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Microcavity array supported lipid bilayer models of ganglioside - influenza hemagglutinin1 binding.
Chemical Communications ( IF 4.3 ) Pub Date : 2020-08-07 , DOI: 10.1039/d0cc04276e Guilherme B Berselli 1 , Nirod Kumar Sarangi 1 , Aurélien V Gimenez 1 , Paul V Murphy 2 , Tia E Keyes 1
Chemical Communications ( IF 4.3 ) Pub Date : 2020-08-07 , DOI: 10.1039/d0cc04276e Guilherme B Berselli 1 , Nirod Kumar Sarangi 1 , Aurélien V Gimenez 1 , Paul V Murphy 2 , Tia E Keyes 1
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The binding of influenza receptor (HA1) to membranes containing different glycosphingolipid receptors was investigated at Microcavity Supported Lipid Bilayers (MSLBs). We observed that HA1 preferentially binds to GD1a but the diffusion coefficient of the associated complex at lipid bilayer is approximately double that of the complexes formed by HA1 GM1 or GM3.
中文翻译:
微腔阵列支持神经节苷脂-流感血凝素1结合的脂质双层模型。
在微腔支持脂质双分子层(MSLB)上研究了流感受体(HA 1)与含有不同糖鞘脂受体的膜的结合。我们观察到HA 1优先与GD1a结合,但是相关复合物在脂质双层的扩散系数大约是HA 1 GM1或GM3形成的复合物的扩散系数的两倍。
更新日期:2020-09-24
中文翻译:
微腔阵列支持神经节苷脂-流感血凝素1结合的脂质双层模型。
在微腔支持脂质双分子层(MSLB)上研究了流感受体(HA 1)与含有不同糖鞘脂受体的膜的结合。我们观察到HA 1优先与GD1a结合,但是相关复合物在脂质双层的扩散系数大约是HA 1 GM1或GM3形成的复合物的扩散系数的两倍。
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