Binding and spectroscopic properties of ostrich neurophysins. Probing the role of residue 35 at the monomer-monomer interface.

E Breslow, T LaBorde, H S Saayman, W Oelofsen, R J Naudé
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Abstract

Binding and spectroscopic properties of ostrich neurophysins were examined with emphasis on the behavior of Tyr-35, a residue that provides a potential probe of the monomer-monomer interface and of allosteric interrelationships between this region and the binding site. Mesotocin-associated ostrich neurophysin was found to bind oxytocin and related peptides with affinities comparable to the mammalian proteins, but induced a significantly different optical activity in bound peptides than the mammalian proteins. Gel-filtration studies indicated higher dimerization constants for the ostrich neurophysins than for the bovine neurophysins. Consistent with this, Tyr-35 was found to be largely buried, as monitored by tyrosine titration and lack of reactivity towards tetranitromethane under non-denaturing conditions. Reaction of Tyr-35 of the mesotocin-associated protein with tetranitromethane under denaturing conditions, followed by refolding, allowed isolation of an active product with an altered interface region as partially evidenced by its titration properties and consistent with its markedly altered CD spectrum. Comparison of the CD spectra of the modified and native proteins and analysis of pH effects indicated the contribution of Tyr-35 to an unusual 237 nm band in the mesotocin-associated protein. Small shifts in the 350 nm CD band of nitrated Tyr-35 on binding peptide and apparent effects of nitration on the induced optical activity in bound peptide provided evidence of at least weak structural communication between Tyr-35 and the binding site. However, no significant effect of nitration on binding affinity was observed, suggesting that, in the mesotocin-associated protein, the region around residue 35 is not a stringent modulator of the thermodynamic behavior of the binding site.

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鸵鸟神经毒素的结合与光谱特性。探讨残基35在单体-单体界面上的作用。
研究了鸵鸟神经磷脂的结合特性和光谱特性,重点研究了tyr35的行为,这是一种残基,为研究单体界面和该区域与结合位点之间的变构相互关系提供了潜在的探针。研究发现,与催产素相关的鸵鸟神经physin结合催产素和相关肽的亲和力与哺乳动物蛋白相当,但在结合肽中诱导的光学活性明显不同于哺乳动物蛋白。凝胶过滤研究表明鸵鸟神经磷脂的二聚化常数高于牛神经磷脂。与此一致的是,通过酪氨酸滴定和在非变性条件下对四硝基甲烷缺乏反应性的监测,发现Tyr-35大部分被掩埋。在变性条件下,中介素相关蛋白的tyr35与四硝基甲烷反应,然后再折叠,可以分离出具有改变界面区域的活性产物,其滴定特性部分证明了这一点,并与其显着改变的CD谱相一致。比较修饰蛋白和天然蛋白的CD光谱以及pH效应分析表明,Tyr-35对中生激素相关蛋白中一个不寻常的237 nm波段有贡献。硝化后的tyr35在结合肽上350 nm CD波段的微小位移以及硝化对结合肽诱导的光学活性的明显影响,证明了tyr35与结合位点之间至少存在微弱的结构通信。然而,没有观察到硝化对结合亲和力的显著影响,这表明,在中生毒素相关蛋白中,残基35周围的区域并不是结合位点热力学行为的严格调节剂。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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