使用氢氘交换-淌度离子迁移谱-质谱联用技术(HDX-TIMS-MS)和分子动力学模拟研究全肌红蛋白和脱辅基肌红蛋白的动力学中间体。
Kinetic intermediates of holo- and apo-myoglobin studied using HDX-TIMS-MS and molecular dynamic simulations.
作者信息
Schenk Emily R, Almeida Raybel, Miksovska Jaroslava, Ridgeway Mark E, Park Melvin A, Fernandez-Lima Francisco
机构信息
Department of Chemistry and Biochemistry, Florida International University, Miami, FL, 33199, USA.
出版信息
J Am Soc Mass Spectrom. 2015 Apr;26(4):555-63. doi: 10.1007/s13361-014-1067-9. Epub 2015 Feb 18.
Abstract
In the present work, the kinetic intermediates of holo- and apo-myoglobin were studied by correlating the ion-neutral collision cross section and time resolved H/D back exchange rate simultaneously in a trapped ion mobility spectrometer coupled to a mass spectrometer (HDX-TIMS-MS). The high mobility resolution of the TIMS cell permitted the observation of multiple IMS bands and complementary molecular dynamics simulations resulted in the assignment of candidate structures for each experimental condition studied (e.g., holo M + 8H-M + 9H and apo M + 9H-M + 19H). Inspection of the kinetic intermediates suggests that the tertiary structure of apomyoglobin unfolds quickly upon the loss of the Fe protoporphyrin IX that stabilizes the interactions between the A, G, and H helices. In the absence of the porphyrin heme, the apomyoglobin unfolds to Xn kinetic intermediates that vary in the extent of unfolding as a result of the observed charge state.
摘要
在本研究中,通过在与质谱仪联用的捕集离子淌度谱仪(HDX-TIMS-MS)中同时关联离子-中性碰撞截面和时间分辨的H/D反向交换速率,对全肌红蛋白和脱辅基肌红蛋白的动力学中间体进行了研究。TIMS池的高淌度分辨率使得能够观察到多个离子淌度谱带,并且互补的分子动力学模拟为所研究的每种实验条件(例如,全肌红蛋白M + 8H-M + 9H和脱辅基肌红蛋白M + 9H-M + 19H)确定了候选结构。对动力学中间体的检查表明,脱辅基肌红蛋白的三级结构在稳定A、G和H螺旋之间相互作用的铁原卟啉IX丧失后迅速展开。在没有卟啉血红素的情况下,脱辅基肌红蛋白展开为Xn动力学中间体,由于观察到的电荷状态不同,其展开程度也有所不同。
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