不含Arg 143的铜锌超氧化物歧化酶单体突变体的结构和功能研究

Biospectroscopy Pub Date : 1999-09-22 DOI:10.1002/(SICI)1520-6343(1999)5:5+<S33::AID-BSPY4>3.0.CO;2-E

Lucia Banci, Ivano Bertini, Rebecca Del Conte, Maria Silvia Viezzoli

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引用次数: 12

摘要

铜锌超氧化物歧化酶(R143I M4SOD，其中M4SOD为上述突变体)的单体突变体(Phe50Glu, Gly51Glu, Val148Lys, Ile151Lys)中精氨酸(Arg) 143与Ile的突变导致了低铜含量的蛋白。钴(II)结合去金属化蛋白，对两个金属位点具有较低的亲和力，而在M4SOD蛋白和二聚体野生型SOD中，它首先在锌位点上随机结合。然而，CuCo SOD衍生物的核磁共振谱显示了单体化和Arg→Ile突变引起的结构变化。电子、圆二色性和EPR光谱提供了铜位点的结构信息。酶的低活性是根据活性腔的结构特性来解释的。©1999 John Wiley &儿子,Inc。生物光谱学学报，2009,29 (3):533 - 541

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Structural and functional studies of monomeric mutant of Cu–Zn superoxide dismutase without Arg 143

Mutation of arginine (Arg) 143 with Ile in the monomeric mutant (Phe50Glu, Gly51Glu, Val148Lys, Ile151Lys) of copper–zinc superoxide dismutase (R143I M4SOD, where M4SOD is the above mutant) leads to a protein with low copper content. Cobalt(II) binds the demetalized protein with a low and comparable affinity for the two metal sites, whereas it binds first and stochiometrically at the zinc site in the M4SOD protein and in the dimeric wild type SOD. However, a CuCo SOD derivative can be obtained whose NMR spectra indicate the structural changes induced by monomerization plus those induced by the Arg → Ile mutation. The electronic, circular dichroism, and EPR spectra provide structural information on the copper site. The low activity of the enzyme is accounted for on the basis of the structural properties of the active cavity. © 1999 John Wiley & Sons, Inc. Biospectroscopy 5: S33–S41, 1999

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Biospectroscopy

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