Transmembrane communication: general principles and lessons from the structure and function of the M2 proton channel, K[SUPERSCRIPT PLUS SIGN] channels, and integrin receptors. [Review]

Grigoryan G; Moore DT; DeGrado WF

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Transmembrane communication: general principles and lessons from the structure and function of the M2 proton channel, K[SUPERSCRIPT PLUS SIGN] channels, and integrin receptors. [Review]

机译：跨膜通讯：M2质子通道，K [SUPERSCRIPT PLUS SIGN]通道和整联蛋白受体的结构和功能的一般原理和教训。 [评论]

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Signal transduction across biological membranes is central to life. This process generally happens through communication between different domains and hierarchical coupling of information. Here, we review structural and thermodynamic principles behind transmembrane (TM) signal transduction and discuss common themes. Communication between signaling domains can be understood in terms of thermodynamic and kinetic principles, and complex signaling patterns can arise from simple wiring of thermodynamically coupled domains. We relate this to functions of several signal transduction systems: the M2 proton channel from influenza A virus, potassium channels, integrin receptors, and bacterial kinases. We also discuss key features in the structural rearrangements responsible for signal transduction in these systems.

机译：跨生物膜的信号转导对于生命至关重要。此过程通常通过不同域之间的通信和信息的层次结构耦合来发生。在这里，我们回顾了跨膜（TM）信号转导背后的结构和热力学原理，并讨论了共同的主题。可以根据热力学和动力学原理来理解信号域之间的通信，并且复杂的信号模式可以由热力学耦合域的简单布线产生。我们将此与几种信号转导系统的功能相关：甲型流感病毒的M2质子通道，钾通道，整联蛋白受体和细菌激酶。我们还将讨论这些系统中负责信号转导的结构重排的关键特征。

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来源
《Annual Review of Biochemistry》 |2011年第1期|共27页
作者
Grigoryan G; Moore DT; DeGrado WF;
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正文语种 eng
中图分类生物化学;
关键词
Cell Communication; Cell Membrane; Integrins; Integrins; Ions; Ligands; Models; Molecular; Potassium Channels; Potassium Channels; Protein Conformation; Signal Transduction; Thermodynamics; Viral Matrix Proteins; Viral Matrix Proteins;

机译：细胞通讯;细胞膜;整合素;整合素;离子;配体;模型;分子;钾通道;钾通道;蛋白质构象;信号传导;热力学;病毒基质蛋白;病毒基质蛋白;

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1. Transmembrane communication: general principles and lessons from the structure and function of the M2 proton channel, K[SUPERSCRIPT PLUS SIGN] channels, and integrin receptors. [Review] [J] . Grigoryan G, Moore DT, DeGrado WF Annual Review of Biochemistry . 2011,第1期

机译：跨膜通讯：M2质子通道，K [SUPERSCRIPT PLUS SIGN]通道和整联蛋白受体的结构和功能的一般原理和教训。 [评论]
2. Functional studies reveal the similarities and differences between AM2 and BM2 proton channels from influenza viruses [J] . Chunlong Ma, Jun Wang Biochimica et biophysica acta. Biomembranes . 2018,第2期

机译：功能研究揭示了来自流感病毒的AM2和BM2质子频道之间的相似性和差异
3. The boundary lipid around DMPC-spanning influenza A M2 transmembrane domain channels: Its structure and potential for drug accommodation [J] . Konstantinidi Athina, Chountoulesi Maria, Naziris Nikolaos, Biochimica et biophysica acta. Biomembranes . 2020,第3期

机译：DMPC跨越流感的边界脂质A M2跨膜域通道：其结构和药物住宿潜力
4. Assessment, Design, and Some Lessons Learned From Application of Natural Channel Design Principles in Conversion of a Multiple Thread to Single Thread Channel on an Alluvial Fan [C] . Christopher H. Roach, MacNamara C. Shoulders, Robert F. Carlson Eleventh International Conference on Cold Regions Engineering: Cold Regions Impacts on Transportation and Infrastructure May 20-22, 2002 Anchorage, Alaska . 2002

机译：评估，设计以及从自然通道设计原理应用于冲积风扇的多线程到单线程通道转换的经验教训
5. Structure-function correlation of the M2 proton channel characterized by solid-state nuclear magnetic resonance spectroscopy. [D] . Hu, Jun. 2005

机译：M2质子通道的结构-功能相关性，以固态核磁共振波谱为特征。
6. Transmembrane Communication: General Principles and Lessons from the Structure and Function of the M2 Proton Channel K+ Channels and Integrin Receptors [O] . Gevorg Grigoryan, David T. Moore, William F. DeGrado -1

机译：跨越式通信：M2质子通道K +通道和整联受体的结构和功能的一般原理和课程
7. Transmembrane Communication: General Principles and Lessons from the Structure and Function of the M2 Proton Channel, K+Channels, and Integrin Receptors [O] . Gevorg Grigoryan, David T. Moore, William F. DeGrado 2011

机译：跨越式通信：M2质子通道，K +通道和整联受体的结构和功能的一般原理和课程

Transmembrane communication: general principles and lessons from the structure and function of the M2 proton channel, K[SUPERSCRIPT PLUS SIGN] channels, and integrin receptors. [Review]

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