Department of Chemistry, New York University, New York, New York.
Protein Sci. 2013 Nov;22(11):1552-62. doi: 10.1002/pro.2342. Epub 2013 Sep 18.
The objective of this study was to evaluate the effects of inserting peptide nucleic acid (PNA) sequences into the protein-binding surface of an immobilized four-way junction (4WJ). Here we compare the classic immobile DNA junction, J1, with two PNA containing hybrid junctions (4WJ-PNA1 and 4WJ-PNA3 ). The protein interactions of each 4WJ were evaluated using recombinant high mobility group proteins from rat (HMGB1b and HMGB1b/R26A) and human histone H1. In vitro studies show that both HMG and H1 proteins display high binding affinity toward 4WJ's. A 4WJ can access different conformations depending on ionic environment, most simply interpreted by a two-state equilibrium between: (i) an open-x state favored by absence of Mg(2+), low salt, and protein binding, and (ii) a compact stacked-x state favored by Mg(2+). 4WJ-PNA3, like J1, shifts readily from an open to stacked conformation in the presence of Mg(+2), while 4WJ-PNA1 does not. Circular dichroism spectra indicate that HMGB1b recognizes each of the hybrid junctions. H1, however, displays a strong preference for J1 relative to the hybrids. More extensive binding analysis revealed that HMGB1b binds J1 and 4WJ-PNA3 with nearly identical affinity (K(D)s) and 4WJ-PNA1 with two-fold lower affinity. Thus both the sequence/location of the PNA sequence and the protein determine the structural and protein recognition properties of 4WJs.
本研究旨在评估将肽核酸(PNA)序列插入固定四链结(4WJ)的蛋白结合表面的效果。在此,我们将经典的固定 DNA 结 J1 与两个含有 PNA 的杂交结(4WJ-PNA1 和 4WJ-PNA3)进行比较。使用来自大鼠(HMGB1b 和 HMGB1b/R26A)和人组蛋白 H1 的重组高迁移率族蛋白评估了每个 4WJ 的蛋白相互作用。体外研究表明,HMG 和 H1 蛋白均对 4WJ 具有高结合亲和力。4WJ 可以根据离子环境访问不同的构象,最简单的解释是在以下两种状态之间的两态平衡:(i)开放-x 状态,其由缺乏 Mg(2+)、低盐和蛋白结合所促进,和(ii)紧凑堆叠-x 状态,其由 Mg(2+)促进。与 J1 一样,4WJ-PNA3 在存在 Mg(+2)时很容易从开放构象转变为堆叠构象,而 4WJ-PNA1 则不会。圆二色性光谱表明,HMGB1b 识别每个杂交结。然而,与杂交物相比,H1 对 J1 表现出强烈的偏好。更广泛的结合分析表明,HMGB1b 与 J1 和 4WJ-PNA3 的结合亲和力几乎相同(K(D)s),而与 4WJ-PNA1 的结合亲和力低两倍。因此,PNA 序列的序列/位置和蛋白都决定了 4WJ 的结构和蛋白识别特性。