Difference between revisions of "Team:British Columbia/Proof"

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As a part of our design, we have developed a functional prototype of the proposed consortium. In the prototype co-culture, cellulases expressed on <i>C.crescentus</i> surface degrade cellulose to serve as the substrate for <i>E.coli</i> which is producing β-carotene. Due to the slow rate of cellulose degradation by expressed cellulases, shown in our modelling section, culture lengths for the prototype experiment were three days or longer. <i>E.coli</i> and <i>C.crescentus</i> containing the recombinant plasmids were inoculated in M2 media with 0.2% cellulose as the sole carbon source. <i>C.crescentus</i> strains expressing Endo5A and Gluc1C cellulase enzymes were cultured alongside <i>E.coli</i> to determine the best candidates for a consortium. As a control, <i>C.crescentus</i> without cellulase expression genes were seeded with <i>E.coli</i> using it as a negative control for cellulose degradation. Over the course of three days, samples were taken and plated. These plated cultures can be identified based on either species unique morphology.</p>
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As a part of our design, we have developed a functional prototype of the proposed consortium. In the prototype co-culture, cellulases expressed on <i>C.crescentus</i> surface degrade cellulose to serve as the substrate for <i>E.coli</i> which is producing β-carotene. Due to the slow rate of cellulose degradation by expressed cellulases, shown in our modelling section, culture lengths for the prototype experiment were three days or longer. <i>E.coli</i> and <i>C.crescentus</i> containing the recombinant plasmids were inoculated in M2 media with 0.2% cellulose as the sole carbon source and supplemented with 2 μg/ml chloramphenicol to maintain the <i>C.crescentus</i> and <i>E.coli</i> plasmids. <i>C.crescentus</i> strains expressing Endo5A and Gluc1C cellulase enzymes were cultured alongside <i>E.coli</i>, and the consortia consisting of Endo5A, Gluc1C and <i>E.coli</i> to obtain synergistic interactions. As a control, <i>C.crescentus</i> without cellulase expression genes were seeded with <i>E.coli</i> using it as a negative control for cellulose degradation. Over the course of three days, samples were taken and plated. These plated cultures can be identified based on either species unique morphology.</p>
  
 
<p>A measurement of OD600 indicates that the growth has occurred in several conditions with cellulose as the only substrate. Cultures containing <i>C.crescentus</i> expressing Endo5A cellulases seem to be most prolific. For these cultures, based on plate count data, <i>E.coli</i> growth has increased compared to cultures grown without cellulase expressing cells. In the cultures containing <i>C.crescentus</i> expressing Gluc1C, the ratio of <i>E.coli</i> to <i>C.crescentus</i> is nearly equal to the control, while in cultures containing <i>C.crescentus</i> expressing Endo5A, have a dominant <i>C.crescentus</i> population. This result likely indicates that there are diffusion limitations for glucose in the conditions with Endo5A expressing <i>C.crescentus</i>. A culture with mixed Endo5A and Gluc1C expressing <i>C.crescentus</i> seems to have increased <i>C.crescentus</i> growth, possibly due to the Endo5A expressing cells proliferating more rapidly. A marked increase in <i>E.coli</i> growth relative to the control cultures without expressed cellulases indicate the potential for our system.</p>
 
<p>A measurement of OD600 indicates that the growth has occurred in several conditions with cellulose as the only substrate. Cultures containing <i>C.crescentus</i> expressing Endo5A cellulases seem to be most prolific. For these cultures, based on plate count data, <i>E.coli</i> growth has increased compared to cultures grown without cellulase expressing cells. In the cultures containing <i>C.crescentus</i> expressing Gluc1C, the ratio of <i>E.coli</i> to <i>C.crescentus</i> is nearly equal to the control, while in cultures containing <i>C.crescentus</i> expressing Endo5A, have a dominant <i>C.crescentus</i> population. This result likely indicates that there are diffusion limitations for glucose in the conditions with Endo5A expressing <i>C.crescentus</i>. A culture with mixed Endo5A and Gluc1C expressing <i>C.crescentus</i> seems to have increased <i>C.crescentus</i> growth, possibly due to the Endo5A expressing cells proliferating more rapidly. A marked increase in <i>E.coli</i> growth relative to the control cultures without expressed cellulases indicate the potential for our system.</p>
  
 
<p>
 
<p>
To confirm that the <i>E.coli</i> densities were higher in the co-cultures containing Endo5A and Gluc1C cellulases, samples from each culture were plated after 6 days of growth on PYE and culture at 37 degrees Celsius. These conditions do not permit <i>C.crescentus</i> growth, and as a result, the relative cell density grown from each sample is directly proportional to the <i>E.coli</i> density in each culture. When the colony forming units were counted, there was nearly a four-fold increase in the number of E.coli existing in cultures containing <i>C.crescentus</i> with Endo5A expression. In the cultures containing <i>C.crescentus</i> only expressing Gluc1C, there was no clear difference in <i>E.coli</i> growth compared to the control cultures. The densities of <i>E.coli</i> in each culture can be seen in Figure 3.
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To confirm that the <i>E.coli</i> densities were higher in the co-cultures containing Endo5A and Gluc1C cellulases, samples from each culture were plated on LB plates after 6 days of growth and culture at 37 degrees Celsius. These conditions do not permit <i>C.crescentus</i> growth, and as a result, the relative cell density grown from each sample is directly proportional to the <i>E.coli</i> density in each culture. When the colony forming units were counted, there was nearly a four-fold increase in the number of E.coli existing in cultures containing <i>C.crescentus</i> with Endo5A expression. In the cultures containing <i>C.crescentus</i> only expressing Gluc1C, there was no clear difference in <i>E.coli</i> growth compared to the control cultures. The densities of <i>E.coli</i> in each culture can be seen in Figure 1.
 
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<img src="https://static.igem.org/mediawiki/2016/b/b7/British_Columbia_Ecoli_Densities.png"
 
<img src="https://static.igem.org/mediawiki/2016/b/b7/British_Columbia_Ecoli_Densities.png"
style="width: 800px; display: table; margin: 0 auto; max-width: 100%"><p align="justify"><b>Figure 3</b>: <i>E.coli</i> densities in the different mixed culture systems</p>
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style="width: 800px; display: table; margin: 0 auto; max-width: 100%"><p align="justify"><b>Figure 1</b>: <i>E.coli</i> densities in the different mixed culture systems after 6 days of growth on cellulose</p>
  
<p>This experiment validates the design, showing the possibility for <i>E.coli</i> growth and product formation supported by cheap cellulose feed stock. <i>Caulobacter</i> is able to transforming raw biomass into fermentable sugars to sustain its own growth and the growth <i>E.coli</i> partner.</p>
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<p>This experiment validates the design, showing the possibility for <i>E.coli</i> growth and product formation supported by cheap cellulose feed stock. <i>Caulobacter</i> is able to transform raw biomass into fermentable sugars to sustain its own growth and the growth of <i>E.coli</i> partner in the consortia.</p>
  
  

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Proof

Proof

As a part of our design, we have developed a functional prototype of the proposed consortium. In the prototype co-culture, cellulases expressed on C.crescentus surface degrade cellulose to serve as the substrate for E.coli which is producing β-carotene. Due to the slow rate of cellulose degradation by expressed cellulases, shown in our modelling section, culture lengths for the prototype experiment were three days or longer. E.coli and C.crescentus containing the recombinant plasmids were inoculated in M2 media with 0.2% cellulose as the sole carbon source and supplemented with 2 μg/ml chloramphenicol to maintain the C.crescentus and E.coli plasmids. C.crescentus strains expressing Endo5A and Gluc1C cellulase enzymes were cultured alongside E.coli, and the consortia consisting of Endo5A, Gluc1C and E.coli to obtain synergistic interactions. As a control, C.crescentus without cellulase expression genes were seeded with E.coli using it as a negative control for cellulose degradation. Over the course of three days, samples were taken and plated. These plated cultures can be identified based on either species unique morphology.

A measurement of OD600 indicates that the growth has occurred in several conditions with cellulose as the only substrate. Cultures containing C.crescentus expressing Endo5A cellulases seem to be most prolific. For these cultures, based on plate count data, E.coli growth has increased compared to cultures grown without cellulase expressing cells. In the cultures containing C.crescentus expressing Gluc1C, the ratio of E.coli to C.crescentus is nearly equal to the control, while in cultures containing C.crescentus expressing Endo5A, have a dominant C.crescentus population. This result likely indicates that there are diffusion limitations for glucose in the conditions with Endo5A expressing C.crescentus. A culture with mixed Endo5A and Gluc1C expressing C.crescentus seems to have increased C.crescentus growth, possibly due to the Endo5A expressing cells proliferating more rapidly. A marked increase in E.coli growth relative to the control cultures without expressed cellulases indicate the potential for our system.

To confirm that the E.coli densities were higher in the co-cultures containing Endo5A and Gluc1C cellulases, samples from each culture were plated on LB plates after 6 days of growth and culture at 37 degrees Celsius. These conditions do not permit C.crescentus growth, and as a result, the relative cell density grown from each sample is directly proportional to the E.coli density in each culture. When the colony forming units were counted, there was nearly a four-fold increase in the number of E.coli existing in cultures containing C.crescentus with Endo5A expression. In the cultures containing C.crescentus only expressing Gluc1C, there was no clear difference in E.coli growth compared to the control cultures. The densities of E.coli in each culture can be seen in Figure 1.

Figure 1: E.coli densities in the different mixed culture systems after 6 days of growth on cellulose

This experiment validates the design, showing the possibility for E.coli growth and product formation supported by cheap cellulose feed stock. Caulobacter is able to transform raw biomass into fermentable sugars to sustain its own growth and the growth of E.coli partner in the consortia.

Check out other parts of our project below!