机译:抗糖蛋白IBA的新型抗体通过影响VWF-GPIBA相互作用来抑制肺转移
East China Univ Sci &
Technol State Key Lab Bioreactor Engn Sch Pharm Shang Peoples R China;
Emory Univ Dept Pediat Sch Med Aflac Canc &
Blood Disorders Ctr Atlanta GA 30322 USA;
Shanghai Univ Tradit Chinese Med Putuo Hosp Cent Lab Gen Surg Shanghai Peoples R China;
Tongji Univ Sch Med Thorac Canc Inst Dept Med Oncol Shanghai Pulm Hosp Shanghai Peoples R China;
Shanghai Jiao Tong Univ Sch Med Shanghai Key Lab Tumor Microenvironm &
Inflamm Dept Biochem &
Tongji Univ Sch Med Thorac Canc Inst Dept Med Oncol Shanghai Pulm Hosp Shanghai Peoples R China;
Shanghai Jiao Tong Univ Sch Med Shanghai Key Lab Tumor Microenvironm &
Inflamm Dept Biochem &
Emory Univ Emory Childrens Ctr Atlanta GA 30322 USA;
Univ Iowa Holden Comprehens Canc Ctr Div Hematol Oncol Carver Coll Med Iowa City IA 52242 USA;
Emory Univ Dept Pediat Sch Med Aflac Canc &
Blood Disorders Ctr Atlanta GA 30322 USA;
East China Univ Sci &
Technol State Key Lab Bioreactor Engn Sch Pharm Shang Peoples R China;
East China Univ Sci &
Technol State Key Lab Bioreactor Engn Sch Pharm Shang Peoples R China;
机译:抗糖蛋白IBA的新型抗体通过影响VWF-GPIBA相互作用来抑制肺转移
机译:针对β3整合素的人源化单链抗体可通过优先破坏肿瘤微环境中的活化血小板来抑制肺转移
机译:用于高级糖化末端产物(RAGE)的受体作为特异性硫酸糖蛋白聚糖的受体,并且在体内递送的抗RAGE抗体或硫酸糖胺聚糖抑制肿瘤细胞的肺转移
机译:AntI-4-IBB抗体抑制肺转移
机译:探索寨卡病毒糖蛋白结构格局对抗体相互作用的影响
机译:抗GPIbα的新型抗体通过影响vWF-GPIbα相互作用抑制肺转移
机译:通过影响VWF-GPIBα相互作用,针对GPIBα的新型抗体抑制肺转移
