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铜锌超氧化物歧化酶(Cu, Zn-SOD)表面的赖氨酸经化学修饰后, 酶的稳定性显著提高. 赖氨酸被修饰后, 酶的电荷结构遂发生变化, 从而影响到酶分子电场. 使用FDPB方法(有限差分法求解Poission-Boltzman方程)计算了酶修饰前后的静电场变化, 以及对维持酶的结构稳定起重要作用的Cu, Zn配位结构的影响.结果表明, Cu, Zn配位体的两级离解常数在酶修饰后分别约下降103, 106. 相似文献
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Sequence context dependence of tandem guanine:adenine mismatch conformations in RNA: a continuum solvent analysis 下载免费PDF全文
Guanine:adenine (G:A) mismatches and in particular tandem G:A (tG:A) mismatches are frequently observed in biological RNA molecules and can serve as sites for tertiary interaction, metal binding and protein recognition. Depending on the surrounding sequence tG:A mismatches can adopt different basepairing topologies. In the sequence context (5'-) GGAC (tandem G:A in bold) a face-to-face (imino or Watson-Crick-like) pairing is preferred whereas in the CGAG context, G and A adopt a sheared arrangement. Systematic conformational searches with a generalized Born continuum model and molecular dynamics simulations including explicit water molecules and ions have been used to generate face-to-face and sheared tG:A mismatches in both CGAG and GGAC sequence contexts. Conformations from both approaches were evaluated using the same force field and a Poisson-Boltzmann continuum solvent model. Although the substate analysis predicted the sheared arrangement to be energetically preferred in both sequence contexts, a significantly greater preference of the sheared form was found for the CGAG context. In agreement with the experimental observation, the analysis of molecular dynamics trajectories indicated a preference of the sheared form in the case of the CGAG-context and a favorization of the face-to-face form in the case of the GGAC context. The computational studies allowed to identify energetic contributions that stabilize or destabilize the face-to-face and sheared tandem mismatch topologies. The calculated nonpolar solvation and Lennard-Jones packing interaction were found to stabilize the sheared topology independent of the sequence context. Electrostatic contributions are predicted to make the most significant contribution to the sequence context dependence on the structural preference of tG:A mismatches. 相似文献
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W. Cheng C. X. Wang W. Z. Chen Ying Wu Xu Yun Yu Shi 《European biophysics journal : EBJ》1998,27(2):105-112
In this paper, the finite difference Poisson-Boltzmann (FDPB) method with four dielectric constants is developed to study
the effect of dielectric saturation on the electrostatic barriers of the permeation ion. In this method, the inner shape of
the channel pore is explicitly represented, and the fact that the dielectric constant inside the channel pore is different
from that of bulk water is taken into account. A model channel system which is a right-handed twist bundle with four α-helical segments is provided for this study. From the FDPB calculations, it is found that the difference of the ionic electrostatic
solvation energy for wider domains depends strongly on the pore radius in the vicinity of the ion when the pore dielectric
constant is changed from 78 to 5. However, the electrostatic solvation energy of the permeation ion can not be significantly
affected by the dielectric constant in regions with small pore radii. Our results indicate that the local electrostatic interactions
inside the ion channel are of major importance for ion electrostatic solvation energies, and the effect of dielectric saturation
on the electrostatic barriers is coupled to the interior channel dimensions.
Received: 28 January 1997 / Accepted: 24 September 1997 相似文献
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It is known that the pH dependence of conductance for the rat potassium channel Kv1.4 is susbstantially reduced upon mutation of either H508 or K532. These residues lie in the extracellular mouth of the channel pore. We have used continuum electrostatics to investigate their interactions with K(+) sites in the pore. The predicted scale of interactions between H508/K532 and potassium sites is sufficient to significantly alter potassium occupancy and thus channel function. We interpret the effect of K532 mutation as indicating that the pH-dependent effect requires not only an ionisable group with a suitable pK(a) value (i.e. histidine), but also that other charged groups set the potential profile at a threshold level. This hypothesis is examined in the context of pH dependence for other members of the Kv1 family, and may represent a general tool with which to study potassium channels. 相似文献
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