Difference between revisions of "Team:CKWA-China/Contribution"

 
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                 <h1>Content</h1>
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                 <h1>Contribution</h1>
 
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                     <li><a href="https://2021.igem.org/Team:CKWA-China">Home</a></li>
 
                     <li><a href="https://2021.igem.org/Team:CKWA-China">Home</a></li>
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                     <li>Contribution</li>
 
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                                src="https://static.igem.org/mediawiki/2021/2/2f/T--CKWA-China--slide3.jpg" alt=""></a></figure>
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                        <h2>Vinyle sheets Design in Japan</h2>
 
                        <ul class="info">
 
                            <li>
 
                                <h4>Date</h4><span>12 May 2021</span>
 
                            </li>
 
                            <li>
 
                                <h4>Client Name</h4><span>Jacika Montano</span>
 
                            </li>
 
                            <li>
 
                                <h4>Project Type</h4><span>Word</span>
 
                            </li>
 
                        </ul>
 
                    </div>
 
 
                    <h5>Vinyle Sheet Design is simply dummy text of the printing and typesetting industry. Lorem Ipsum
 
                        has been the industry's standard dummy text ever since the 1500s, when an unknown printer took a
 
                        galley of type and scrambled it to make a type specimen book.</h5>
 
 
                    <p>It has survived not only five centuries, but also the leap into electronic typesetting, remaining
 
                        essentially unchanged. It was popularised in the 1960s with the release of Letraset sheets
 
                        containing Lorem Ipsum passages, and more recently with desktop publishing software like Aldus
 
                        PageMaker including versions of Lorem Ipsum. It is a long established fact that a reader will be
 
                        distracted by the readable content of a page when looking at its layout. The point of using
 
                        Lorem Ipsum is that it has a more-or-less normal distribution of letters, as opposed to using
 
                        'Content here, content here', making it look like readable English. Many desktop publishing
 
                        packages and web page editors now use Lorem Ipsum as their default model text, and a search for
 
                        'lorem ipsum' will uncover many web sites still in their infancy. Various versions have evolved
 
                        over the years, sometimes by accident, sometimes on purpose (injected humour and the like).</p>
 
 
                  
 
                  
                        <h2 class="point" id="point-1">Literature Review</h2>
 
                        <p>As we all know, potato (Solanum tuberosum) is a globally important high-yield crop that produces nutrient-rich tubers. This non-grain crop is the third most important food crop, after wheat and rice (Patil et al.2017). One of the major threats to potato production is soft rot disease caused by Erwinia bacteria, which generally occur during cultivation, harvesting or transportation and storage of farm produce, resulting in considerable yield reduction, poor quality of produce, and economic loss. In Kenya, it causes up to 50% total crop loss (Onkendi and Moleleki 2014; Muturi et al.2018).</p>
 
                        <p>Different approaches to soft rot disease control have been developed and applied. The effectiveness of the phages in preventing infection of potato tubers by P. carotovorum was tested in laboratory experiments The management of potato diseases is based on a massive use of chemical pesticides, causing environmental pollution and ecological destruction. Although some researches about environmental-friendly pest management approaches have been reported, there are still many problems in effect and safety aspects.</p>
 
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                                        <p>We then recognized an absence in both detection and treatment of Soft Rot Disease. Therefore, we understood the importance of a bio-control solution that is not only effective but also environmentally-friendly. Based on knowledge of the field of synthetic biology, we started to come up with different approaches to soft rot detection and treatment.</p>
 
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                                        <div class="image"><a href="" class="lightbox-image"><img src="https://static.igem.org/mediawiki/2020/c/cb/T--iBowu-China--keystone1.png" alt=""></a>
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                                        </div>
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                        <h2 class="point" id="point-1">Contribution</h2>
                                    </div>
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                      <h2 class="point" id="point-1"> <a href="http://parts.igem.org/Part:BBa_C0012#CKWA-China_2021_Contribution">Part BBa_C0012</a></h2>
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                            <!-- 全文字排版 -->
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                            <h3 class="point" id="point-2">Interview(Potato Center Asia-Pacific Headquarter)</h3>
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                            <p>We met with senior staffs of the potato center Asia-Pacific Headquarter to learn about the current detection and treatments of potato diseases. We then visited their workplace, which accounted for a large proportion of the current potato-agricultural development. We presented our initial concept to the experts (including the chairman of the potato center, Mr. Lu) and audited a group meeting on agricultural pharmacology. Through the discussions with them, we became more aware of the consequences of Soft Rot disease and the importance of creating an effective bio-control solution.</p>
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                                        <div class="image"><a href="./images/image-2.jpg" class="lightbox-image"><img src="https://static.igem.org/mediawiki/2020/c/cb/T--iBowu-China--keystone1.png" alt=""></a>
 
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                                        <div class="image"><a href="./images/image-2.jpg" class="lightbox-image"><img src="https://static.igem.org/mediawiki/2020/c/cb/T--iBowu-China--keystone1.png" alt=""></a>
 
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                            <!-- 视频排版 -->
 
                            <h3 class="point" id="point-3">Experts</h3>
 
                            <p>Our team had the pleasure of meeting with Dr. Flemming Bensenbacher on 5th July 2019. Dr. Bensenbacer is an academician of the Royal Danish academy of Sciences and President of Carlsberg Foundation. He shared his journey in scientific research with us and the problems he encountered and tackled. We presented our project to him and hosted an interview with questions relating to the application of synthetic biology. This opportunity was crucial to us as we gained from it a valuable depth of knowledge in the potential future pathways of our product development.</p>
 
 
                             <p>
 
                             <p>
                                <video style="width: 100%;" src="video/mda-kc21c5bv2fig3ieu.mp4" controls="“ture”"></video>
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We were able to complete experiments and made measurement on our parts. For Bronze medal, we contributed to the part <a href="http://parts.igem.org/Part:BBa_C0012#CKWA-China_2021_Contribution">Part BBa_C0012</a>
                            </p>
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</br>
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<p>
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We use LacI for expression of Lon protease. The E. coli we used are BL21, Rosetta and similar bateria. According to the reference articles, this Lon protease decomposes C-Myc protein commonly found in cancer cells. Because of this potential, the protease is planned to be used to make medicine to suppress cancer recurrence.
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</p>
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<p>
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We designed to use LacI and LacO together to produce the Lon protease in a commonly used plasmid. The plasmid structure works as shown in the figure below.
 +
</p>
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<div class="image-box">
 +
                    <figure> <img
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                                src="https://static.igem.org/mediawiki/2021/3/3c/T--CKWA-China--tj1.jpg" width="500" alt=""></figure>
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<p><center>Figure.1.The designed use of the part LacI.</center></p>
 
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<p>
  
                <div class="two-column">
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</p>
                        <div class="image-column col-md-5 col-sm-12 col-xs-12">
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                            <div class="image"><a href="" class="lightbox-image"><img
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<p>
                                        src="https://static.igem.org/mediawiki/2020/c/cb/T--iBowu-China--keystone1.png" alt=""></a></div>
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For the measurement, E. coli Rosetta containing the designed plasmid was incubated at 37C overnight with 1mM IPTG added. Then the cells are lysed by 200 μL 4% SDS for 10 minutes in room temperature, then 10 min at 95C. Then loading buffer is added. The SDS-PAGE was carried with a 12% precast polyacrylamide gel. Coomassie bright blue stain is used to show the bands.
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</p>
                        <div class="info-column col-md-7 col-sm-12 col-xs-12">
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                            <div class="inner-column">
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<p>
                                <h2>Project Analysis</h2>
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With this induction conditions, first test failed to observe a clear band of Lon protein. The bacteria culture was also relatively clear. It is possible that Lon protease has been decomposing the proteins needed for E. coli growth. Because the bacteria growth was suppressed by the Lon protease, its own production was low.
                                <span class="sub-title">We Reserch deeply to give the best quality services.</span>
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</p>
                                <h5>Here our project analysis result.</h5>
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                                <ul class="list-style-one">
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<p>
                                    <li>It was popularised in the with the release of sheets containing Lorem Ipsum</li>
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                                    <li>Page Maker including versions of Lorem Ipsum.</li>
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        <center>    <img
                                    <li>It is a long established fact that a reader will be distracted by the readable
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                                src="https://static.igem.org/mediawiki/2021/1/17/T--CKWA-China--hong0.jpg" width="500" alt="">
                                    </li>
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<p>Figure.2. Bacteria Culture overnight and the SDS-PAGE results with/without iPTG.</p></center>
                                    <li>content of a page when looking at its layout. The point of using Lorem Ipsum
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                                    </li>
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                                    <li>is that it has ult model text, and a search for 'lorem ipsum' will uncover many
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</p>
                                        web</li>
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<p></br>
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When there is LacI and there is LacO before the Lon gene sequence, IPTG can be used to control the expression. The control can be tuned by the concentration and timing of induction. We then changed our condition: the bacteria were cultured on LB plate overnight at 37C, and then pick a single colony and incubate in LB medium until the OD600 reached 0.6-0.8. At this time, IPTG was added at 0.5 mM, and the medium was again incubated at 37C for another 4 hours. This time the SDS-PAGE results showed remarkable expression of the Lon protease. The results confirmed the capability of this part, and also showed for better protein expression and better bateria growth, the timing for induction should also be considered and experimented.
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</p>
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<p>
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<h3 class="point" id="point-2">Summary</h3>
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</p>
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<p>
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This part LacI can work with LacO in E. coli Rosseta to control the protein production. The control power has important meanings for some special proteins like Lon protease, which can suppress bacteria growth. Our results suggested at 0.5mM IPTG concentration and an induction timing at OD600=0.6~0.8 can help improve the production target protein.</p>
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<p>
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            <center>       <img
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                                 src="https://static.igem.org/mediawiki/parts/0/06/T--CKWA-China-Lon2.jpg" width="500" alt="">
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<p>Figure.3. Expression of Lon protease confirmed in SDS-PAGE.</p></center>
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Latest revision as of 09:32, 21 October 2021

Contribution

Contribution

Part BBa_C0012

We were able to complete experiments and made measurement on our parts. For Bronze medal, we contributed to the part Part BBa_C0012


We use LacI for expression of Lon protease. The E. coli we used are BL21, Rosetta and similar bateria. According to the reference articles, this Lon protease decomposes C-Myc protein commonly found in cancer cells. Because of this potential, the protease is planned to be used to make medicine to suppress cancer recurrence.

We designed to use LacI and LacO together to produce the Lon protease in a commonly used plasmid. The plasmid structure works as shown in the figure below.

Figure.1.The designed use of the part LacI.

For the measurement, E. coli Rosetta containing the designed plasmid was incubated at 37C overnight with 1mM IPTG added. Then the cells are lysed by 200 μL 4% SDS for 10 minutes in room temperature, then 10 min at 95C. Then loading buffer is added. The SDS-PAGE was carried with a 12% precast polyacrylamide gel. Coomassie bright blue stain is used to show the bands.

With this induction conditions, first test failed to observe a clear band of Lon protein. The bacteria culture was also relatively clear. It is possible that Lon protease has been decomposing the proteins needed for E. coli growth. Because the bacteria growth was suppressed by the Lon protease, its own production was low.

Figure.2. Bacteria Culture overnight and the SDS-PAGE results with/without iPTG.


When there is LacI and there is LacO before the Lon gene sequence, IPTG can be used to control the expression. The control can be tuned by the concentration and timing of induction. We then changed our condition: the bacteria were cultured on LB plate overnight at 37C, and then pick a single colony and incubate in LB medium until the OD600 reached 0.6-0.8. At this time, IPTG was added at 0.5 mM, and the medium was again incubated at 37C for another 4 hours. This time the SDS-PAGE results showed remarkable expression of the Lon protease. The results confirmed the capability of this part, and also showed for better protein expression and better bateria growth, the timing for induction should also be considered and experimented.

Summary

This part LacI can work with LacO in E. coli Rosseta to control the protein production. The control power has important meanings for some special proteins like Lon protease, which can suppress bacteria growth. Our results suggested at 0.5mM IPTG concentration and an induction timing at OD600=0.6~0.8 can help improve the production target protein.

Figure.3. Expression of Lon protease confirmed in SDS-PAGE.