Team:Bielefeld-CeBiTec/Results/Biosafety/Long-termStability

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     <h6>Long-term stability of the antiobiotic-free selection</h6>
     <h6>Long-term stability of the antiobiotic-free selection</h6>
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To verify if the plasmid stability of the antibiotic-free selection system is comparable to that of an appropiate antibiotic, the plasmid <a href="http://parts.igem.org/Part:BBa_K1465401">BBa_K1465401</a> was cultivated for 40 h in LB media, containing normal LB, LB supplemented with 5 mM D-alanine and LB containing 30 mg/L Chloramphenicol. When stationary phase of the cultivation was reached the cultivation was diluted to OD<sub>600</sub> of 0.0001 and then diltued again 1:1000. From this dilution volumes of 10 µl, 20 µl and 50 µl were plated out on the corresponding media to estimate the ratio between red colonies (harboring the plasmid) and white colonies (loss of the plasmid).  
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To verify if the plasmid stability of the antibiotic-free selection system is comparable to an appropriate antibiotic selection system, <i>E.&nbsp;coli</i> carrying the plasmid <a href="http://parts.igem.org/Part:BBa_K1465401">BBa_K1465401</a> was cultivated for 40&nbsp;h in LB media, containing normal LB, LB supplemented with 5&nbsp;mM D-alanine and LB containing 30&nbsp;mg/L chloramphenicol. After reaching the stationary phase of the cultivation the culture was diluted to an OD<sub>600</sub> of 0.0001 and then diluted again 1:1000. Volumes of 10 µl, 20 µl and 50 µl of the dilution were spread onto the corresponding media to estimate the ratio between red colonies (harboring the plasmid) and white colonies (loss of the plasmid).  
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The cultivation with 5 mM D-alanine should probably led to the loss of the plasmid, because it is not neccessary for bacterial grwoth when D-alanine is supplemented. And as shown in Figure 10 below the first white cells occurs after 17 h of cultivation. As they were incubated on LB for about 12 h, the first phenotypically identication for an loss of the plasmid <a href="http://parts.igem.org/Part:BBa_K1465401">BBa_K1465401</a> took place after 29 h. In contrast there where no perfomonce of white colonies within the antibiotic-free selection comparable to the selection with Chloramphenicol suggesting that the plasmid stability might be the same for 52 h. A more accurate quantification would be archieved by a longer duration of the long-term cultivation to investigate if there is also a loss of the plasmid after some time in on of the selection media, but usually <i>E. coli</i> is not cultivated for such a long time, so that the data should be sufficient enough. Yet the investigation of the plasmid stability of the antibiotic-free selection system can be improved by flourescence measurement of a reporter to quantify the plasmid stability in this period of time more precisely.
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The cultivation with 5 mM D-alanine should probably lead to the loss of the plasmid, because it is not necessary for bacterial growth in case of D-alanine supplementation. As shown in Figure 10, white cells occur after 17&nbsp;h of cultivation. After an incubation of about 12&nbsp;h on LB plates, the first phenotypically identification which intends a loss of the plasmid <a href="http://parts.igem.org/Part:BBa_K1465401">BBa_K1465401</a> took place after 29 h. In contrast to that, there was no formatioin of white colonies within the antibiotic-free selection system. In comparison to the selection with chloramphenicol, we can suggest that the plasmid stability might be the same for 52 h. A more accurate quantification would be achieved with a long-term cultivation to investigate plasmid loss in one of the selection media. Usually <i>E.&nbsp;coli</i> is not cultivated for such a long time, which means that the data should be sufficient enough. Yet, the investigation of the plasmid stability using the antibiotic-free selection system can be improved by the fluorescence measurement of a reporter protein to quantify the plasmid stability more precisely.
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     <a href="https://static.igem.org/mediawiki/2014/6/67/Bielefeld-CeBiTec_2014-10-15_Longterm_AB_alr.png" target="_blank"><img src="https://static.igem.org/mediawiki/2014/6/67/Bielefeld-CeBiTec_2014-10-15_Longterm_AB_alr.png" width="600px" align="center"></a><br>
     <a href="https://static.igem.org/mediawiki/2014/6/67/Bielefeld-CeBiTec_2014-10-15_Longterm_AB_alr.png" target="_blank"><img src="https://static.igem.org/mediawiki/2014/6/67/Bielefeld-CeBiTec_2014-10-15_Longterm_AB_alr.png" width="600px" align="center"></a><br>
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<font size="2" style=""><b>Figure 10:</b> Long-term stability of the plasmid <a href="http://parts.igem.org/Part:BBa_K1465401">BBa_K1465401</a> by calculation of the ratio of white colonies (loss of the plasmid) and red colonies (harboring the plasmid).</font>
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<font size="2" style=""><b>Figure 10:</b> Long-term stability of the plasmid <a href="http://parts.igem.org/Part:BBa_K1465401">BBa_K1465401</a> by calculation of the ratio between white colonies (loss of the plasmid) and red colonies (harboring the plasmid).</font>
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Latest revision as of 00:32, 18 October 2014


Biosafety - Antibiotic-free Selection

Long-term stability of the antiobiotic-free selection

To verify if the plasmid stability of the antibiotic-free selection system is comparable to an appropriate antibiotic selection system, E. coli carrying the plasmid BBa_K1465401 was cultivated for 40 h in LB media, containing normal LB, LB supplemented with 5 mM D-alanine and LB containing 30 mg/L chloramphenicol. After reaching the stationary phase of the cultivation the culture was diluted to an OD600 of 0.0001 and then diluted again 1:1000. Volumes of 10 µl, 20 µl and 50 µl of the dilution were spread onto the corresponding media to estimate the ratio between red colonies (harboring the plasmid) and white colonies (loss of the plasmid). The cultivation with 5 mM D-alanine should probably lead to the loss of the plasmid, because it is not necessary for bacterial growth in case of D-alanine supplementation. As shown in Figure 10, white cells occur after 17 h of cultivation. After an incubation of about 12 h on LB plates, the first phenotypically identification which intends a loss of the plasmid BBa_K1465401 took place after 29 h. In contrast to that, there was no formatioin of white colonies within the antibiotic-free selection system. In comparison to the selection with chloramphenicol, we can suggest that the plasmid stability might be the same for 52 h. A more accurate quantification would be achieved with a long-term cultivation to investigate plasmid loss in one of the selection media. Usually E. coli is not cultivated for such a long time, which means that the data should be sufficient enough. Yet, the investigation of the plasmid stability using the antibiotic-free selection system can be improved by the fluorescence measurement of a reporter protein to quantify the plasmid stability more precisely.


Figure 10: Long-term stability of the plasmid BBa_K1465401 by calculation of the ratio between white colonies (loss of the plasmid) and red colonies (harboring the plasmid).