更高的一氧化碳多极矩在理解肌红蛋白中光解离一氧化碳动力学方面的作用。

The role of higher CO-multipole moments in understanding the dynamics of photodissociated carbonmonoxide in myoglobin.

作者信息

Plattner Nuria, Meuwly Markus

机构信息

Department of Chemistry, University of Basel, Basel, Switzerland.

出版信息

Biophys J. 2008 Apr 1;94(7):2505-15. doi: 10.1529/biophysj.107.120519. Epub 2008 Jan 4.

DOI:10.1529/biophysj.107.120519

PMID:18178640

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2267138/

Abstract

The influence of electrostatic multipole moments up to hexadecapole on the dynamics of photodissociated carbon monoxide (CO) in myoglobin is investigated. The CO electrostatic potential is expressed as an expansion into atomic multipole moments of increasing order up to octopole which are obtained from a distributed multipole analysis. Three models with increasingly accurate molecular multipoles (accurate quadrupole, octopole, and hexadecapole moments, respectively) are developed and used in molecular dynamics simulations. All models with a fluctuating quadrupole moment correctly describe the location of the B-state whereas the sign of the octopole moment differentiates between the Fe...CO and Fe...OC orientation. For the infrared spectrum of photodissociated CO, considerable differences between the three electrostatic models are found. The most detailed electrostatic model correctly reproduces the splitting, shift, and width of the CO spectrum in the B-state. From an analysis of the trajectories, the spectroscopic B(1) and B(2) states are assigned to the Fe...CO and Fe...OC substates, respectively.

摘要

研究了高达十六极的静电多极矩对肌红蛋白中光解离一氧化碳（CO）动力学的影响。CO静电势表示为按递增顺序直至八极的原子多极矩展开式，这些多极矩通过分布式多极分析获得。开发了三种具有越来越精确分子多极矩的模型（分别为精确的四极矩、八极矩和十六极矩），并用于分子动力学模拟。所有具有波动四极矩的模型都正确描述了B态的位置，而八极矩的符号区分了Fe...CO和Fe...OC的取向。对于光解离CO的红外光谱，发现三种静电模型之间存在相当大的差异。最详细的静电模型正确地再现了B态中CO光谱的分裂、位移和宽度。通过对轨迹的分析，光谱B(1)和B(2)态分别对应于Fe...CO和Fe...OC子态。

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