Beckingham J A, Bottomley S P, Hinton R, Sutton B J, Gore M G
Division of Biochemistry and Molecular Biology, School of Biological Sciences, University of Southampton, Bassett Crescent East, Southampton, Hants. SO16 7PX, UK.
Biochem J. 1999 May 15;340 ( Pt 1)(Pt 1):193-9.
The placement of a tryptophan residue into a single Ig-binding-domain of protein L from Peptostreptococcus magnus has been used to examine the binding interactions between the binding domain and kappa light chains (kappa-chains). The fluorescence intensity of the mutant domain increases on the formation of a complex with kappa-chains. This has been used to determine the Kd of the complex under a range of conditions by using both pre-equilibrium and equilibrium methods. The Kd values determined for the complex with kappa-chains at a number of different pH values are very close to those obtained with the wild-type domain, indicating that the mutation has not substantially affected its binding properties. Examination of the reaction between the mutant domain and kappa-chains by stopped-flow fluorescence shows that complex formation takes place by two discrete, sequential processes. A fast bimolecular reaction, with a rate constant of 8.3x10(5) M-1. s-1 (at pH8.0 and 25 degrees C), is followed by a slow unimolecular process with a rate (1.45 s-1) that is independent of the concentration of the reactants. This suggests that a conformational change occurs after the initial encounter complex is formed. The dissociation of the complex at equilibrium occurs in a single process of rate 0.095 s-1 at pH8.0 and 25 degrees C. Stopped-flow CD studies show that a slow decrease in ellipticity at 275 nm occurs with a rate of 1.3 s-1 when wild-type protein binds to kappa-chains, suggesting that the conformational transition might involve a change in environment around one or more tyrosine residues.
将一个色氨酸残基引入来自巨大消化链球菌的蛋白L的单个Ig结合结构域,已被用于研究该结合结构域与κ轻链(κ链)之间的结合相互作用。突变结构域与κ链形成复合物时,其荧光强度会增加。通过预平衡和平衡方法,已利用这一现象在一系列条件下测定复合物的解离常数(Kd)。在多个不同pH值下测定的与κ链形成的复合物的Kd值,与野生型结构域获得的值非常接近,表明该突变并未显著影响其结合特性。通过停流荧光法检测突变结构域与κ链之间的反应表明,复合物的形成通过两个离散的、连续的过程发生。一个快速的双分子反应,速率常数为8.3×10⁵ M⁻¹·s⁻¹(在pH8.0和25℃下),随后是一个缓慢的单分子过程,其速率(1.45 s⁻¹)与反应物浓度无关。这表明在初始相遇复合物形成后发生了构象变化。在pH8.0和25℃下,复合物在平衡时的解离以单一过程发生,速率为0.095 s⁻¹。停流圆二色性研究表明,当野生型蛋白与κ链结合时,在275 nm处椭圆率会以1.3 s⁻¹的速率缓慢下降,这表明构象转变可能涉及一个或多个酪氨酸残基周围环境的变化。