Team:LZU-China/wetlab
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Revision as of 21:58, 16 October 2014
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In wet lab, we designed a novel MFC device containing genetic engineered bacteria. For anode strain, we’ve cloned a PNP sensor sequence and a riboflavin into Escherichia coli. The recombinants is able to detect PNP and produce riboflavin to boost electrical generation when co-cultured with Shewanella oneidensis. |
GENETIC ENGINEERED BACTERIA
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ABOUT THE CONSTRUCTION OF PNP SENSOR |
We found that the part BBa_K381001 by iGEM10_BCCS-Bristol is a sensor which can detect the appearance of nitrate and nitrite. So we perfomed an experience by this part to see if this part can detect PNP(p-Nitrophenol). We got a good result.You can see the PNP can also induce the green fluorescence.
Figure-3 Fluorescence of different system. a.bacterial liquid with 10mM PNP; b.bacterial liquid with ddH2O; c.bacterial liquid with 10mM KNO3; d.bacterial liquid with 10mM KCl.
Firstly we got the plasmid with K1172303 from Registry. We cut the plasmid by EcoRI and XbaI, then put the Pnsr(K216005+B0030 this sequence was synthesized by company) into the gap.
Figure-4 Construction of K1523101
The size of the whole part is about 3700bp(without plasmid), we test the assembling result by PCR(sense:5’---TTCCCATCTATAATCCTCCCTGATTCTTCG---3’;anti-sense:5’---GAATTCTCTAGATTACAACTGTTGTTCAAGCTGTT---3’). From the gel picture we can see the size is right.
Figure-5 Gel picture of K1523101’s PCR
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ABOUT THE REDUCING Cr IONS GENES |
We found four genes to reduce the Cr(VI) to Cr(III). They are nahG, nahR, nahE, chrR and yieF. We didn’t do the deep research about them because of time limitation. They can be used in the general plasmids such as pBR322. We just made them to be the formation of Biobrick. More uses and functions need to be demonstrated and found. nahG: We got the sequence from Pseudomonas putida (Primer:sense:5’---CCGGAATTCGCGGCCGCTTCTAGATGAAAAACAATAAACCTGGCTTGCGC---3’;
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