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This plasmid is one of two plasmids constructing our <a href="https://2016.igem.org/Team:Technion_Israel/Design">FlashLab</a> system, as | This plasmid is one of two plasmids constructing our <a href="https://2016.igem.org/Team:Technion_Israel/Design">FlashLab</a> system, as | ||
− | the other is plasmid expressing a chemoreceptor. The two plasmids | + | the other is plasmid expressing a chemoreceptor. The two plasmids were |
co-transformed to UU1250 strain expressing both, the designed | co-transformed to UU1250 strain expressing both, the designed | ||
− | receptor and a chosen color. Each plasmid contains different antibiotic | + | receptor and a chosen color. <br>Each plasmid contains different antibiotic |
resistance allowing easy screening for strain expressing both proteins. | resistance allowing easy screening for strain expressing both proteins. | ||
</p> | </p> | ||
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medium that appeared as colored, due to high concentration of | medium that appeared as colored, due to high concentration of | ||
bacteria expressing chromoproteins. The results of centrifuging the medium | bacteria expressing chromoproteins. The results of centrifuging the medium | ||
− | sample was a colored pellet (Fig 1). | + | sample was a colored pellet (Fig. 1). |
</p> | </p> | ||
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<img src="https://static.igem.org/mediawiki/2016/c/c6/T--Technion_Israel--color2.png" class="img-responsive img-center img-cont" width="450" style="cursor: pointer;"> | <img src="https://static.igem.org/mediawiki/2016/c/c6/T--Technion_Israel--color2.png" class="img-responsive img-center img-cont" width="450" style="cursor: pointer;"> | ||
</a> | </a> | ||
− | <p class="text-center"><b>Fig. 1:</b> <i>E.coli</i> Top10 strain expressing (left to right): mRFP, tsPurple, amilCP.</p> | + | <p class="text-center"><b>Fig. 1:</b> <i>E.coli</i> Top10 strain expressing (left to right): mRFP - visible as red color, tsPurple - visible as purple color, amilCP - visible as blue color.</p> |
</div> | </div> | ||
</div> | </div> | ||
− | + | <br> | |
+ | <br> | ||
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<div class="col-md-12 col-sm-12"> | <div class="col-md-12 col-sm-12"> | ||
<p class="text-justify"> | <p class="text-justify"> | ||
− | As both | + | As both strains showed similar results, the following experiments conducted |
only with the UU1250 strain, the strain which was used for chemotaxis assays. | only with the UU1250 strain, the strain which was used for chemotaxis assays. | ||
Growth conditions for chemotaxis assays require a minimal growth medium, | Growth conditions for chemotaxis assays require a minimal growth medium, | ||
− | TB, and a temperature of 30℃(1).<br> Overnight growing | + | TB, and a temperature of 30℃. Above this temperature the bacteria lose their chemotaxis ability.(1).<br> Overnight growing in this condition, |
of UU1250 strain expressing chromoproteins resulted in a colorless medium, | of UU1250 strain expressing chromoproteins resulted in a colorless medium, | ||
although bacterial concentration was high. In order to overcome this issue, two different growth conditions were tested. Incubation | although bacterial concentration was high. In order to overcome this issue, two different growth conditions were tested. Incubation | ||
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At 37℃ TB medium, color was detected. The color was less intense | At 37℃ TB medium, color was detected. The color was less intense | ||
compared to the 37℃ LB medium, but still high enough to be detected by | compared to the 37℃ LB medium, but still high enough to be detected by | ||
− | a naked eye. Moreover the pellet's color intensity was similar to the one grown 37℃ | + | a naked eye. Moreover, the pellet's color intensity was similar to the one grown 37℃ |
− | LB pellet. As for the 30℃ LB medium no color was detected after | + | LB pellet. As for the 30℃ LB medium, no color was detected after |
overnight growth. In addition, the pellet was also colorless. | overnight growth. In addition, the pellet was also colorless. | ||
<br>These results imply that the growth temperature | <br>These results imply that the growth temperature | ||
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To achieve color intensity at the right conditions a two-stage | To achieve color intensity at the right conditions a two-stage | ||
growth was conducted. The first stage is incubation at 37℃ | growth was conducted. The first stage is incubation at 37℃ | ||
− | LB medium in order to gain a high expression of chromoproteins. | + | in LB medium in order to gain a high expression of chromoproteins. |
− | The culture is then | + | The culture is then centrifuged and resuspend with TB medium. |
The second stage is incubation at 30℃ for 3 hours, for restoring | The second stage is incubation at 30℃ for 3 hours, for restoring | ||
chemotaxis abilities. This two-stage growth allows both color | chemotaxis abilities. This two-stage growth allows both color | ||
− | expression and chemotaxis ability to the bacteria and | + | expression and chemotaxis ability to the bacteria, and |
was proven to be effective in matter for chromoprotein | was proven to be effective in matter for chromoprotein | ||
expression, as for chemotaxis ability test, the two palsmid system was conducted. | expression, as for chemotaxis ability test, the two palsmid system was conducted. | ||
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</div> | </div> | ||
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<a href="https://2016.igem.org/Team:Technion_Israel/Design">FlashLab</a> system is based on a two-plasmid system, where motile bacteria express both | <a href="https://2016.igem.org/Team:Technion_Israel/Design">FlashLab</a> system is based on a two-plasmid system, where motile bacteria express both | ||
− | chromoproteins using two different expression plasmids. In order to verify the idea Tar was chosen as the chemoreceptor and amilCP as the chromoprotein. The first | + | chromoproteins, using two different expression plasmids. In order to verify the idea, Tar was chosen as the chemoreceptor and amilCP (blue color) as the chromoprotein. The first |
− | plasmid (<a href="http://parts.igem.org/Part:BBa_K1992004" target="_blank">K1992004</a>) expresses the Tar chemoreceptor | + | plasmid (<a href="http://parts.igem.org/Part:BBa_K1992004" target="_blank">K1992004</a>) expresses the Tar chemoreceptor, |
− | + | along with chloramphenicol (CM) resistance. The second | |
plasmid expresses a chromoprotein (see Implementation – | plasmid expresses a chromoprotein (see Implementation – | ||
− | part | + | part have not been submitted) along with ampicillin (Amp) |
− | resistance. Follolwing transformation of the two plasmids into UU1250 strain, the colonies were selected by plating on LB agar plates with two antibiotic. The plating results | + | resistance. Follolwing transformation of the two plasmids into UU1250 strain (which lacks chemoreceptors genes), the colonies were selected by plating on LB agar plates with two antibiotic. The plating results |
− | showed colored colonies and non-colored ones (Fig 2), that is due to the | + | showed colored colonies and non-colored ones (Fig. 2), that is due to the |
non-compatible ORI of the two plasmids (see Outlook section). | non-compatible ORI of the two plasmids (see Outlook section). | ||
</p> | </p> | ||
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− | The colored colonies were isolated and grown using the two-stage | + | The colored colonies were isolated and grown, using the two-stage |
growth method mentioned previously. The result is high density | growth method mentioned previously. The result is high density | ||
− | and colored medium (Fig 3). | + | and colored medium (Fig. 3). |
</p> | </p> | ||
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The sample was then tested for chemotaxis ability using | The sample was then tested for chemotaxis ability using | ||
− | <a href="https://2016.igem.org/Team:Technion_Israel/Experiments">swarming assay</a> (Fig 4). A halo was formed after | + | <a href="https://2016.igem.org/Team:Technion_Israel/Experiments">swarming assay</a>, in which the chemotaxis ability is examined in a swarm plate. The bacteria depleting the attractant and move outwards, creating a halo. (Fig. 4). A halo was formed after |
8 hours indicating functional chemotaxis response. For our | 8 hours indicating functional chemotaxis response. For our | ||
− | <a href="https://2016.igem.org/Team:Technion_Israel/Experiments">chip assay</a> more intense color was needed. Thus, the sample was | + | <a href="https://2016.igem.org/Team:Technion_Israel/Experiments">chip assay</a> more intense color was needed. Thus, the sample was centrifuged and resuspended in a smaller volume |
− | of TB medium, increasing the bacterial concentration by 10 folds. | + | of TB medium, increasing the bacterial concentration by 10-folds. |
Results can be seen in the <a href="https://2016.igem.org/Team:Technion_Israel/Proof">Proof of concept page</a>. | Results can be seen in the <a href="https://2016.igem.org/Team:Technion_Israel/Proof">Proof of concept page</a>. | ||
</p> | </p> | ||
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<p class="text-justify"> | <p class="text-justify"> | ||
− | We succeeded to get colored bacteria grown in the optimal condition of our assay | + | We succeeded to get colored bacteria, grown in the optimal condition of our assay, |
− | + | though both the chemoproteins and the receptors were cloned on high copy | |
plasmid with the same ORI - pMB1 (pSB1C3 and pSB1A2). Usually, plasmids with the | plasmid with the same ORI - pMB1 (pSB1C3 and pSB1A2). Usually, plasmids with the | ||
− | same ORIs are incompatible because they will compete for the same machinery, | + | same ORIs are incompatible, because they will compete for the same machinery, |
− | creating an unstable and unpredictable environment. For future plan we suggest to | + | creating an unstable and unpredictable environment. For future plan, we suggest to |
clone one of the expression systems to a plasmid containing different ORI, | clone one of the expression systems to a plasmid containing different ORI, | ||
compatible to pMB1 ORI. This adjustment will improve the stability of our | compatible to pMB1 ORI. This adjustment will improve the stability of our | ||
− | system and allow better control over the expression of each protein. | + | system, and allow better control over the expression of each protein. |
</p> | </p> | ||
</div> | </div> |
Latest revision as of 03:57, 20 October 2016
Introduction
Chromogenic proteins usually serve as a useful reporter in determining gene expression levels without the need of a fluorescent microscope. However, the FlashLab technology implements these chromogenic proteins for a different purpose. Due to the chips structure, when the bacteria moves towards or away from substance - a cluster is formed, and the presence of chromogenic proteins allows the user to spot it in the naked eye, without the need for a complex device (for more information about our chip click here).
Implementation
Three chromogenic proteins (chromoproteins) were tested for the S.Tar
system, all which were provided and extracted from the iGEM 2016 kit.
Each part contained RBS, chromoproteins coding sequence and a double
terminator. The different parts contained the following proteins:
- tsPurple, visible as purple color (K1357008).
- amilCP, visible as blue color (K1357009).
- mRFP, visible as red color and can serve, also ,as red fluorescence protein (K1357010).
To test the expression and visibility of those proteins, a strong promoter
(J23100) was cloned
upstream to the RBS using the RFC10 assembly (Fig. 1).
This plasmid is one of two plasmids constructing our FlashLab system, as
the other is plasmid expressing a chemoreceptor. The two plasmids were
co-transformed to UU1250 strain expressing both, the designed
receptor and a chosen color.
Each plasmid contains different antibiotic
resistance allowing easy screening for strain expressing both proteins.
Results
The first step, as mentioned in the implementation section, was to clone a strong promoter (J23100) upstream to each part, creating a high expression system. The biological system was then transformed to E.coli Top10 strain and UU1250 strain. Plating results showed colored colonies, for both strains, as expected. Colored colony from each type was incubated overnight at 37℃ in LB medium. Overnight incubation resulted in a medium that appeared as colored, due to high concentration of bacteria expressing chromoproteins. The results of centrifuging the medium sample was a colored pellet (Fig. 1).
As both strains showed similar results, the following experiments conducted
only with the UU1250 strain, the strain which was used for chemotaxis assays.
Growth conditions for chemotaxis assays require a minimal growth medium,
TB, and a temperature of 30℃. Above this temperature the bacteria lose their chemotaxis ability.(1).
Overnight growing in this condition,
of UU1250 strain expressing chromoproteins resulted in a colorless medium,
although bacterial concentration was high. In order to overcome this issue, two different growth conditions were tested. Incubation
at 37℃ in TB medium and incubation at 30℃ in LB medium.
At 37℃ TB medium, color was detected. The color was less intense
compared to the 37℃ LB medium, but still high enough to be detected by
a naked eye. Moreover, the pellet's color intensity was similar to the one grown 37℃
LB pellet. As for the 30℃ LB medium, no color was detected after
overnight growth. In addition, the pellet was also colorless.
These results imply that the growth temperature
has a significant influence on the chromoprotein expression.
To achieve color intensity at the right conditions a two-stage
growth was conducted. The first stage is incubation at 37℃
in LB medium in order to gain a high expression of chromoproteins.
The culture is then centrifuged and resuspend with TB medium.
The second stage is incubation at 30℃ for 3 hours, for restoring
chemotaxis abilities. This two-stage growth allows both color
expression and chemotaxis ability to the bacteria, and
was proven to be effective in matter for chromoprotein
expression, as for chemotaxis ability test, the two palsmid system was conducted.
The two plasmid system
FlashLab system is based on a two-plasmid system, where motile bacteria express both chromoproteins, using two different expression plasmids. In order to verify the idea, Tar was chosen as the chemoreceptor and amilCP (blue color) as the chromoprotein. The first plasmid (K1992004) expresses the Tar chemoreceptor, along with chloramphenicol (CM) resistance. The second plasmid expresses a chromoprotein (see Implementation – part have not been submitted) along with ampicillin (Amp) resistance. Follolwing transformation of the two plasmids into UU1250 strain (which lacks chemoreceptors genes), the colonies were selected by plating on LB agar plates with two antibiotic. The plating results showed colored colonies and non-colored ones (Fig. 2), that is due to the non-compatible ORI of the two plasmids (see Outlook section).
Fig. 2: Co-transformation of K1992004 and tsPurple expressing plasmid to UU1250 strain.
The colored colonies were isolated and grown, using the two-stage growth method mentioned previously. The result is high density and colored medium (Fig. 3).
Fig. 3: Left tube - UU1250 strain expressing Tar chemoreceptor only (K1992004). Right tube - UU1250 strain expressing Tar chemoreceptor and tsPurple chromoprotein.
The sample was then tested for chemotaxis ability using swarming assay, in which the chemotaxis ability is examined in a swarm plate. The bacteria depleting the attractant and move outwards, creating a halo. (Fig. 4). A halo was formed after 8 hours indicating functional chemotaxis response. For our chip assay more intense color was needed. Thus, the sample was centrifuged and resuspended in a smaller volume of TB medium, increasing the bacterial concentration by 10-folds. Results can be seen in the Proof of concept page.
Outlook
We succeeded to get colored bacteria, grown in the optimal condition of our assay, though both the chemoproteins and the receptors were cloned on high copy plasmid with the same ORI - pMB1 (pSB1C3 and pSB1A2). Usually, plasmids with the same ORIs are incompatible, because they will compete for the same machinery, creating an unstable and unpredictable environment. For future plan, we suggest to clone one of the expression systems to a plasmid containing different ORI, compatible to pMB1 ORI. This adjustment will improve the stability of our system, and allow better control over the expression of each protein.
References:
1. MAEDA, Kayo, et al. Effect of temperature on motility and chemotaxis of Escherichia coli. Journal of bacteriology, 1976, 127.3: 1039-1046.