Difference between revisions of "Part:BBa K864402"
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A study of the molecular weight of p.Cons-eforRed expressed in E.coli BL21 (DE3) gold cells was done by sonicating the cells and then performing a SDS-PAGE electrophoresis on the lysate (<b>Figure 4.</b>) with Biorads "Precision Plus Protein Dual Color Standards" as the protein ladder.<br><br> | A study of the molecular weight of p.Cons-eforRed expressed in E.coli BL21 (DE3) gold cells was done by sonicating the cells and then performing a SDS-PAGE electrophoresis on the lysate (<b>Figure 4.</b>) with Biorads "Precision Plus Protein Dual Color Standards" as the protein ladder.<br><br> | ||
</html>[[Image:T--Linkoping_Sweden--eforred_SDS-page.png|100px|left|]]<html> | </html>[[Image:T--Linkoping_Sweden--eforred_SDS-page.png|100px|left|]]<html> | ||
− | <br><br><br><br><br><br><br><br><br><br><br><br><br><br><br><br><div class="figurtext"style=font-size:80%;><b><i>Figure 4.</b> SDS-page of sonicated E.coli BL21 (DE3) lysate with p.Cons-eforRed. Biorads "Precision Plus Protein Dual Color Standards" was used as the protein ladder. The visible band on the gel lies between 25 and 37 kD which correspond to the molecular weight of eforRed which is 26.1 kDa.</i> | + | <br><br><br><br><br><br><br><br><br><br><br><br><br><br><br><br><br><div class="figurtext"style=font-size:80%;><b><i>Figure 4.</b> SDS-page of sonicated E.coli BL21 (DE3) lysate with p.Cons-eforRed. Biorads "Precision Plus Protein Dual Color Standards" was used as the protein ladder. The visible band on the gel lies between 25 and 37 kD which correspond to the molecular weight of eforRed which is 26.1 kDa.</i> |
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Revision as of 13:19, 15 October 2019
J23110-B0034-eforRed
eforRed eforRed is previously described as BBa_K592012. We submitted a functionally active variant with J23110 and B0034.
Contribution
Group: Linkoping_Sweden iGEM 2019
Author: Andreas Holmqvist and Leo Juhlin
Summary:
In this contribution we characterized the visual absorbance and the fluorescence of this construct. We also tested the oxygen dependency of the protein expression in E.coli BL21(DE3) cells and then measured the absorbance of the cells with a plate reader (spectrophotometer).
Documentation:
- the BBa_B0034 ribosome binding site
- the BBa_J23110 Constitutive promotor
To verify eforRed's absorbance and emission, the construct was expressed in E.coli BL21 (DE3) Gold cells. The bacteria containing the constitutive promotor (pCons) was compared to a negative control (figure 1). Thereafter the eforRed expressing bacteria was centrifuged, resulting in a pink pellet (Figure 1, top-right corner). To demonstrate the fluorescence of eforRed, the pellet was placed on a UV-table emitting a wavelength of 302 nm, (figure 1, down-right corner), which exhibited a pink glowing colour. The culture tubes had a constant supply of oxygen by using cotton plugs which is important for the folding of the eforRed chromophore, therefore leading to increased expression.
Further characterization was performed in order to demonstrate the absorbance and fluorescence of E.coli BL21 (DE3) gold cells containing pCons eforRed. An eforRed culture was spread on an LB-agar plate containing 25 µg/ml chloramphenicol. The agar culture were photographed in visual light and on a UV-table emitting 302 nm (figure 2). The results were the same as above, in visual light (Figure 2, right) the cultures had a burgundy color and on the UV-table the bacteria exhibited a pink glowing colour ( Figure 2, left).
To test the oxygen dependency of the protein production of eforRed in E.coli BL21 (DE3) gold cells, a platereading was conducted. The oxygen access was varied by piercing different numbers of holes in the plastic film of the 96-well plate. The experiment showed that the access to oxygen effects E.colis protein production of eforRed.
A study of the molecular weight of p.Cons-eforRed expressed in E.coli BL21 (DE3) gold cells was done by sonicating the cells and then performing a SDS-PAGE electrophoresis on the lysate (Figure 4.) with Biorads "Precision Plus Protein Dual Color Standards" as the protein ladder.
Sequence and Features