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Literature DB >> 1694442

On the use of normal modes in thermal parameter refinement: theory and application to the bovine pancreatic trypsin inhibitor.

Abstract

A method is presented whereby the amplitude coefficients of molecular normal modes of vibration are treated as independent variables in the treatment of thermal effects in X-ray diffraction, and applied to the bovine pancreatic trypsin inhibitor, form II (P2(1)2(1)2(1), a = 74.1, b = 23.4, c = 28.9 A). It is shown that the description of molecular motion furnished by 892 isotropic temperature factors may be largely reproduced using only 19 molecular thermal parameters from which anisotropic temperature factors may be synthesised for every atom. The method shows that motions and/or disorders external to each molecule are the largest single source of apparent motion, and that the internal motions are comparable to those predicted by Levitt, Sander & Stern.

Entities: Disease Gene Species

Mesh：

Substances：
Aprotinin

Year: 1990 PMID： 1694442 DOI： 10.1107/s0108767390002082

Source DB: PubMed Journal: Acta Crystallogr A ISSN： 0108-7673 Impact factor: 2.290

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Cited

39 in total

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Authors: Ganesaratnam K Balendiran; J Rajendran Pandian; Evin Drake; Anubhav Vinayak; Malkhey Verma; Duilio Cascio
Journal: Curr Proteomics Date: 2014 Impact factor: 0.837

2. Refinement of F-actin model against fiber diffraction data by long-range normal modes.

Authors: Yinghao Wu; Jianpeng Ma
Journal: Biophys J Date: 2004-01 Impact factor: 4.033

3. On the use of low-frequency normal modes to enforce collective movements in refining macromolecular structural models.

Authors: Marc Delarue; Philippe Dumas
Journal: Proc Natl Acad Sci U S A Date: 2004-04-19 Impact factor: 11.205

On the use of normal modes in thermal parameter refinement: theory and application to the bovine pancreatic trypsin inhibitor.

1. B-factor Analysis and Conformational Rearrangement of Aldose Reductase.

2. Refinement of F-actin model against fiber diffraction data by long-range normal modes.

3. On the use of low-frequency normal modes to enforce collective movements in refining macromolecular structural models.

4. Flexibility in crystalline insulins.

5. Normal modes of symmetric protein assemblies. Application to the tobacco mosaic virus protein disk.

6. Rigid protein motion as a model for crystallographic temperature factors.

7. Structure of the full-length Shaker potassium channel Kv1.2 by normal-mode-based X-ray crystallographic refinement.

8. Dynamics of the trimeric AcrB transporter protein inferred from a B-factor analysis of the crystal structure.

9. Fluctuations and correlations in crystalline protein dynamics: a simulation analysis of staphylococcal nuclease.

10. Microscopic theory of the dielectric properties of proteins.