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本文引用的文献

1
Selectivity in K+ channels is due to topological control of the permeant ion's coordinated state.钾离子通道的选择性源于对通透离子配位状态的拓扑控制。
Proc Natl Acad Sci U S A. 2007 May 29;104(22):9260-5. doi: 10.1073/pnas.0700554104. Epub 2007 May 22.
2
A stable water chain in the hydrophobic pore of the AmtB ammonium transporter.铵离子转运蛋白AmtB疏水孔道中的稳定水链
Biophys J. 2007 May 1;92(9):L82-4. doi: 10.1529/biophysj.106.102756. Epub 2007 Mar 9.
3
Deprotonation by dehydration: the origin of ammonium sensing in the AmtB channel.脱水导致的去质子化:AmtB通道中铵离子感应的起源
PLoS Comput Biol. 2007 Feb 9;3(2):e22. doi: 10.1371/journal.pcbi.0030022. Epub 2006 Dec 21.
4
Protonation states of ammonia/ammonium in the hydrophobic pore of ammonia transporter protein AmtB.氨转运蛋白AmtB疏水孔中氨/铵的质子化状态
J Am Chem Soc. 2007 Feb 7;129(5):1210-5. doi: 10.1021/ja066208n.
5
Detailed mechanism for AmtB conducting NH4+/NH3: molecular dynamics simulations.AmtB转运NH4⁺/NH₃的详细机制:分子动力学模拟
Biophys J. 2007 Feb 1;92(3):877-85. doi: 10.1529/biophysj.106.090191. Epub 2006 Nov 10.
6
Ammonium recruitment and ammonia transport by E. coli ammonia channel AmtB.大肠杆菌氨通道AmtB对铵的摄取和氨的转运
Biophys J. 2006 Dec 15;91(12):4401-12. doi: 10.1529/biophysj.106.089714. Epub 2006 Sep 29.
7
Computational study of the binding affinity and selectivity of the bacterial ammonium transporter AmtB.细菌铵转运蛋白AmtB结合亲和力和选择性的计算研究
Biochemistry. 2006 Sep 12;45(36):10807-14. doi: 10.1021/bi0610799.
8
Molecular dynamics simulations on the Escherichia coli ammonia channel protein AmtB: mechanism of ammonia/ammonium transport.大肠杆菌氨通道蛋白AmtB的分子动力学模拟:氨/铵转运机制
J Am Chem Soc. 2006 Aug 23;128(33):10876-84. doi: 10.1021/ja0631549.
9
Hydrophobic cluster analysis and modeling of the human Rh protein three-dimensional structures.人类Rh蛋白三维结构的疏水簇分析与建模
Transfus Clin Biol. 2006 Mar-Apr;13(1-2):70-84. doi: 10.1016/j.tracli.2006.02.001. Epub 2006 Apr 3.
10
Molecular determinants for binding of ammonium ion in the ammonia transporter AmtB-A quantum chemical analysis.氨转运蛋白AmtB中铵离子结合的分子决定因素——量子化学分析
J Phys Chem A. 2006 Feb 2;110(4):1375-81. doi: 10.1021/jp054261c.

关于铵离子在通过AmtB通道运输过程中(去)质子化的等效点。

On the equivalence point for ammonium (de)protonation during its transport through the AmtB channel.

作者信息

Bostick David L, Brooks Charles L

机构信息

Department of Molecular Biology and Center for Theoretical Biological Physics, The Scripps Research Institute, La Jolla, California 92037, USA.

出版信息

Biophys J. 2007 Jun 15;92(12):L103-5. doi: 10.1529/biophysj.107.109165. Epub 2007 Apr 13.

DOI:10.1529/biophysj.107.109165
PMID:17434945
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1877791/
Abstract

Structural characterization of the bacterial channel, AmtB, provides a glimpse of how members of its family might control the protonated state of permeant ammonium to allow for its selective passage across the membrane. In a recent study, we employed a combination of simulation techniques that suggested ammonium is deprotonated and reprotonated near dehydrative phenylalanine landmarks (F107 and F31, respectively) during its passage from the periplasm to the cytoplasm. At these landmarks, ammonium is forced to maintain a critical number ( approximately 3) of hydrogen bonds, suggesting that the channel controls ammonium (de)protonation by controlling its coordination/hydration. In the work presented here, a free energy-based analysis of ammonium hydration in dilute aqueous solution indicates, explicitly, that at biological pH, the transition from ammonium (NH(4)(+)) to ammonia (NH(3)) occurs when these species are constrained to donate three hydrogen bonds or less. This result demonstrates the viability of the proposal that AmtB indirectly controls ammonium (de)protonation by directly controlling its hydration.

摘要

细菌通道AmtB的结构表征,让我们得以一窥其家族成员如何控制通透铵离子的质子化状态,从而使其能选择性地穿过膜。在最近的一项研究中,我们运用了多种模拟技术,结果表明铵离子在从周质穿过膜到细胞质的过程中,会在脱水苯丙氨酸标志位点(分别为F107和F31)附近发生去质子化和再质子化。在这些位点,铵离子被迫维持一定数量(约3个)的氢键,这表明通道通过控制铵离子的配位/水合作用来控制其(去)质子化。在本文所展示的工作中,基于自由能对稀水溶液中铵离子水合作用的分析明确表明,在生理pH值下,当铵离子(NH₄⁺)和氨(NH₃)被限制形成三个或更少氢键时,会发生从铵离子到氨的转变。这一结果证明了AmtB通过直接控制铵离子的水合作用来间接控制其(去)质子化这一观点的可行性。