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机译:结构脂质能够形成真核生物嘌呤Symporter uapa的功能性低聚物
Department of Life Sciences Imperial College London;
Leeds Institute of Cancer &
Pathology and Astbury Centre for Structural Molecular Biology University of Leeds;
Department of Biology National and Kapodistrian University of Athens;
Department of Biochemistry University of Cambridge;
Department of Chemistry King's College London;
Institute of Reproductive and Developmental Biology Department of Surgery and Cancer Imperial College London;
Department of Biology National and Kapodistrian University of Athens;
Department of Life Sciences Imperial College London;
Department of Chemistry King's College London;
protein-lipid interactions; native mass spectrometry; liquid chromatography-mass spectrometry; lipidomics; molecular dynamics simulations; ion-mobility mass spectrometry; UapA; eukaryotic membrane protein; in?vivomutational analyses; membrane protein oligomerization;
机译:结构脂质能够形成真核生物嘌呤Symporter uapa的功能性低聚物
机译:通过结构相关的非离子型去污剂增溶的重组真核己糖/质子同向转运蛋白的性质:磷脂酰胆碱对渗透酶稳定性的特殊要求
机译:结构相关的非离子型去污剂可溶解的重组真核己糖/质子同向转运蛋白的特性:磷脂酰胆碱对渗透酶稳定性的特殊要求。
机译:特殊的细菌膜脂质的改变形成与真核宿主的细菌相互作用
机译:包含富含嘌呤的内部环和带有C5-丙炔基取代的DNA:RNA杂合物的RNA低聚物的热力学和结构性质。
机译:结构脂质使真核嘌呤转运蛋白UapA的功能性寡聚体的形成。
机译:结构脂质能够形成真核生物嘌呤Symporter uapa的功能性低聚物