Difference between revisions of "Team:NYMU-Taipei/Improve"

 
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<h3>★  ALERT! </h3>
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<p>This page is used by the judges to evaluate your team for the <a href="https://2018.igem.org/Judging/Medals">medal criterion</a> or <a href="https://2018.igem.org/Judging/Awards"> award listed below</a>. </p>
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<p> Delete this box in order to be evaluated for this medal criterion and/or award. See more information at <a href="https://2018.igem.org/Judging/Pages_for_Awards"> Instructions for Pages for awards</a>.</p>
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<h2 id="1" class="subtitle">Overview</h2>
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<p>Fluorescent proteins are widely used as reporters. Enhanced Green Fluorescent Protein (EGFP) is a fluorescent protein widely used for this purpose. In our project, we improved EGFP into monomer EGFP (mEGFP). Also, we added an albumin secretion peptide (ALB) to our fluorescent protein to enable more convenient observation of the fluorescent protein.</p>
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<h2 id="2" class="subtitle">mEGFP</h2>
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<p>EGFP has been documented by team Lambert in 2016. However, EGFP molecules have a tendency to noncovalently dimerize. As reporter fluorescent proteins are often fused to protein of interest, one of the main applications of fluorescent proteins include visualizing the localization and behaviors of target [1]. However, dimerization of proteins can cause problems such as disturbing with the inert of target. Another common problem is showing false positive results when used for FRET. In order to minimize these issues that might interfere with our detection results, we designed a monomer EGPF (mEGFP) that does not naturally dimerize. This is done by altering one amino acid in the original EGFP protein. The sequencing data is shown below. </p>
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<img src="https://static.igem.org/mediawiki/2018/8/87/T--NYMU-Taipei--parts-mEGFPsequencing.png" style="width:500px;">
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<p>This difference in the sequence results in very different Van-Der-Waals forces between molecules, decreasing the tendency of EGFP molecules to dimerize. To verify our prediction, we used SWISS-MODEL, an online protein modeling system to check the predicted structure of our mEGFP. We modeled the structure of both EGFP and mEGFP. The predicted oligio-state of EGFP molecule is homo-dimer, while mEGFP is likely to be a monomer. The modeled structure is shown in Table below. </p>
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    <th>EGFP</th>
<h1>Improve</h1>
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    <th>mEGFP</th>
<p>For teams seeking to improve upon a previous part or project, you should document all of your work on this page. Please remember to include all part measurement and characterization data on the part page on the Registry. Please include a link to your improved part on this page.</p>
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<h3>Gold Medal Criterion #2</h3>
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    <td>Structure Model</td>
<p><b>Standard Tracks:</b> Create a new part that has a functional improvement upon an existing BioBrick part. The sequences of the new and existing parts must be different. You must perform experiments with both parts to demonstrate this improvement.  Document the experimental characterization on the Part's Main Page on the Registry for both the existing and new parts. Both the new and existing Main Page of each Part’s Registry entry must reference each other. Submit a sample of the new part to the Registry.
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    <td><img src="https://static.igem.org/mediawiki/parts/4/40/T--NYMU-Taipei--part-mEGFP3.jpg" style="width:200px;"></td>
 
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    <td><img src="https://static.igem.org/mediawiki/parts/c/c0/T--NYMU-Taipei--part-mEGFP4.jpg" style="width:200px;"></td>
The existing part must NOT be from your 2018 part number range and must be different from the part documented in bronze #4.
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    <td>Predicted Oligio-state </td>
<b>Special Tracks:</b> Improve the function of an existing iGEM project (that your current team did not originally create) and display your achievement on your wiki.</p>
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    <td>Homo-dimer</td>
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    <td>Monomer</td>
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<p>We transfected a plasmid containing the mEGFP sequence into HEK 293T cell line, and green fluorescence can be detected under confocal microscope (As shown below). This proves that our improvement of EGFP does not interfere with its ability to emit fluorescence, making mEGFP a better version of the reporter protein. </p>
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<h2 id="3" class="subtitle" >ALB secretion peptide</h2>
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<p>Albumin secretion peptide (ALB) has been proved to be able to help proteins fused to ALB secrete extracellularly [2]. Traditionally, fluorescence has to be observed under fluorescent microscopes. However, with our ALB fused to the fluorescent protein, fluorescent protein is allowed to be secreted and detected extracellularly. We improved both EGFP and mCherry by fusing both fluorescent proteins to ALB to enable convenient detection of protein concentration via a spectrophotometer plate reader. This helped with our project a lot this year, as the amount of fluorescent protein secreted under the control of both CMV and DKK1 promoters can be detected quickly and conveniently. </p>
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<p>To evaluate whether or not our improved part works, we transfected two 6cm plate of 293T cells: one with ALB-mCherry, and one with ALB-mEGFP. Cell supernatant was collected and RFU values were measured with corresponding wavelengths after 24 hours and 48 hours. Cultured cell control was collected from cells that have not been transfected with the plasmids. Figure 3 and Figure 4 show promising confirmation that ALB tagged fluorescence proteins have been secreted extracellularly. </p>
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<img src="https://static.igem.org/mediawiki/2018/7/7b/T--NYMU-Taipei--improve-figure3.png">
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<h2 id="4" class="subtitle">Reference</h2>
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<li>Blogger, G. When is a Monomer not a Monomer? The Top Three Ways Your Favorite Fluorescent Protein Oligomerizes in Cells. (Apr 19, 2016) From https://blog.addgene.org/when-is-a-monomer-not-a-monomer-the-top-three-ways-your-favorite-fluorescent-protein-oligomerizes-in-cells</li>
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<li>Attallah, C., Etcheverrigaray, M., Kratje, R., & Oggero, M. A highly efficient modified human serum albumin signal peptide to secrete proteins in cells derived from different mammalian species. Protein Expression and Purification, 2017, 132, 27-33.</li>
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Latest revision as of 01:43, 18 October 2018




Overview

Fluorescent proteins are widely used as reporters. Enhanced Green Fluorescent Protein (EGFP) is a fluorescent protein widely used for this purpose. In our project, we improved EGFP into monomer EGFP (mEGFP). Also, we added an albumin secretion peptide (ALB) to our fluorescent protein to enable more convenient observation of the fluorescent protein.

mEGFP

EGFP has been documented by team Lambert in 2016. However, EGFP molecules have a tendency to noncovalently dimerize. As reporter fluorescent proteins are often fused to protein of interest, one of the main applications of fluorescent proteins include visualizing the localization and behaviors of target [1]. However, dimerization of proteins can cause problems such as disturbing with the inert of target. Another common problem is showing false positive results when used for FRET. In order to minimize these issues that might interfere with our detection results, we designed a monomer EGPF (mEGFP) that does not naturally dimerize. This is done by altering one amino acid in the original EGFP protein. The sequencing data is shown below.

This difference in the sequence results in very different Van-Der-Waals forces between molecules, decreasing the tendency of EGFP molecules to dimerize. To verify our prediction, we used SWISS-MODEL, an online protein modeling system to check the predicted structure of our mEGFP. We modeled the structure of both EGFP and mEGFP. The predicted oligio-state of EGFP molecule is homo-dimer, while mEGFP is likely to be a monomer. The modeled structure is shown in Table below.

EGFP mEGFP
Structure Model
Predicted Oligio-state Homo-dimer Monomer

We transfected a plasmid containing the mEGFP sequence into HEK 293T cell line, and green fluorescence can be detected under confocal microscope (As shown below). This proves that our improvement of EGFP does not interfere with its ability to emit fluorescence, making mEGFP a better version of the reporter protein.

ALB secretion peptide

Albumin secretion peptide (ALB) has been proved to be able to help proteins fused to ALB secrete extracellularly [2]. Traditionally, fluorescence has to be observed under fluorescent microscopes. However, with our ALB fused to the fluorescent protein, fluorescent protein is allowed to be secreted and detected extracellularly. We improved both EGFP and mCherry by fusing both fluorescent proteins to ALB to enable convenient detection of protein concentration via a spectrophotometer plate reader. This helped with our project a lot this year, as the amount of fluorescent protein secreted under the control of both CMV and DKK1 promoters can be detected quickly and conveniently.

To evaluate whether or not our improved part works, we transfected two 6cm plate of 293T cells: one with ALB-mCherry, and one with ALB-mEGFP. Cell supernatant was collected and RFU values were measured with corresponding wavelengths after 24 hours and 48 hours. Cultured cell control was collected from cells that have not been transfected with the plasmids. Figure 3 and Figure 4 show promising confirmation that ALB tagged fluorescence proteins have been secreted extracellularly.

Reference

  1. Blogger, G. When is a Monomer not a Monomer? The Top Three Ways Your Favorite Fluorescent Protein Oligomerizes in Cells. (Apr 19, 2016) From https://blog.addgene.org/when-is-a-monomer-not-a-monomer-the-top-three-ways-your-favorite-fluorescent-protein-oligomerizes-in-cells
  2. Attallah, C., Etcheverrigaray, M., Kratje, R., & Oggero, M. A highly efficient modified human serum albumin signal peptide to secrete proteins in cells derived from different mammalian species. Protein Expression and Purification, 2017, 132, 27-33.