镰状细胞纤维中的血红蛋白相互作用。I：分子接触的理论方法。

Hemoglobin interaction in sickle cell fibers. I: Theoretical approaches to the molecular contacts.

作者信息

Levinthal C, Wodak S J, Kahn P, Dadivanian A K

出版信息

Proc Natl Acad Sci U S A. 1975 Apr;72(4):1330-4. doi: 10.1073/pnas.72.4.1330.

DOI:10.1073/pnas.72.4.1330

PMID:1055409

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC432527/

Abstract

Computerized molecular model building has been used to deduce the arrangement of sickle cell hemoglobin molecules (Hb-S) in the tubular fibers which form within sickling cells and in concentrated cell-free solutions of deoxygenated Hb-S. A "best" solution has been found which satisfies all of the reported properties of these fibers. In the proposed arrangement the contact between adjacent Hb-S molecules in the direction parallel to the fiber axis is primarily hydrophobic and in addition contains two salt bridges between the molecules. This contact would be disrupted with the Glu of Hb-A at the beta6 position instead of the Val of Hb-S, and it would not make a long fiber with oxygenated Hb-S. Residues in the A helix and the GH corner of the beta2 chain of one molecule are in contact with residues of the A, B, and E helices and the GH corner of the alpha1 chain of its neighbor. The intermolecular contact in the direction perpendicular to the fiber axis is mainly between the end of the E helix and the EF corner of the beta1 chain on the first molecule and the F helix and FG corner of the alpha2 chain of its neighbor. Some of the implications of these contacts are reported here, and others will be presented in subsequent papers.

摘要

计算机化分子模型构建已被用于推断镰状细胞血红蛋白分子（Hb-S）在镰状细胞内形成的管状纤维以及脱氧Hb-S的无细胞浓缩溶液中的排列方式。已经找到了一种“最佳”解决方案，该方案满足了这些纤维的所有已报道特性。在所提出的排列中，相邻Hb-S分子在平行于纤维轴方向上的接触主要是疏水的，并且分子之间还包含两个盐桥。如果β6位置是Hb-A的谷氨酸而不是Hb-S的缬氨酸，这种接触将会被破坏，并且氧化型Hb-S也不会形成长纤维。一个分子的β2链的A螺旋和GH转角处的残基与相邻分子的α1链的A、B和E螺旋以及GH转角处的残基相互接触。在垂直于纤维轴方向上的分子间接触主要发生在第一个分子的E螺旋末端与β1链的EF转角之间，以及相邻分子的α2链的F螺旋和FG转角之间。本文报道了这些接触的一些影响，其他影响将在后续论文中阐述。

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本文引用的文献

Sickle cell anemia a molecular disease.镰状细胞贫血是一种分子疾病。

Science. 1949 Nov 25;110(2865):543-8. doi: 10.1126/science.110.2865.543.

X-ray and solubility studies of the haemoglobin of sickle-cell anaemia patients.镰状细胞贫血患者血红蛋白的X射线和溶解性研究。

Nature. 1951 Jun 9;167(4258):929-31. doi: 10.1038/167929a0.

Physical principles in the construction of regular viruses.常规病毒构建中的物理原理。

Cold Spring Harb Symp Quant Biol. 1962;27:1-24. doi: 10.1101/sqb.1962.027.001.005.

Abnormal human haemoglobins. III. The chemical difference between normal and sickle cell haemoglobins.异常人类血红蛋白。III. 正常血红蛋白与镰状细胞血红蛋白的化学差异。

Biochim Biophys Acta. 1959 Dec;36:402-11. doi: 10.1016/0006-3002(59)90183-0.

Titratable sulfhydryl groups of normal and sickle cell hemoglobins at O degrees and 38 degrees.正常血红蛋白和镰状细胞血红蛋白在0摄氏度和38摄氏度时的可滴定巯基

J Biol Chem. 1957 Sep;228(1):231-40.

The effect of beta 73 Asn on the interactions of sickling hemoglobins.

Biochim Biophys Acta. 1970 Nov 17;221(2):373-5. doi: 10.1016/0005-2795(70)90279-5.

Three dimensional fourier synthesis of horse deoxyhaemoglobin at 2.8 Angstrom units resolution.分辨率为2.8埃单位的马脱氧血红蛋白的三维傅里叶合成。

Nature. 1970 Nov 7;228(5271):551-2. doi: 10.1038/228551a0.

Interactive computer graphics and representation of complex biological structures.交互式计算机图形学与复杂生物结构的表示

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Intermolecular organization of deoxygenated sickle haemoglobin determined by x-ray diffraction.通过X射线衍射确定的脱氧镰状血红蛋白的分子间组织。

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