Chemical and enzymatic strategies for bacterial and mammalian cell surface engineering
The cell surface serves important functions such as the regulation of cell-cell and cell-environment interactions. The understanding and manipulation of the cell surface is important for a wide range of fundamental studies of cellular behavior and for biotechnological and medical applications. With...
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sg-ntu-dr.10356-1393422020-05-19T03:12:51Z Chemical and enzymatic strategies for bacterial and mammalian cell surface engineering Bi, Xiaobao Yin, Juan Chen, Ashley Guanbang Liu, Chuan-Fa School of Biological Sciences Science::Biological sciences Cell Surface Engineering Cell Therapy The cell surface serves important functions such as the regulation of cell-cell and cell-environment interactions. The understanding and manipulation of the cell surface is important for a wide range of fundamental studies of cellular behavior and for biotechnological and medical applications. With the rapid advance of biology, chemistry and materials science, many strategies have been developed for the functionalization of bacterial and mammalian cell surfaces. Here, we review the recent development of chemical and enzymatic approaches to cell surface engineering with particular emphasis on discussing the advantages and limitations of each of these strategies. ASTAR (Agency for Sci., Tech. and Research, S’pore) MOE (Min. of Education, S’pore) 2020-05-19T03:12:51Z 2020-05-19T03:12:51Z 2018 Journal Article Bi, X., Yin, J., Chen, A. G., & Liu, C.-F. (2018). Chemical and enzymatic strategies for bacterial and mammalian cell surface engineering. Chemistry - A European Journal, 24(32), 8042-8050. doi:10.1002/chem.201883263 0947-6539 https://hdl.handle.net/10356/139342 10.1002/chem.201705049 29341307 2-s2.0-85043606412 32 24 8042 8050 en Chemistry - A European Journal This is the accepted version of the following article: Bi, X., Yin, J., Chen, A. G., & Liu, C.-F. (2018). Chemical and enzymatic strategies for bacterial and mammalian cell surface engineering. Chemistry - A European Journal, 24(32), 8042-8050, which has been published in final form at dx.doi.org/10.1002/chem.201705049. This article may be used for non-commercial purposes in accordance with the Wiley Self-Archiving Policy [https://authorservices.wiley.com/authorresources/Journal-Authors/licensing/self-archiving.html]." |
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Science::Biological sciences Cell Surface Engineering Cell Therapy Bi, Xiaobao Yin, Juan Chen, Ashley Guanbang Liu, Chuan-Fa Chemical and enzymatic strategies for bacterial and mammalian cell surface engineering |
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The cell surface serves important functions such as the regulation of cell-cell and cell-environment interactions. The understanding and manipulation of the cell surface is important for a wide range of fundamental studies of cellular behavior and for biotechnological and medical applications. With the rapid advance of biology, chemistry and materials science, many strategies have been developed for the functionalization of bacterial and mammalian cell surfaces. Here, we review the recent development of chemical and enzymatic approaches to cell surface engineering with particular emphasis on discussing the advantages and limitations of each of these strategies. |
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School of Biological Sciences |
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School of Biological Sciences Bi, Xiaobao Yin, Juan Chen, Ashley Guanbang Liu, Chuan-Fa |
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Article |
author |
Bi, Xiaobao Yin, Juan Chen, Ashley Guanbang Liu, Chuan-Fa |
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Bi, Xiaobao |
title |
Chemical and enzymatic strategies for bacterial and mammalian cell surface engineering |
title_short |
Chemical and enzymatic strategies for bacterial and mammalian cell surface engineering |
title_full |
Chemical and enzymatic strategies for bacterial and mammalian cell surface engineering |
title_fullStr |
Chemical and enzymatic strategies for bacterial and mammalian cell surface engineering |
title_full_unstemmed |
Chemical and enzymatic strategies for bacterial and mammalian cell surface engineering |
title_sort |
chemical and enzymatic strategies for bacterial and mammalian cell surface engineering |
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2020 |
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https://hdl.handle.net/10356/139342 |
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1681058912894189568 |