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机译:使用X射线和中子散射,CD光谱和MD模拟探测HIV-1 TAT膜相互作用
Department of Physics Carnegie Mellon University 5000 Forbes AvenuePittsburgh PA United States;
Department of Physics Rensselaer Polytechnic Institute 110 Eighth StreetTroy NY United States;
Department of Physics Carnegie Mellon University 5000 Forbes AvenuePittsburgh PA United States;
Department of Physics Carnegie Mellon University 5000 Forbes AvenuePittsburgh PA United States;
NIST Center for Neutron Research 100 Bureau DriveGaithersburg MD United States;
CHESS Cornell University 161 Synchrotron DriveIthaca NY United States;
Department of Physics Carnegie Mellon University 5000 Forbes AvenuePittsburgh PA United States;
Department of Physics Rensselaer Polytechnic Institute 110 Eighth StreetTroy NY United States;
Department of Physics Carnegie Mellon University 5000 Forbes AvenuePittsburgh PA United States;
Lipid bilayer structure cell-penetrating peptide; Low-angle X-ray scattering (LAXS); Membrane pore; Molecular dynamics (MD) simulations; Peptide translocation; Wide-angle X-ray scattering (WAXS);
机译:使用X射线和中子散射,CD光谱和MD模拟探测HIV-1 Tat膜的相互作用
机译:使用X射线和中子散射,CD光谱和MD模拟探测HIV-1 TAT膜相互作用
机译:MD模拟和X射线散射评估HIV-1 Tat 47-57 sub>渗透到PC / PE双层中
机译:中子散射探测肽膜相互作用
机译:RNA的协同研究:利用MD模拟和NMR光谱阐明HIV-1 TAR的结构动力学。
机译:使用X射线和中子散射CD光谱和MD模拟探测HIV-1 Tat膜相互作用
机译:使用X射线和中子散射,CD光谱和MD模拟探测HIV-1 Tat膜的相互作用。