对神经球蛋白内部腔进行改造证明了血红素滑动机制的作用。

Engineering the internal cavity of neuroglobin demonstrates the role of the haem-sliding mechanism.

作者信息

Avella G, Ardiccioni C, Scaglione A, Moschetti T, Rondinelli C, Montemiglio L C, Savino C, Giuffrè A, Brunori M, Vallone B

机构信息

Istituto Pasteur-Fondazione Cenci Bolognetti and Istituto di Biologia e Patologia Molecolari del CNR, Dipartimento di Scienze Biochimiche `A. Rossi Fanelli', Sapienza Università di Roma, Piazzale A. Moro 5, 00185 Rome, Italy.

Departments of Physiology and Cellular Biophysics, Columbia University College of Physicians and Surgeons, Russ Berrie Pavilion, 1150 St Nicholas Avenue, New York, NY 10032, USA.

出版信息

Acta Crystallogr D Biol Crystallogr. 2014 Jun;70(Pt 6):1640-8. doi: 10.1107/S1399004714007032. Epub 2014 May 29.

DOI:10.1107/S1399004714007032

PMID:24914975

Abstract

Neuroglobin is a member of the globin family involved in neuroprotection; it is primarily expressed in the brain and retina of vertebrates. Neuroglobin belongs to the heterogeneous group of hexacoordinate globins that have evolved in animals, plants and bacteria, endowed with the capability of reversible intramolecular coordination, allowing the binding of small gaseous ligands (O2, NO and CO). In a unique fashion among haemoproteins, ligand-binding events in neuroglobin are dependent on the sliding of the haem itself within a preformed internal cavity, as revealed by the crystal structure of its CO-bound derivative. Point mutants of the neuroglobin internal cavity have been engineered and their functional and structural characterization shows that hindering the haem displacement leads to a decrease in CO affinity, whereas reducing the cavity volume without interfering with haem sliding has negligible functional effects.

摘要

神经球蛋白是参与神经保护的球蛋白家族成员；它主要在脊椎动物的大脑和视网膜中表达。神经球蛋白属于六配位球蛋白的异质组，这些球蛋白在动物、植物和细菌中进化而来，具有可逆分子内配位的能力，允许结合小的气态配体（O2、NO和CO）。在血红蛋白中，神经球蛋白的配体结合事件以独特的方式依赖于血红素本身在预先形成的内腔中的滑动，这一点已由其CO结合衍生物的晶体结构揭示。已构建了神经球蛋白内腔的点突变体，其功能和结构表征表明，阻碍血红素移位会导致CO亲和力降低，而在不干扰血红素滑动的情况下减小内腔体积对功能的影响可忽略不计。

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对神经球蛋白内部腔进行改造证明了血红素滑动机制的作用。

Engineering the internal cavity of neuroglobin demonstrates the role of the haem-sliding mechanism.

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