The Association of Polar Residues in the DAP12 homodimer: TOXCAT and Molecular Dynamics Simulation Studies

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• 作者：Peng Wei^&dagger ; ; Bo-Kai Zheng^&dagger ; ; Peng-Ru Guo^&dagger ; ; Toru Kawakami^&Dagger ; ; Shi-Zhong Luo^&dagger ; ; ^{luosz@mail.buct.edu.cn}
• 刊名：Biophysical Journal
• 出版年：2013
• 出版时间：2 April, 2013
• 年：2013
• 卷：104
• 期：7
• 页码：1435-1444
• 全文大小：942 K

文摘

Dimerization of the transmembrane (TM) adaptor protein DAP12 plays a key role in mediating activation signals through TM-TM association with cell-surface receptors. Herein, we apply the TOXCAT assay and molecular dynamics simulation to analyze dynamics and dimerization of the TM helix of DAP12 in the membrane bilayer. In the TOXCAT assay, we performed site-specific mutagenesis of potential dimerization motifs in the DAP12 TM domain. Instead of the common GxxxG dimerization motif, mutating either of the polar residues Asp-50 and Thr-54 significantly decreased the TOXCAT signal for the dimerization of DAP12 TM domain. Furthermore, through the conformational difference between wild-type and mutant DAP12 TM homodimers, a combined coarse-grained and atomistic molecular dynamics simulation has identified both Asp-50 and Thr-54 at the dimerization interface. The experimental and computational results of the DAP12 TM dimer are in excellent agreement with the previously reported NMR structure obtained in detergent micelles. Such a combination of dynamics simulation and cell-based experiments can be applied to produce insights at the molecular level into the TM-TM association of many other transmembrane proteins.