Liu Xing-Mao | Department of Cell Engineering, Beijing Institute of Biotechnology
スポンサーリンク
概要
関連著者
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LIU Hong
Department of Orthodontics, School of Stomatology, Shanghai Second Medical University
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Liu Xing-Mao
Department of Cell Engineering, Beijing Institute of Biotechnology
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Wu Ben-Chuan
Department of Cell Engineering, Beijing Institute of Biotechnology
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Chen Zhao-Lie
Department of Cell Engineering, Beijing Institute of Biotechnology
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Liu Hong
Department Of Cell Engineering Beijing Institute Of Biotechnology
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Liu Xing-mao
Department Of Cell Engineering Beijing Institute Of Biotechnology
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Wu Ben-chuan
Department Of Cell Engineering Beijing Institute Of Biotechnology
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Chen Zhao-lie
Department Of Cell Engineering Beijing Institute Of Biotechnology
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Liu Hong
Department Of Anesthesiology And Pain Medicine University Of California Davis Medical Center
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Li Shi-Chong
Department of Cell Engineering, Beijing Institute of Biotechnology
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Ye Ling-Ling
Department of Cell Engineering, Beijing Institute of Biotechnology
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Wang Qi-Wei
Department of Cell Engineering, Beijing Institute of Biotechnology
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Wang Qu-wei
Department Of Cell Engineering Beijing Institute Of Biotechnology
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Wang Qi-wei
Dep. Of Cell Engineering Beijing Inst. Of Biotechnology 20 Dongdajie Street Fengtai Beijing 100071 C
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Ye Ling-ling
Department Of Cell Engineering Beijing Institute Of Biotechnology
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Li Shi-chong
Department Of Cell Engineering Beijing Institute Of Biotechnology
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HAN Yi
Department of Applied Chemistry, Faculty of Engineering, The University of Tokyo
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Han Yi
Department Of Cell Engineering Beijing Institute Of Biotechnology
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Han Yi
Department Of Applied Chemistry Graduate School Of Engineering The University Of Tokyo
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HUANG PEI-TANG
Department of Cell Engineering, Institute of Biotechnology
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Huang Pei-tang
Department Of Cell Engineering Institute Of Biotechnology
著作論文
- A high-yield and scaleable adenovirus vector production process based on high density perfusion culture of HEK 293 cells as suspended aggregates(BIOCHEMICAL ENGINEERING)
- Cultivation of Recombinant Chinese Hamster Ovary Cells Grown as Suspended Aggregates in Stirred Vessels(BIOCHEMICAL ENGINEERING)
- Temperature Shift as a Process Optimization Step for the Production of Pro-urokinase by a Recombinant Chinese Hamster Ovary Cell Line in High-Density Perfusion Culture (BIOCHEMICAL ENGINEERING)