Difference between revisions of "Team:OUC-China"

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Revision as of 05:24, 11 August 2015

GOOD TEAM!
Team:OUC-China

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Abstract

Gene regulation has typically employed chemically mediated expression systems, which are slow and could be limited by medium during drug diffusion. The development of remote regulation systems that could response to physical signals is in demand. This summer, we are trying to design a platform responsed to electromagnetic signal. This platform is composed of 2 sessions : magnetic receiver and thermosensitive regulator

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Abstract

Gene regulation has typically employed chemically mediated expression systems, which are slow and could be limited by medium during drug diffusion. The development of remote regulation systems that could response to physical signals is in demand. This summer, we are trying to design a platform responsed to electromagnetic signal. This platform is composed of 2 sessions : magnetic receiver and thermosensitive regulator

Click here to learn more

Abstract

Gene regulation has typically employed chemically mediated expression systems, which are slow and could be limited by medium during drug diffusion. The development of remote regulation systems that could response to physical signals is in demand. This summer, we are trying to design a platform responsed to electromagnetic signal. This platform is composed of 2 sessions : magnetic receiver and thermosensitive regulator

Click here to learn more

Abstract

Gene regulation has typically employed chemically mediated expression systems, which are slow and could be limited by medium during drug diffusion. The development of remote regulation systems that could response to physical signals is in demand. This summer, we are trying to design a platform responsed to electromagnetic signal. This platform is composed of 2 sessions : magnetic receiver and thermosensitive regulator

Click here to learn more