Difference between revisions of "Team:JiangnanU China/Results"

 
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                     In order to make <i>E. coli</i> in the laboratory resistant to phage infection, this year our team
 
                     In order to make <i>E. coli</i> in the laboratory resistant to phage infection, this year our team
 
                     first
 
                     first
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                         <img
 
                         <img
 
                                 src="https://static.igem.org/mediawiki/2019/0/09/T--JiangnanU_China--host_liubianxing.png"
 
                                 src="https://static.igem.org/mediawiki/2019/0/09/T--JiangnanU_China--host_liubianxing.png"
                                 alt="back" style="width: 6%;height:auto;">
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                                 alt="back" style="width: 6%;height:6%;">
 
                         <div class="fb_48" style="margin-left: 2%;margin-top: 1%">View all</div>
 
                         <div class="fb_48" style="margin-left: 2%;margin-top: 1%">View all</div>
 
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                 We added 1 μL of phage-infected fermentation broth to a plate containing <i>E. coli</i> BL21.
 
                 We added 1 μL of phage-infected fermentation broth to a plate containing <i>E. coli</i> BL21.
 
                 <br/>
 
                 <br/>
                 After proper culture for a period of time, plaque appeared on the plate (Fig.1.)
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                 After proper culture for a period of time, plaque appeared on the plate (Fig.1).
 
                 <br/>
 
                 <br/>
 
                 We isolated the phages from the plate and photographed them using a projective electron microscope (Fig.
 
                 We isolated the phages from the plate and photographed them using a projective electron microscope (Fig.
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             <img src="https://static.igem.org/mediawiki/2019/2/2a/T--JiangnanU_China--results_2.png"
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             <img src="https://static.igem.org/mediawiki/2019/thumb/2/23/T--JiangnanU_China--zhang.new.png/1200px-T--JiangnanU_China--zhang.new.png"
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             <div class="fm_22">
 
                 In order to screen inducible promoters, we first made the one-step growth curve of phages (Fig. 3).
 
                 In order to screen inducible promoters, we first made the one-step growth curve of phages (Fig. 3).
                 After that, we selected two time points of phage infection for 5min (in the incubation period of phage
+
                 After that, we selected two time points of phage infection for 5min (in the latent period of phage
                 infection)and phage infection for 20min (in the outbreak period of phage infection)through the one-step
+
                 infection)and phage infection for 20min (in the burst period of phage infection)through the one-step
 
                 growth curve of phage.
 
                 growth curve of phage.
                 By analyzing transcriptome data,we selected inducible promoter P<i>putA</i> (Fig.4) for 5 min and
+
                 By analyzing transcriptome data,we selected an inducible promoter P<i>putA</i> (Fig.4) for 5 min and an inducible
                inducible
+
 
                 promoter P<i>glcF</i> (Fig.5) for 20 min.
 
                 promoter P<i>glcF</i> (Fig.5) for 20 min.
 
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             <img src="https://static.igem.org/mediawiki/2019/e/e2/T--JiangnanU_China--results_3.png"
 
             <img src="https://static.igem.org/mediawiki/2019/e/e2/T--JiangnanU_China--results_3.png"
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             <img src="https://static.igem.org/mediawiki/2019/e/e8/T--JiangnanU_China--results_1.png"
 
             <img src="https://static.igem.org/mediawiki/2019/e/e8/T--JiangnanU_China--results_1.png"
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<div class="fb_22">3.1 Anti-phage part from literature</div>
                3.1 Anti-phage part from literature
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            <div class="fm_22">               
 
                 <br/>
 
                 <br/>
                 Through literature search, we found a resistant protein AbpAB that can resist T4 phage. Protein AbpAB
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                 Through literature search, we found a resistant protein AbpAB that can resist T4 phage. Protein AbpAB can inhibit the replication and late gene expression of phage, which resulted in blocking of phage propagation. AbpAB have no effect on the bacterial growth(Fig8.) which is important to the industry. However, protein AbpAB didn’t work well as we expected(Fig 9.).
                can impair the synthesis of the phage DNA and late gene transcripts, which resulted in poor expression
+
                of late proteins and consequently no phage propagation. AbpAB have no effect on the bacterial growth(Fig
+
                8.) which is important to the industry. However, protein AbpAB didn’t work well as we expected(Fig 9.).
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             <img src="https://static.igem.org/mediawiki/2019/b/b4/T--JiangnanU_China--result_4.png"
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             <img src="https://static.igem.org/mediawiki/2019/2/28/T--JiangnanU_China--abpAB.png"
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<div class="fb_22"> 3.2. Anti-phage part from mutation screening</div>
 
             <div class="fm_22">
 
             <div class="fm_22">
                3.2. Anti-phage part from mutation screening
 
 
                 <br/>
 
                 <br/>
 
                 To get more efficient phage resistant parts, we used the ARTP(Atmospheric and room temperature plasma)
 
                 To get more efficient phage resistant parts, we used the ARTP(Atmospheric and room temperature plasma)
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                 with the phage and screened the mutant strains that could resist phage infection. In the screening
 
                 with the phage and screened the mutant strains that could resist phage infection. In the screening
 
                 process, we continuously verified their resistance, eliminated the bacterial strains with degraded
 
                 process, we continuously verified their resistance, eliminated the bacterial strains with degraded
                 resistance and retained the ones with excellent resistance. Then we obtained 8 mutant strains which were
+
                 resistance and retained the ones with excellent resistance. Then we obtained 4 mutant strains which were
                 resistant to phage and four key mutation sites (nuoE, yhjH, rzpD, and gntR) through comparation of
+
                 resistant to phage and four key mutation sites (<I>nuoE</i>, <I>yhjH</i>, <I>rzpD</i>, and <i>gntR</i>) through comparation of
 
                 genome (Fig. 10). Resistance tests on these key sites were performed respectively(Fig 11.). According to
 
                 genome (Fig. 10). Resistance tests on these key sites were performed respectively(Fig 11.). According to
 
                 the advice of corporate stakeholders, if the Genetic Modified (GM) strain is to be applied in industry,
 
                 the advice of corporate stakeholders, if the Genetic Modified (GM) strain is to be applied in industry,
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                 them more in line with the real situation of production, that is, the most suitable components for
 
                 them more in line with the real situation of production, that is, the most suitable components for
 
                 industrial production. Using GRA's two evaluations of the four components at different weights, we
 
                 industrial production. Using GRA's two evaluations of the four components at different weights, we
                 selected the component gntR.(Fig 13.)
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                 selected the component <i>gntR</i>.(Fig 13.)
 
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             <img src="https://static.igem.org/mediawiki/2019/7/73/T--JiangnanU_China--result_5.png"
 
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                <img src="https://static.igem.org/mediawiki/2019/c/c8/T--JiangnanU_China--11.png"
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                <img src="https://static.igem.org/mediawiki/2019/c/c0/T--JiangnanU_China--anti-phage-data2.png"
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             <img src="https://static.igem.org/mediawiki/2019/1/16/T--JiangnanU_China--result_7.png"
 
             <img src="https://static.igem.org/mediawiki/2019/1/16/T--JiangnanU_China--result_7.png"
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             <img src="https://static.igem.org/mediawiki/2019/3/31/T--JiangnanU_China--result_8.png"
 
             <img src="https://static.igem.org/mediawiki/2019/3/31/T--JiangnanU_China--result_8.png"
 
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<div class="fb_22">3.3. Cascade of protein AbpAB and GntR</div>
 
             <div class="fm_22">
 
             <div class="fm_22">
                3.3. Cascade of protein AbpAB and GntR
 
 
                 <br/>
 
                 <br/>
 
                 First, resistant proteins AbpAB and GntR were verified by SDS-PAGE(Fig 14.)Then,We connected gntR with
 
                 First, resistant proteins AbpAB and GntR were verified by SDS-PAGE(Fig 14.)Then,We connected gntR with
                 abpAB in pET-28a plasmid , and transformed them into E. coli BL21. We co-expressed abpAB and gntR, and
+
                 abpAB in pET-28a plasmid , and transformed them into <i>E. coli</i> BL21. We co-expressed <i>abpAB</i> and <i>gntR</i>, and
 
                 subsequently obtained a recombinant strain that is resistant to phage(Fig 15.). The result showed that
 
                 subsequently obtained a recombinant strain that is resistant to phage(Fig 15.). The result showed that
 
                 two proteins works better together.
 
                 two proteins works better together.
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             <img src="https://static.igem.org/mediawiki/2019/a/a8/T--JiangnanU_China--result_9.png"
 
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             <img src="https://static.igem.org/mediawiki/2019/5/59/T--JiangnanU_China--result_10.png"
 
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                 In order to prevent the phage from escaping the attack of our resistant protein, we connected a kill
 
                 In order to prevent the phage from escaping the attack of our resistant protein, we connected a kill
                 switch p-1 (BBa_K628000) with the 20 min induction promoter(Fig 16).
+
                 switch P-1 (<a href="http://parts.igem.org/Part:BBa_K628000"color:blue;"alt="">BBa_K628000</a>) with the 20 min induction promoter(Fig 16).
 
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             <img src="https://static.igem.org/mediawiki/2019/a/ac/T--JiangnanU_China--result_11.png"
 
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                 We inoculated E. coli BL21 and recombinant E. coli BL21-pET28a-PputA-abpAB-gntR-PglcF-P-1 in LB liquid
+
                 We inoculated <i>E. coli</i> BL21 and recombinant <i>E. coli</i> BL21-pET28a-P<I>putA</I>-<i>abpAB</I>-<I>gntR</i>-P<i>glcF</i>-P-1 in LB liquid
 
                 medium to raise the logarithmic growth phase, i.e. OD 0.6-0.8 . Then the fresh phage solution was
 
                 medium to raise the logarithmic growth phase, i.e. OD 0.6-0.8 . Then the fresh phage solution was
 
                 inoculated at the same time and continuous cultured for 1-2 h. As a result, it was found that the
 
                 inoculated at the same time and continuous cultured for 1-2 h. As a result, it was found that the
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                 In addition, we cooperated with Ningxia EPPEN BIOTECH CO.,LTD (http://www.eppen.com.cn) to carry out
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                 In addition, we cooperated with <a href="http://nxyp.xafangao.com" style="color:blue;"alt="">NINGXIA EPPEN BIOTECH CO.,LTD</a> to carry out
 
                 small-scale and pilot test fermentation experiments of resistant strain in the special fermentation
 
                 small-scale and pilot test fermentation experiments of resistant strain in the special fermentation
 
                 laboratory of Jiangnan University. This ensured that our experiments were controllable without any phage
 
                 laboratory of Jiangnan University. This ensured that our experiments were controllable without any phage
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                 <br />
 
                 <br />
 
                 The fermentation laboratory is subjected to UV irradiation and ozone fumigation prior to formal
 
                 The fermentation laboratory is subjected to UV irradiation and ozone fumigation prior to formal
                 fermentation to remove phage that may be present. The E. coli BL21-pET28a-PputA-abpAB-gntR-PglcF-P-1, E.
+
                 fermentation to remove phage that may be present. The <i>E. coli</i> BL21-pET28a-P<I>putA</i>-<i>abpAB</i>-<I>gntR</i>-P<I>glcF</i>-P-1, <i>E.
                 coli BL21-pET28a-PputA-abpAB and the control (E. coli BL21) were added T4 phage after six hours of
+
                 coli</i> BL21-pET28a-P<i>putA</i>-<i>abpAB</i> and the control (<i>E. coli</i> BL21) were added T4 phage after six hours of
 
                 culture, and the fermentation was continued for 10 hours. During the fermentation, the OD was measured,
 
                 culture, and the fermentation was continued for 10 hours. During the fermentation, the OD was measured,
 
                 and the effects of the phage on the three were observed.
 
                 and the effects of the phage on the three were observed.
 
                 <br />
 
                 <br />
                 Then we used whole-cell transformation with a combination of resistant strain E. coli
+
                 Then we used whole-cell transformation with a combination of resistant strain <i>E. coli</i>
                 BL21-pET28a-PputA-abpAB-gntR-PglcF-P-1, and we got a good whole-cell transformation ability of the
+
                 BL21-pET28a-P<I>putA</I>-<I>abpAB</I>-<I>gntR</i>-P<I>glcF</i>-P-1, and we got a good whole-cell transformation ability of the
 
                 resistant strain (Figure 18).
 
                 resistant strain (Figure 18).
 
                 <br />
 
                 <br />
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Latest revision as of 01:32, 22 October 2019

JiangNan

Phage Isolation
We added 1 μL of phage-infected fermentation broth to a plate containing E. coli BL21.
After proper culture for a period of time, plaque appeared on the plate (Fig.1).
We isolated the phages from the plate and photographed them using a projective electron microscope (Fig. 2).
We finally determined that the T4 phages infected our fermentation broth by sequencing the genome of the phages.
Selection of Inducible Promoters
1.Selection
In order to screen inducible promoters, we first made the one-step growth curve of phages (Fig. 3). After that, we selected two time points of phage infection for 5min (in the latent period of phage infection)and phage infection for 20min (in the burst period of phage infection)through the one-step growth curve of phage. By analyzing transcriptome data,we selected an inducible promoter PputA (Fig.4) for 5 min and an inducible promoter PglcF (Fig.5) for 20 min.
2. Characterization
In E. coli BL21, we connected the green fluorescence gene gfp with the inducible promoter PputA for 5 min (Fig.6) and the red fluorescence gene mCherry with the inducible promoter PglcF for 20 min (Fig.7) in our genetic circuits. After infecting the bacteria with phages for the corresponding time, we observed that the infected cells gave off green and red fluorescence respectively.
3. Anti-phage Parts
When we had components that responded to phage infection, we searched for anti-phage parts through literature search and mutagenesis screening.
3.1 Anti-phage part from literature

Through literature search, we found a resistant protein AbpAB that can resist T4 phage. Protein AbpAB can inhibit the replication and late gene expression of phage, which resulted in blocking of phage propagation. AbpAB have no effect on the bacterial growth(Fig8.) which is important to the industry. However, protein AbpAB didn’t work well as we expected(Fig 9.).
3.2. Anti-phage part from mutation screening

To get more efficient phage resistant parts, we used the ARTP(Atmospheric and room temperature plasma) mutagenesis system to obtain a large number of mutant strains. Then we co-cultured the mutant strains with the phage and screened the mutant strains that could resist phage infection. In the screening process, we continuously verified their resistance, eliminated the bacterial strains with degraded resistance and retained the ones with excellent resistance. Then we obtained 4 mutant strains which were resistant to phage and four key mutation sites (nuoE, yhjH, rzpD, and gntR) through comparation of genome (Fig. 10). Resistance tests on these key sites were performed respectively(Fig 11.). According to the advice of corporate stakeholders, if the Genetic Modified (GM) strain is to be applied in industry, our components cannot have a great influence on bacterial growth. Since it is not possible to directly see from the figure which component has the least influence on the growth of the bacteria, we use the Grey Relation Analysis(GRA) method to analyze the growth curve(Fig 12.) of the bacteria connecting the various components. We used the Entropy Weight Method (EWM) to determine the weight of each growth point to select the most similarly modified strain (the highest correlation), which is the component that has the least impact on bacterial growth. At the same time, after consulting the industry experts, we revised the weights according to the experts' recommendations to evaluate the components again, making them more in line with the real situation of production, that is, the most suitable components for industrial production. Using GRA's two evaluations of the four components at different weights, we selected the component gntR.(Fig 13.)
3.3. Cascade of protein AbpAB and GntR

First, resistant proteins AbpAB and GntR were verified by SDS-PAGE(Fig 14.)Then,We connected gntR with abpAB in pET-28a plasmid , and transformed them into E. coli BL21. We co-expressed abpAB and gntR, and subsequently obtained a recombinant strain that is resistant to phage(Fig 15.). The result showed that two proteins works better together.
4. Assembly and application
In order to prevent the phage from escaping the attack of our resistant protein, we connected a kill switch P-1 (BBa_K628000) with the 20 min induction promoter(Fig 16).
We inoculated E. coli BL21 and recombinant E. coli BL21-pET28a-PputA-abpAB-gntR-PglcF-P-1 in LB liquid medium to raise the logarithmic growth phase, i.e. OD 0.6-0.8 . Then the fresh phage solution was inoculated at the same time and continuous cultured for 1-2 h. As a result, it was found that the recombinant grew well.(Fig 17.).
In addition, we cooperated with NINGXIA EPPEN BIOTECH CO.,LTD to carry out small-scale and pilot test fermentation experiments of resistant strain in the special fermentation laboratory of Jiangnan University. This ensured that our experiments were controllable without any phage and engineered bacteria leaking.
We transferred the constructed plasmid into an engineering bacteria strain producing γ-aminobutyric acid (GABA).
The fermentation laboratory is subjected to UV irradiation and ozone fumigation prior to formal fermentation to remove phage that may be present. The E. coli BL21-pET28a-PputA-abpAB-gntR-PglcF-P-1, E. coli BL21-pET28a-PputA-abpAB and the control (E. coli BL21) were added T4 phage after six hours of culture, and the fermentation was continued for 10 hours. During the fermentation, the OD was measured, and the effects of the phage on the three were observed.
Then we used whole-cell transformation with a combination of resistant strain E. coli BL21-pET28a-PputA-abpAB-gntR-PglcF-P-1, and we got a good whole-cell transformation ability of the resistant strain (Figure 18).
From the results, our resistant composite part has great advantages in the production of γ-aminobutyric acid and are not threatened by T4 phage. The productivity of γ-aminobutyric acid is 278.3 g/L, and the molar conversion rate is really high, reaching 98.4%(Table 1.), which means that the circuit we built can be used in production without any impact (Figure 19).
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