基于同步辐射异常散射的七鳃鳗血红蛋白晶体结构分析

Crystallographic structure analysis of lamprey hemoglobin from anomalous dispersion of synchrotron radiation.

作者信息

Hendrickson W A, Smith J L, Phizackerley R P, Merritt E A

机构信息

Howard Hughes Medical Institute, Department of Biochemistry and Molecular Biophysics, Columbia University, New York, New York 10032.

出版信息

Proteins. 1988;4(2):77-88. doi: 10.1002/prot.340040202.

DOI:10.1002/prot.340040202

PMID:3227016

Abstract

The molecular structure of lamprey hemoglobin was previously determined and refined by conventional crystallographic analysis. In this study, the structural analysis has been repeated in the course of developing the method of multiwavelength anomalous diffraction (MAD) for phase determination. New experimental and analytical procedures that were devised to perform this determination should have general applicability. These include an experimental design to optimize signal strength and reduce systematic errors, experimental evaluation of anomalous scattering factors, and a least-squares procedure for analyzing the MAD data. MAD phases for the structure at 3 A resolution are as accurate overall as the multiple isomorphous replacement (MIR) phases determined previously.

摘要

七鳃鳗血红蛋白的分子结构先前已通过传统晶体学分析得以确定和完善。在本研究中，在开发用于相位测定的多波长反常衍射（MAD）方法的过程中重复了结构分析。为进行此测定而设计的新实验和分析程序应具有普遍适用性。这些包括优化信号强度和减少系统误差的实验设计、反常散射因子的实验评估以及用于分析MAD数据的最小二乘法程序。3埃分辨率下该结构的MAD相位总体上与先前确定的多同晶置换（MIR）相位一样准确。

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基于同步辐射异常散射的七鳃鳗血红蛋白晶体结构分析

Crystallographic structure analysis of lamprey hemoglobin from anomalous dispersion of synchrotron radiation.

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