Role of the hinge peptide and the intersubunit interface in the swapping of N-termini in dimeric bovine seminal RNase.

Carmine Ercole, Francesca Avitabile, Pompea Del Vecchio, Orlando Crescenzi, Teodorico Tancredi, Delia Picone
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引用次数: 20

Abstract

Bovine seminal ribonuclease (BS-RNase) is the only known dimeric enzyme characterized by an equilibrium between two different 3D structures: MxM, with exchange (or swapping) of the N-terminal 1-20 residues, and M=M, without exchange. As a consequence, the hinge region 16-22 has a different tertiary structure in the two forms. In the native protein, the equilibrium ratio between MxM and M=M is about 7 : 3. Kinetic analysis of the swapping process for a recombinant sample shows that it folds mainly in the M=M form, then undergoes interconversion into the MxM form, reaching the same 7 : 3 equilibrium ratio. To investigate the role of the regions that are most affected structurally by the swapping, we expressed variant proteins by replacing two crucial residues with the corresponding ones from RNase A: Pro19, within the hinge peptide, and Leu28, located at the interface between subunits. We compared the structural properties of the monomeric forms of P19A-BS-RNase, L28Q-BS-RNase and P19A/L28Q-BS-RNase variants with those of the parent protein, and investigated the exchange kinetics of the corresponding dimers. The P19A mutation slightly increases the thermal stability of the monomer, but it does not alter the swapping tendency of the dimer. In contrast, the L28Q mutation significantly affects both the dimerization and swapping processes but not the thermal stability of the monomer. Overall, these results suggest that the structural determinants that control the exchange of N-terminal arms in BS-RNase may not be located within the hinge peptide, and point to a crucial role of the interface residues.

铰链肽和亚基间界面在二聚体牛精液rna酶n末端交换中的作用。
牛精液核糖核酸酶(BS-RNase)是已知的唯一具有两种不同三维结构平衡的二聚体酶:MxM, n端1-20残基交换(或交换),M=M,不交换。因此,铰链区域16-22在两种形式中具有不同的三级结构。在天然蛋白中,MxM与M=M的平衡比约为7:3。对重组样品交换过程的动力学分析表明,其主要以M=M形式折叠,然后相互转化为MxM形式,达到相同的7:3平衡比。为了研究受交换结构影响最大的区域的作用,我们用RNase A的两个关键残基替换了变体蛋白:位于铰链肽内的Pro19和位于亚基之间界面的Leu28。我们比较了P19A- bs - rnase、L28Q-BS-RNase和P19A/L28Q-BS-RNase的单体形式与亲本蛋白的结构特性,并研究了相应二聚体的交换动力学。P19A突变略微提高了单体的热稳定性,但没有改变二聚体的交换倾向。相比之下,L28Q突变显著影响二聚化和交换过程,但不影响单体的热稳定性。总之,这些结果表明,控制BS-RNase中n端臂交换的结构决定因素可能不在铰链肽内,并指出界面残基的关键作用。
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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