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机译:结合的全身消除满足和表皮生长因子受体信号传导完全消除了肝再生并导致肝脏失代偿
Univ Pittsburgh Sch Med Dept Pathol S-410 Biomed Sci Tower 203 Lothrop St Pittsburgh PA 15261;
Univ Pittsburgh Sch Med Dept Pathol S-410 Biomed Sci Tower 203 Lothrop St Pittsburgh PA 15261;
Univ Pittsburgh Sch Med Dept Pathol S-410 Biomed Sci Tower 203 Lothrop St Pittsburgh PA 15261;
Univ Pittsburgh Sch Med Dept Pathol S-410 Biomed Sci Tower 203 Lothrop St Pittsburgh PA 15261;
Univ Pittsburgh Sch Med Dept Pathol S-410 Biomed Sci Tower 203 Lothrop St Pittsburgh PA 15261;
Univ Pittsburgh Sch Med Dept Pathol S-410 Biomed Sci Tower 203 Lothrop St Pittsburgh PA 15261;
Univ Pittsburgh Grad Sch Publ Hlth Dept Biostat Pittsburgh PA 15261 USA;
Univ Pittsburgh Grad Sch Publ Hlth Dept Biostat Pittsburgh PA 15261 USA;
Univ Pittsburgh Sch Med Dept Pathol S-410 Biomed Sci Tower 203 Lothrop St Pittsburgh PA 15261;
Univ Pittsburgh Sch Med Dept Pathol S-410 Biomed Sci Tower 203 Lothrop St Pittsburgh PA 15261;
机译:全身性消除MET和表皮生长因子受体信号转导的结合完全消除了肝脏再生并导致肝脏代偿失调
机译:结合的全身消除满足和表皮生长因子受体信号传导完全消除了肝再生并导致肝脏失代偿
机译:结合全身消除满足和EGFR信号传导完全消除了肝再生并导致肝脏失代偿。
机译:使用表皮生长因子受体靶向明胶纳米粒子在人类胰腺癌细胞中的基因传递和转染。
机译:石墨烯纳米带通过激活表皮生长因子受体引起细胞特异性摄取和药物递送。
机译:全身性清除MET和EGFR信号传导相结合完全消除了肝脏再生并导致肝脏代偿失调
机译:结合的Sysic破坏满足和表皮生长因子受体信号传导导致正常小鼠的肝脏失效