Fe(4)S(4)](2+) cluster dimensions are very similar and show a characteristic tetragonal distortion with four short Fe-S bonds along four approximately parallel cube edges, and eight long Fe-S bonds. The unique protein molecules in H42Q-2 and rc-WT are also very similar in other respects, except for the hydrogen bonding around the mutated residue that is at the surface of the protein, supporting the hypothesis that the difference in redox potentials at lower pH values is caused primarily by differences in the charge distribution near the surface of the protein rather than by structural differences in the cluster region.
 ==About this Structure==
-B0Y is a [http://en.wikipedia.org/wiki/Single_protein Single protein] structure of sequence from [http://en.wikipedia.org/wiki/Allochromatium_vinosum Allochromatium vinosum] with SF4 as [http://en.wikipedia.org/wiki/ligand ligand]. Full crystallographic information is available from [http://ispc.weizmann.ac.il/oca-bin/ocashort?id=1B0Y OCA].
+B0Y is a [http://en.wikipedia.org/wiki/Single_protein Single protein] structure of sequence from [http://en.wikipedia.org/wiki/Allochromatium_vinosum Allochromatium vinosum] with <scene name='pdbligand=SF4:'>SF4</scene> as [http://en.wikipedia.org/wiki/ligand ligand]. Full crystallographic information is available from [http://oca.weizmann.ac.il/oca-bin/ocashort?id=1B0Y OCA].
 ==Reference==
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 [[Category: Allochromatium vinosum]]
 [[Category: Single protein]]
-[[Category: Sheldrick, G.M.]]
+[[Category: Sheldrick, G M.]]
 [[Category: SF4]]
 [[Category: atomic resolution]]
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 [[Category: metalloprotein]]
-''Page seeded by [http://ispc.weizmann.ac.il/oca OCA ] on Tue Nov 20 11:16:09 2007''
+''Page seeded by [http://oca.weizmann.ac.il/oca OCA ] on Thu Feb 21 11:50:27 2008''

1b0y

From Proteopedia

Revision as of 09:50, 21 February 2008

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