Kuwajima K, Garvey E P, Finn B E, Matthews C R, Sugai S
Department of Polymer Science, Faculty of Science, Hokkaido University, Japan.
Biochemistry. 1991 Aug 6;30(31):7693-703. doi: 10.1021/bi00245a005.
The kinetics of the reversible folding and unfolding of Escherichia coli dihydrofolate reductase have been studied by stopped-flow circular dichroism in the peptide region at pH 7.8 and 15 degrees C. The reactions were induced by concentration jumps of a denaturant, urea. The method can detect various intermediates transiently populated in the reactions although the equilibrium unfolding of the protein is apparently approximated by a two-state reaction. The results can be summarized as follows. (1) From transient circular dichroism spectra measured as soon as the refolding is started, a substantial amount of secondary structure is formed in the burst phase, i.e., within the dead time of stopped-flow mixing (18 ms). (2) The kinetics from this burst-phase intermediate to the native state are multiphasic, consisting of five phases designated as tau 1, tau 2, tau 3, tau 4, and tau 5 in increasing order of the reaction rate. Measurements of the kinetics at various wavelengths have provided kinetic difference circular dichroism spectra for the individual phases. (3) The tau 5 phase shows a kinetic difference spectrum consistent with an exciton contribution of two aromatic residues in the peptide CD region. The absence of the tau 5 phase in a mutant protein, in which Trp 74 is replaced by leucine, suggests that Trp 74 is involved in the exciton pair and that the tau 5 phase reflects the formation of a hydrophobic cluster around Trp 74. From the similarity of the kinetic difference spectrum to the difference between the native spectra of the mutant and wild-type proteins, it appears that Trp 47 is the partner in the exciton pair and that the structure formed in the tau 5 phase persists during the later stages of folding. (4) The later stages of folding show kinetic difference spectra that can be interpreted by rearrangement of secondary structure, particularly the central beta sheet of the protein. The pairwise similarities in the spectrum between the tau 3 and tau 4 phases, and between the tau 1 and tau 2 phases, also suggest the presence of two parallel folding channels for refolding. (5) The unfolding kinetics show three to four phases and are interpreted in terms of the presence of multiple native species. The total ellipticity change in kinetic unfolding reaction, however, agrees with the ellipticity difference between the native and unfolding states, indicating the absence of the burst phase in unfolding.(ABSTRACT TRUNCATED AT 400 WORDS)
通过在pH 7.8和15摄氏度下肽段区域的停流圆二色性研究了大肠杆菌二氢叶酸还原酶可逆折叠与解折叠的动力学。反应由变性剂尿素的浓度跃变引发。尽管蛋白质的平衡解折叠显然可近似为两态反应,但该方法能检测到反应中瞬时出现的各种中间体。结果总结如下:(1)从复性一开始就测量的瞬时圆二色性光谱可知,在暴发性阶段,即停流混合的死时间(18毫秒)内,大量二级结构形成。(2)从这个暴发性阶段中间体到天然态的动力学是多相的,按反应速率递增顺序由五个阶段组成,分别命名为τ1、τ2、τ3、τ4和τ5。在不同波长下测量动力学得到了各阶段的动力学差示圆二色性光谱。(3)τ5阶段显示的动力学差示光谱与肽段圆二色区域中两个芳香族残基的激子贡献一致。在一个将色氨酸74替换为亮氨酸的突变蛋白中不存在τ5阶段,这表明色氨酸74参与激子对形成,且τ5阶段反映了色氨酸74周围疏水簇的形成。从动力学差示光谱与突变型和野生型蛋白天然光谱差异的相似性来看,色氨酸47似乎是激子对中的伙伴,且在τ5阶段形成的结构在折叠后期持续存在。(4)折叠后期显示的动力学差示光谱可通过二级结构重排来解释,特别是蛋白质的中央β折叠片层。τ3和τ4阶段以及τ1和τ2阶段光谱之间的成对相似性也表明存在两条平行的复性折叠通道。(5)解折叠动力学显示三到四个阶段,并根据多种天然状态的存在来解释。然而,动力学解折叠反应中的总椭圆率变化与天然态和解折叠态之间的椭圆率差异一致,表明解折叠过程中不存在暴发性阶段。(摘要截短于400字)
