Kowalczykowski S C, Paul L S, Lonberg N, Newport J W, McSwiggen J A, von Hippel P H
Biochemistry. 1986 Mar 25;25(6):1226-40. doi: 10.1021/bi00354a006.
Many biologically important proteins bind nonspecifically, and often cooperatively, to single-or double-stranded nucleic acid lattices in discharging their physiological functions. This binding can generally be described in thermodynamic terms by three parameters: n, the binding site size; K, the intrinsic binding constant; omega, the binding cooperativity parameter. The experimental determination of these parameters often appears to be straightforward but can be fraught with conceptual and methodological difficulties that may not be readily apparent. In this paper we describe and analyze a number of approaches that can be used to measure these protein-nucleic acid interaction parameters and illustrate these methods with experiments on the binding of T4-coded gene 32 (single-stranded DNA binding) protein to various nucleic acid lattices. We consider the following procedures: (i) the titration of a fixed amount of lattice (nucleic acid) with added ligand (protein); (ii) the titration of a fixed amount of ligand with added lattice; (iii) the determination of ligand binding affinities at very low levels of lattice saturation; (iv) the analysis of ligand cluster size distribution on the lattice; (v) the analysis of ligand binding to lattices of finite length. The applicability and limitations of each approach are considered and discussed, and potential pitfalls are explicitly pointed out.
许多具有生物学重要性的蛋白质在履行其生理功能时,会非特异性地、且常常是协同地与单链或双链核酸晶格结合。这种结合通常可以用三个参数从热力学角度进行描述:n,结合位点大小;K,固有结合常数;ω,结合协同性参数。这些参数的实验测定看似通常很直接,但可能充满一些不易察觉的概念和方法上的困难。在本文中,我们描述并分析了一些可用于测量这些蛋白质 - 核酸相互作用参数的方法,并用T4编码的基因32(单链DNA结合)蛋白与各种核酸晶格结合的实验来说明这些方法。我们考虑以下程序:(i) 用添加的配体(蛋白质)滴定固定量的晶格(核酸);(ii) 用添加的晶格滴定固定量的配体;(iii) 在非常低的晶格饱和度水平下测定配体结合亲和力;(iv) 分析晶格上配体簇大小分布;(v) 分析配体与有限长度晶格的结合。我们考虑并讨论了每种方法的适用性和局限性,并明确指出了潜在的陷阱。
