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Team:Peking S/team/links
From 2011.igem.org
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<font color="#ffffff"><font size=4>Year 2010</font> | <font color="#ffffff"><font size=4>Year 2010</font> | ||
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We’ve developed a strategy for heavy metal bioreporter and bioabsorbent engineering, based on reverse engineering principle, which will help us to break the limitation of our current knowledge and research method. As MerR family TFs share highly conserved homology and most kinds of heavy metals have corresponding MerR family TFs(Brown et al., 2003; Hobman, 2007; Hobman et al., 2005; Julian et al., 2009), we can state that we have developed an extensible method to construct heavy metal decontamination kits composed of valid bioreporters and bioabsorbents for field application in the near future. | We’ve developed a strategy for heavy metal bioreporter and bioabsorbent engineering, based on reverse engineering principle, which will help us to break the limitation of our current knowledge and research method. As MerR family TFs share highly conserved homology and most kinds of heavy metals have corresponding MerR family TFs(Brown et al., 2003; Hobman, 2007; Hobman et al., 2005; Julian et al., 2009), we can state that we have developed an extensible method to construct heavy metal decontamination kits composed of valid bioreporters and bioabsorbents for field application in the near future. | ||
[https://2010.igem.org/Team:Peking more detail] | [https://2010.igem.org/Team:Peking more detail] | ||
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<font color="#ffffff"><font size=4>Year 2009</font> | <font color="#ffffff"><font size=4>Year 2009</font> | ||
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| + | [[File:Wholeteam09.jpg|670px]] | ||
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| + | We’ve developed a strategy for heavy metal bioreporter and bioabsorbent engineering, based on reverse engineering principle, which will help us to break the limitation of our current knowledge and research method. As MerR family TFs share highly conserved homology and most kinds of heavy metals have corresponding MerR family TFs(Brown et al., 2003; Hobman, 2007; Hobman et al., 2005; Julian et al., 2009), we can state that we have developed an extensible method to construct heavy metal decontamination kits composed of valid bioreporters and bioabsorbents for field application in the near future. | ||
<font color="#ffffff"><font size=4>Year 2008</font> | <font color="#ffffff"><font size=4>Year 2008</font> | ||
Revision as of 06:11, 30 August 2011
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Year 2010
We’ve developed a strategy for heavy metal bioreporter and bioabsorbent engineering, based on reverse engineering principle, which will help us to break the limitation of our current knowledge and research method. As MerR family TFs share highly conserved homology and most kinds of heavy metals have corresponding MerR family TFs(Brown et al., 2003; Hobman, 2007; Hobman et al., 2005; Julian et al., 2009), we can state that we have developed an extensible method to construct heavy metal decontamination kits composed of valid bioreporters and bioabsorbents for field application in the near future.
Year 2009
We’ve developed a strategy for heavy metal bioreporter and bioabsorbent engineering, based on reverse engineering principle, which will help us to break the limitation of our current knowledge and research method. As MerR family TFs share highly conserved homology and most kinds of heavy metals have corresponding MerR family TFs(Brown et al., 2003; Hobman, 2007; Hobman et al., 2005; Julian et al., 2009), we can state that we have developed an extensible method to construct heavy metal decontamination kits composed of valid bioreporters and bioabsorbents for field application in the near future.
Year 2008
Year 2007
