Dynamics properties of membrane proteins in native cell membranes revealed by solid-state NMR spectroscopy.

Cell membranes provide an environment that is essential to the functions of membrane proteins. Cell membranes are mainly composed of proteins and highly diverse phospholipids. The influence of diverse lipid compositions of native cell membranes on the dynamics of the embedded membrane proteins has not been examined. Here we employ solid-state NMR to investigate the dynamics of E. coli Aquaporin Z (AqpZ) in its native inner cell membranes, and reveal the influence of diverse lipid compositions on the dynamics of AqpZ by comparing it in native cell membranes to that in POPC/POPG bilayers. We demonstrate that the dynamic rigidity of AqpZ generally conserves in both native cell membranes and POPC/POPG bilayers, due to its tightly packed tetrameric structure. In the gel and the liquid crystal phases of lipids, our experimental results show that AqpZ is more dynamic in native cell membranes than that in POPC/POPG bilayers. In addition, we observe that phase transitions of lipids in native membranes are less sensitive to temperature variations compared with that in POPC/POPG bilayers, which results in that the dynamics of AqpZ is less affected by the phase transitions of lipids in native cell membranes than that in POPC/POPG bilayers. This study provides new insights into the dynamics of membrane proteins in native cell membranes. Copyright © 2021. Published by Elsevier B.V.

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Huan Tan, Yongxiang Zhao, Weijing Zhao, Huayong Xie, Yanke Chen, Qiong Tong, Jun Yang. Dynamics properties of membrane proteins in native cell membranes revealed by solid-state NMR spectroscopy. Biochimica et biophysica acta. Biomembranes. 2022 Feb 01;1864(1):183791

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PMID: 34624277

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