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<p>By fusing the RLuc to CheZ and eYFP to CheY, the bioluminescence can be used as a proxy to demonstrate whether the chemotaxis proteins interact (Figure 3). When no ligand is bound to the Tar receptor, CheA is active and phosphorylates CheY. Because of this, the phosphorylated eYFP::CheY can interact with CheZ::Rluc, bringing RLuc and eYFP in close proximity of each other. This can be measured as a BRET signal when the RLuc substrate is added. Upon binding of a ligand to the Tar receptor, CheA becomes inactivated, ultimately leading to a decrease of the BRET signal. Importantly, the signal can be readily measured by using an affordable bioluminescence assay.</p> | <p>By fusing the RLuc to CheZ and eYFP to CheY, the bioluminescence can be used as a proxy to demonstrate whether the chemotaxis proteins interact (Figure 3). When no ligand is bound to the Tar receptor, CheA is active and phosphorylates CheY. Because of this, the phosphorylated eYFP::CheY can interact with CheZ::Rluc, bringing RLuc and eYFP in close proximity of each other. This can be measured as a BRET signal when the RLuc substrate is added. Upon binding of a ligand to the Tar receptor, CheA becomes inactivated, ultimately leading to a decrease of the BRET signal. Importantly, the signal can be readily measured by using an affordable bioluminescence assay.</p> | ||
− | <figure style = "width: | + | <figure style = "width:25%;float: left;"> |
<img width = 100% src="https://static.igem.org/mediawiki/2018/f/f7/T--Utrecht--2018-Figure1-ProjectDesign.svg" alt="BRET_Assay.png" style =" clip: rect(10%,10%,70%,70%)"> | <img width = 100% src="https://static.igem.org/mediawiki/2018/f/f7/T--Utrecht--2018-Figure1-ProjectDesign.svg" alt="BRET_Assay.png" style =" clip: rect(10%,10%,70%,70%)"> | ||
<figcaption" style = "padding: 5%;">Figure 1: The Chemotaxis Pathway of E. coli. A) The active pathway. B) The inactive pathway. | <figcaption" style = "padding: 5%;">Figure 1: The Chemotaxis Pathway of E. coli. A) The active pathway. B) The inactive pathway. | ||
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</figure> | </figure> | ||
− | <figure style = "width: | + | <figure style = "width:25%;float: left;"> |
<img width = 100% src="https://static.igem.org/mediawiki/2018/5/56/T--Utrecht--2018-Figure3-ProjectDesign.svg" alt="BRET_Assay.png" style =" clip: rect(10%,10%,70%,70%)"> | <img width = 100% src="https://static.igem.org/mediawiki/2018/5/56/T--Utrecht--2018-Figure3-ProjectDesign.svg" alt="BRET_Assay.png" style =" clip: rect(10%,10%,70%,70%)"> | ||
<figcaption" style = "padding: 5%;">Figure 3: The implementation of the BRET-pair in the Chemotaxis pathway. A) the BRET-pair is able to get in close proximity when no ligand is bound to the receptor. B) Upon binding of ligand to the receptor, the pathway is inactivated. CheY and CheZ no longer bind, therefore YFP will not be excited by Luciferase. </figcaption> | <figcaption" style = "padding: 5%;">Figure 3: The implementation of the BRET-pair in the Chemotaxis pathway. A) the BRET-pair is able to get in close proximity when no ligand is bound to the receptor. B) Upon binding of ligand to the receptor, the pathway is inactivated. CheY and CheZ no longer bind, therefore YFP will not be excited by Luciferase. </figcaption> | ||
</figure> | </figure> | ||
− | <figure style = "width: | + | <figure style = "width:25%;float: right"> |
<img width = 100% src="https://static.igem.org/mediawiki/2018/c/ce/T--Utrecht--2018--BRET_Assay--Main003.png" alt="BRET_Assay.png"> | <img width = 100% src="https://static.igem.org/mediawiki/2018/c/ce/T--Utrecht--2018--BRET_Assay--Main003.png" alt="BRET_Assay.png"> | ||
<figcaption" style = "padding: 5%;">Figure 2: BRET-pair activity. A) When CheZ and CheY do not interact, the distance between Luciferase and eYFP is too large for Luciferase to excite eYFP. As a consequence, only Luciferase emits light. B) Upon interaction of CheZ and CheY, Luciferase and eYFP are in close proximity. eYFP is excited by photons produced by luciferase, leading to luminescence of eYFP.</figcaption> | <figcaption" style = "padding: 5%;">Figure 2: BRET-pair activity. A) When CheZ and CheY do not interact, the distance between Luciferase and eYFP is too large for Luciferase to excite eYFP. As a consequence, only Luciferase emits light. B) Upon interaction of CheZ and CheY, Luciferase and eYFP are in close proximity. eYFP is excited by photons produced by luciferase, leading to luminescence of eYFP.</figcaption> |
Revision as of 10:57, 13 October 2018