Acta Physica Sinica, Volume. 68, Issue 2, 028701-1(2019)
Molecular simulation of interaction between charged nanoparticles and phase-separated biomembranes containning charged lipids
Figures & Tables(11)
Fig. 1. Molecular schematic illustrations of Au nanoparticle and lipids. Here, DPPC, DFPC and cholesterol (CHOL) are electrically neutral, while DPPG or DFPG has a negatively charged headgroup. Additionally, DPPC and DPPG are fully saturated, while DFPC and DFPG are poly-unsaturated. The coloring scheme of the nanoparticle and lipids is used throughout the whole paper.金纳米颗粒和脂分子的分子结构示意图 其中DPPC, DFPC以及CHOL (胆固醇)为不带电的脂分子, 而DPPG和DFPG为头部带负电的脂分子; 另外DPPC和DPPG为饱和脂分子, 而DFPC和DFPG为不饱和脂分子; 颗粒和各种脂分子的各部分颜色表示通用于全文
Fig. 2. Phase-separated lipid bilayer composed of DPPC (purple), DFPC (pink) and CHOL (gray) with the molar ratio of 4 ∶ 3 ∶ 3. Here, Lo domain is enriched in DPPC and CHOL, while Ld domain is enriched in DFPC.由DPPC (紫色), DFPC (粉红色)及CHOL (灰色)按4 ∶ 3 ∶ 3摩尔比组成的三组分相分离脂质双层膜的侧视图(上)和俯视图(下). 其中, Lo畴富含DPPC和CHOL, Ld畴富含DFPC
Fig. 3. Dynamic processes of adsorption of three different positively charged nanoparticles onto the surface of phase-separated lipid bilayer composed of DPPC & DPPG/DFPC/CHOL: (a) Au 70/+70; (b) Au104/+104; (c) Au174/+174. 3种不同带正电的纳米颗粒吸附于由DPPC&DPPG/DFPC/CHOL组成的相分离膜上的动力学过程 (a) Au70/+70; (b) Au104/+104; (c) Au174/+174
Fig. 4. Dynamic processes of adsorption of three different positively charged nanoparticles into/onto the surface of the phase-separated lipid bilayer composed of DPPC/DFPC&DFPG/CHOL: (a) Au70/+70; (b) Au104/+104; (c) Au174/+174. 3种不同带正电的纳米颗粒吸附于由DPPC/DFPC&DFPG/CHOL组成的相分离膜上的动力学过程 (a) Au70/+70; (b) Au104/+104; (c) Au174/+174
Fig. 5. PMF curves of two kinds of positively charged nanoparticles with charged/neutral Lo/Ld lipid domains: (a) Au70/+70; (b) Au174/+174. 两种带正电的颗粒与带电/中性的Lo/Ld脂质畴之间的PMF曲线 (a) Au70/+70; (b) Au174/+174
Fig. 6. Final stable structures of adsorption of Au70/−70, Au104/−104, Au174/−174 onto the surface of DPPC&DPPG/DFPC/CHOL (a)−(c) and DPPC/DFPC&DFPG/CHOL (d)−(f) phase-separated lipid bilayers at the simulation time of 15 μs. 3种不同带负电的纳米颗粒吸附于DPPC&DPPG/DFPC/CHOL (a)—(c) 和DPPC/DFPC&DFPG/CHOL (d)−(f) 组成的相分离的膜表面上在模拟时间为15 μs时的稳定结构
Fig. 7. PMF curves of Au70/−70 with charged/neutral Lo/Ld lipid domains. Au70/−70与带电/中性的Lo/Ld脂质畴之间的PMF曲线
Fig. 8. Final stable structures of adsorption/penetration of Au104/+70 and Au174/+70 onto/into the DPPC&DPPG/DFPC/CHOL (a), (c) and DPPC/DFPC&DFPG/CHOL (b), (d) phase-separated lipid bilayers at the simulation time of 15 μs. 两种不同的表面部分带正电的纳米颗粒吸附或嵌入DPPC&DPPG/DFPC/CHOL (a), (c) 和DPPC/DFPC&DFPG/CHOL (b), (d) 组成的相分离的膜表面或内部在模拟时间为15 μs时的稳定结构
Fig. 9. Final stable structures of adsorption/penetration of Au104/−70 and Au174/−70 onto/into the DPPC&DPPG/DFPC/CHOL (a), (c) and DPPC/DFPC&DFPG/CHOL (b), (d) phase-separated lipid bilayers at the simulation time of 15 μs. 两种不同的表面部分带负电的纳米颗粒吸附或嵌入DPPC&DPPG/DFPC/CHOL (a), (c) 和DPPC/DFPC&DFPG/CHOL (b), (d) 组成的相分离的膜表面或内部在模拟时间为15 μs时的稳定结构
Table 1.
Types of Au nanoparticles in this work.
本文所研究金纳米颗粒的类型
View tableView in ArticleTable 1.
Types of Au nanoparticles in this work.
本文所研究金纳米颗粒的类型
金纳米颗粒 配体总数 带电配体数 中性配体数 Au70/±70 70 70 0 Au104/±70 104 70 34 Au104/±104 104 104 0 Au174/±70 174 70 104 Au174/±174 174 174 0
Table 2.
Components of lipid bilayers and lipid domains.
脂质双层膜及脂质畴的组分
View tableView in ArticleTable 2.
Components of lipid bilayers and lipid domains.
脂质双层膜及脂质畴的组分
脂质双层膜 带电脂 Lo畴组分(带电性) Ld畴组分(带电性) DPPC&DPPG/DFPC/CHOL DPPG DPPC&DPPG/CHOL(带电) DFPC(中性) DPPC/DFPC&DFPG/CHOL DFPG DPPC/CHOL(中性) DFPC&DFPG(带电)
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Yi-Ran Liang, Qing Liang. Molecular simulation of interaction between charged nanoparticles and phase-separated biomembranes containning charged lipids[J]. Acta Physica Sinica, 2019, 68(2): 028701-1
Paper Information
Category: Research Articles
Received: Oct. 23, 2018
Accepted: --
Published Online: Sep. 29, 2019
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