Bhattacharjya S, Balaram P
Molecular Biophysics Unit, Indian Institute of Science, Bangalore, India.
Protein Sci. 1997 May;6(5):1065-73. doi: 10.1002/pro.5560060513.
A molten globule-like state of hen egg-white lysozyme has been characterized in 25% aqueous hexafluoroacetone hydrate (HFA) by CD, fluorescence, NMR, and H/D exchange experiments. The far UV CD spectra of lysozyme in 25% HFA supports retention of native-like secondary structure while the loss of near UV CD bands are indicative of the overall collapse of the tertiary structure. The intermediate state in 25% HFA exhibits an enhanced affinity towards the hydrophobic dye, ANS, and a native-like tryptophan fluorescence quenching. 1-D NMR spectra indicates loss of native-like tertiary fold as evident from the absence of ring current-shifted 1H resonances. CD, fluorescence, and NMR suggest that the transition from the native state to a molten globule state in 25% HFA is a cooperative process. A second structural transition from this compact molten globule-like state to an "open" helical state is observed at higher concentrations of HFA (> or = 50%). This transition is characterized by a dramatic loss of ANS binding with a concomitant increase in far UV CD bands. The thermal unfolding of the molten globule state in 25% HFA is sharply cooperative, indicating a predominant role of side-chain-side-chain interactions in the stability of the partially folded state. H/D exchange experiments yield higher protection factors for many of the backbone amide protons from the four alpha-helices along with the C-terminal 3(10) helix, whereas little or no protection is observed for most of the amide protons from the triple-stranded antiparallel beta-sheet domain. This equilibrium molten globule-like state of lysozyme in 25% HFA is remarkably similar to the molten globule state observed for alpha-lactalbumin and also with the molten globule state transiently observed in the kinetic refolding experiments of hen lysozyme. These results suggest that HFA may prove generally useful as a structure modifier in proteins.
通过圆二色光谱(CD)、荧光、核磁共振(NMR)和氢/氘交换实验,对溶菌酶在25%的六氟丙酮水合物(HFA)水溶液中呈现的类熔球态进行了表征。溶菌酶在25% HFA中的远紫外CD光谱表明其保留了类似天然的二级结构,而近紫外CD谱带的消失则表明三级结构整体坍塌。在25% HFA中的中间态对疏水染料1-苯胺基萘-8-磺酸(ANS)表现出增强的亲和力以及类似天然的色氨酸荧光猝灭。一维NMR光谱表明,由于没有环电流位移的1H共振,类似天然的三级折叠结构消失。CD、荧光和NMR表明,在25% HFA中从天然态向熔球态的转变是一个协同过程。在较高浓度的HFA(≥50%)下,观察到从这种紧密的类熔球态到“开放”螺旋态的第二次结构转变。这种转变的特征是ANS结合显著丧失,同时远紫外CD谱带增加。25% HFA中熔球态的热解折叠具有明显的协同性,表明侧链-侧链相互作用在部分折叠态的稳定性中起主要作用。氢/氘交换实验表明,来自四个α-螺旋以及C端3(10)螺旋的许多主链酰胺质子具有较高的保护因子,而对于来自三链反平行β-折叠结构域的大多数酰胺质子,观察到很少或没有保护作用。溶菌酶在25% HFA中的这种平衡类熔球态与α-乳白蛋白中观察到的熔球态以及在溶菌酶动力学重折叠实验中瞬时观察到的熔球态非常相似。这些结果表明,HFA可能被证明是一种普遍有用的蛋白质结构修饰剂。