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作 者:解立强 梁盛德 朱开礼 XIE Li-qiang;LIANG Sheng-de;ZHU Kai-li(Department of Physics and Hydraulic Engineering,Gansu Normal University for Nationalities,Hezuo 747000,China;Key Laboratory of Modern Acoustics,Ministry of Education,Institute of Acoustics,Nanjing University,Nanjing 210093,China;Department of Chemistry and life Science,Gansu Normal University for Nationalities,Hezuo 747000,China)
机构地区:[1]甘肃民族师范学院物理与水电工程系,甘肃合作747000 [2]南京大学教育部近代声学重点实验室,江苏南京210093 [3]甘肃民族师范学院化学与生命科学系,甘肃合作747000
出 处:《兰州理工大学学报》2023年第2期165-172,共8页Journal of Lanzhou University of Technology
基 金:甘肃省高等学校创新基金项目(2021A-154,2021B-303,2021B-304),甘肃省陇原青年人才扶持计划(2014C-74)。
摘 要:利用粗粒化分子动力学方法研究了两类具有不同亲疏水核心的树形分子与磷脂双层膜的相互作用.研究发现,聚酰胺胺型树形分子能够与双层膜形成包裹结构.具有强疏水核心的聚丙烯亚胺型树形分子粘附到膜表面的同时,能够穿过磷脂膜,与磷脂膜形成胶束结构.研究表明,静电吸引作用能够将树形分子锚定到膜表面,而疏水作用能够促进膜与树形分子之间的进一步作用.研究结果有助于揭示树形分子与生物膜相互作用的物理机制,对该类分子合成及医学应用具有重要指导意义.Coarse-grained molecular dynamics simulations were adopted to investigate the interaction between dendrimers with different hydrophobic cores and lipid membranes.The results show that the polyamidoamine dendrimer can be wrapped by lipid bilayer.In contrast,the polypropyleneimine dendrimer with a strong hydrophobic core can penetrate through the membrane,and lipid-dendrimer micelle structure forms.The results point out the electrostatic interaction between dendrimers and membranes helps the dendrimer anchor on the membrane,while the hydrophobic interaction between the dendrimer and lipid membrane drives further interactions.The results are helpful to elucidate the mechanism of interaction between dendrimers and lipid membranes at the molecular level,which is of great theoretical significance for dendrimer synthesis and medical application.
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