Difference between revisions of "Part:BBa K3900021"

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After purification, both protein eluates were rebuffered and concentrated in PBS. The samples were diluted to the same concentration, before fluorescence measurement at different pH conditions using the TECAN plate reader.
 
After purification, both protein eluates were rebuffered and concentrated in PBS. The samples were diluted to the same concentration, before fluorescence measurement at different pH conditions using the TECAN plate reader.
 
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   <img class="bgbox__fullimage" title = "Figure 2: Relative fluorescence intensity  of mRuby3 and mCRISPRed at different pH conditions measured in the TECAN plate reader, significance differences are marked with *** for high significance (p < 0.001)" src="https://2021.igem.org/wiki/images/a/a4/T--Bielefeld-CeBiTec--21pHDiagramm.png"/>
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   <img title = "Figure 2: Relative fluorescence intensity  of mRuby3 and mCRISPRed at different pH conditions measured in the TECAN plate reader, significance differences are marked with *** for high significance (p < 0.001)" src="https://2021.igem.org/wiki/images/a/a4/T--Bielefeld-CeBiTec--21pHDiagramm.png"/>
 
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  For direct comparison the results are displayed as relative fluorescence intensity with the respective fluorescence intensity maximum at pH 4.6 for mRuby3 and pH 3.6 for mCRISPRed. Throughout pH 6.5 to 3, the relative fluorescence intensity of mRuby 3 and mCRISPRed is similar. However, for conditions of pH 3 and lower the relative fluorescence intensity of mRuby3 drops rapidly from 87 % at pH 3.6 to 8 % at pH 3. For mCRISPRed the relative fluorescence intensity declines stepwise from pH 3.6 to 2, with the final detected value being at 33 %. At this pH level, no significant fluorescence intensity of mRUBY3 could be detected. Students t-test proved the differences in relative fluorescence to be highly significant for pH 3; 2.5 and 2 (p < 0.001). With these results we confirm an increased pH stability of mCRISPRed in an acidic environment compared to mRuby3.
 
  For direct comparison the results are displayed as relative fluorescence intensity with the respective fluorescence intensity maximum at pH 4.6 for mRuby3 and pH 3.6 for mCRISPRed. Throughout pH 6.5 to 3, the relative fluorescence intensity of mRuby 3 and mCRISPRed is similar. However, for conditions of pH 3 and lower the relative fluorescence intensity of mRuby3 drops rapidly from 87 % at pH 3.6 to 8 % at pH 3. For mCRISPRed the relative fluorescence intensity declines stepwise from pH 3.6 to 2, with the final detected value being at 33 %. At this pH level, no significant fluorescence intensity of mRUBY3 could be detected. Students t-test proved the differences in relative fluorescence to be highly significant for pH 3; 2.5 and 2 (p < 0.001). With these results we confirm an increased pH stability of mCRISPRed in an acidic environment compared to mRuby3.

Revision as of 06:17, 20 October 2021


emission592 nm
excitation460 nm

mCRISPRed - improvement of mRuby3

This part is an improved version of the red fluorescent protein mRuby3 (BBa_M50009), that displays an enhanced stability at low pH conditions. The original part can be found at: https://parts.igem.org/Part:BBa_M50009


Measurement
The improved pH stability was determined by measuring the relative fluorescence of mRuby3 and mCRISPRed at different pH conditions. The fluorescence proteins were expressed in Escherichia coli BL21 DE3 and purified via IMAC beforehand. After purification, both protein eluates were rebuffered and concentrated in PBS. The samples were diluted to the same concentration, before fluorescence measurement at different pH conditions using the TECAN plate reader.

 <img title = "Figure 2: Relative fluorescence intensity  of mRuby3 and mCRISPRed at different pH conditions measured in the TECAN plate reader, significance differences are marked with *** for high significance (p < 0.001)" src="T--Bielefeld-CeBiTec--21pHDiagramm.png"/>


For direct comparison the results are displayed as relative fluorescence intensity with the respective fluorescence intensity maximum at pH 4.6 for mRuby3 and pH 3.6 for mCRISPRed. Throughout pH 6.5 to 3, the relative fluorescence intensity of mRuby 3 and mCRISPRed is similar. However, for conditions of pH 3 and lower the relative fluorescence intensity of mRuby3 drops rapidly from 87 % at pH 3.6 to 8 % at pH 3. For mCRISPRed the relative fluorescence intensity declines stepwise from pH 3.6 to 2, with the final detected value being at 33 %. At this pH level, no significant fluorescence intensity of mRUBY3 could be detected. Students t-test proved the differences in relative fluorescence to be highly significant for pH 3; 2.5 and 2 (p < 0.001). With these results we confirm an increased pH stability of mCRISPRed in an acidic environment compared to mRuby3.