Team:XMU-China/Project Application RBSpromoter

From 2014.igem.org

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     <span style="font-size: 24px; font-weight: 700;">Characterization the activity of promoter and efficiency of RBS by chemotaxis</span>
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     <span style="font-size: 27px; font-weight: 700;">CHARACTERIZATION PROMOTER AND RBS BY CHEMOTAXIS</span>
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     <span style=" font-size: 16px; font-weight: 700;">The limitation of fluorescence measurement</span>
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     <span style=" font-size: 21px; font-weight: 700;">The limitation of fluorescence measurement</span>
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     Traditionally, the activity of promoters and efficiency of RBS are characterized with fluorescence intensity, of which the measurement quite rely on apparatus. Without relative equipment, some iGEM teams can’t do researches such as interlab study. And the precision and accuracy are determined by apparatus too. What’s more, if we need to measure fluorescence intensity in continuous time, it calls for continuous sampling resulting in accumulated error.</span>
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     Traditionally, the activity of promoters and efficiency of RBS are characterized with fluorescence intensity, of which the measurement quite rely on apparatus. And the precision and accuracy are determined by apparatus too. Without relative equipment, some iGEM teams can’t do researches such as interlab study. What’s more, if we need to measure fluorescence intensity in continuous time, it calls for continuous sampling resulting in accumulated error.</span>
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     <span style="  font-size: 16px; font-weight: 700;">Chemotaxis can do more</span>
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     <span style="  font-size: 211px; font-weight: 700;">Chemotaxis can do more</span>
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     As we have already proved that the expression strength of <i>CheZ</i> is positively related with motile ability, we develop a new system to characterize the activity of different promoters and efficiency of RBS by chemotaxis. We adopt variable-controlling approach to compare chemotactic diameter shown as the size of the colony between standard parts and unknown parts by measuring the diameter of colony. The only apparatus we need is a ruler.
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     As we have already proved that the expression strength of <i>cheZ</i> is positively related with motile ability, we develop a new system to characterize the activity of different promoters and efficiency of RBS by chemotaxis. We adopt variable-controlling approach to compare chemotactic diameter shown as the size of the colony between standard parts and unknown parts by measuring the diameter of colony. The only apparatus we need is a ruler.
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     In order to verify the reliability of the new system. We construct the three devices with different promoters which have been characterized by published papers<sup>[1]</sup> (<strong>Figure 1</strong>). Three variable promoters are pLac (BBa_R0010), pBAD (BBa_K206000), pTet (BBa_R0040).
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     In order to verify the reliability of the new system. We construct three devices with different promoters which have been characterized by published papers <sup>[1]</sup> <sup>[2]</sup> (<strong>Figure 1</strong>). Three variable promoters are pLac (BBa_R0010), pBAD (BBa_K206000), pTet (BBa_R0040).
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     <span style="font-size: 16px; font-weight: 700;">Promoter activity c</span><span style="font-size: 16px; font-weight: 700;">haracterization</span>
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     <span style="font-size: 21px; font-weight: 700;">Promoter activity characterization</span>
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     We stab all three colonies with different promoters on the same semi-solid culture medium with 0.02% L-arabione and 50μg/ml chloramphenicol added in (<strong>Figure 2A</strong>). After 36 hours culturing, difference of chemotactic diameters between each colonies could be distinguished as <strong>Figure 2B</strong>.
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     We stab all three colonies with different promoters on the same semi-solid culture medium with 0.02% L-arabione and 50 μg/ml chloramphenicol added in (<strong>Figure 2A</strong>). After 36 hours culturing, difference of chemotactic diameters between each colonies could be distinguished as <strong>Figure 2B</strong>.
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                    <span style="font-family: Times New Roman; font-weight: 700; styleName: Default Paragraph Font;">Figure 2A </span><span style="font-family: Times New Roman; font-weight: 400; styleName: Default Paragraph Font;">Schematic of spotting bacteria. </span><span style="font-family: Times New Roman; font-weight: 700; styleName: Default Paragraph Font;">Figure </span><span style="font-family: Times New Roman; font-weight: 700; styleName: Default Paragraph Font;">2B</span><span style="font-family: Times New Roman; font-weight: 400; styleName: Default Paragraph Font;"> Culturing</span><span style="font-family: Times New Roman; font-weight: 400; styleName: Default Paragraph Font;"> with 0.02 L-arabione</span><span style="font-family: Times New Roman; font-weight: 400; styleName: Default Paragraph Font;"> for </span><span style="font-family: Times New Roman; font-weight: 400; styleName: Default Paragraph Font;">48</span><span style="font-family: Times New Roman; font-weight: 400; styleName: Default Paragraph Font;"> hours, distinguish difference of chemotaxis diameters between each colonies is shown.</span>
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    <span style="font-family:times new roman"><strong>Figure 2A.</strong> Schematic of spotting bacteria. <strong>2B.</strong> Culturing with 0.02 L-arabione for 48 hours, distinguish difference of chemotaxis diameters between each colonies is shown.</span>
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    Actually, we keep measuring chemotactic diameters of three colonies at different time and set the diameter of the colony with promoter Lac as 1.0. We got the following table (<b>Table 1</b>). The ratio between each colony diameters is fixed after 36 hours. If we set the fixed ratio as relative promoter activities, from our characterization, promoter TetR (BBa_R0040) activity is 1.86 relative to promoter Lac (BBa_R0010). Refer to published papers<sub>[1]</sub>, promoter activity between pTetR and pLac has already been measured, and their ratio (pTetR/pLac) is 1.58. So our system is reliable as it could tell the difference between different promoter activities. However, no published data tell us about the relative promoter activity of pBAD (BBa_K206000), while L-arabinose can induce pBAD (BBa_K206000). We make the first characterization data of pBAD activity relative to pLac with 0.02% L-arabinose added in. And the ratio (pBAD/pLac) is 0.37.
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Actually, we kept measuring chemotactic diameters of three colonies at different time and set the diameter of the colony with promoter Lac as 1.0. We got the following table (Figure 3). The ratio between each colony diameters was fixed after 36 hours. If we set the fixed ratio as relative promoter activities, from our characterization, promoter TetR (BBa_R0040) activity is 1.86 relative to promoter Lac (BBa_R0010). Refer to published papers [1] [2], promoter activity between pTetR and pLac has already been measured, and their ratio (pTetR/pLac) is 1.58. So our system is reliable as it could tell the difference between different promoter activities. However, no published data tell us about the relative promoter activity of pBAD (BBa_K206000), while L-arabinose can induce pBAD (BBa_K206000). The characterization of the relative activity of pBAD is carried out with 0.02% inducer L-arabinose in culture. And the ratio (pBAD/pLac) is 0.37.
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Revision as of 17:05, 16 October 2014

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CHARACTERIZATION PROMOTER AND RBS BY CHEMOTAXIS


The limitation of fluorescence measurement

Traditionally, the activity of promoters and efficiency of RBS are characterized with fluorescence intensity, of which the measurement quite rely on apparatus. And the precision and accuracy are determined by apparatus too. Without relative equipment, some iGEM teams can’t do researches such as interlab study. What’s more, if we need to measure fluorescence intensity in continuous time, it calls for continuous sampling resulting in accumulated error.

 

Chemotaxis can do more

As we have already proved that the expression strength of cheZ is positively related with motile ability, we develop a new system to characterize the activity of different promoters and efficiency of RBS by chemotaxis. We adopt variable-controlling approach to compare chemotactic diameter shown as the size of the colony between standard parts and unknown parts by measuring the diameter of colony. The only apparatus we need is a ruler.

 

In order to verify the reliability of the new system. We construct three devices with different promoters which have been characterized by published papers [1] [2] (Figure 1). Three variable promoters are pLac (BBa_R0010), pBAD (BBa_K206000), pTet (BBa_R0040).

 

Figure 1 Devices with different promoters.

 

Promoter activity characterization

We stab all three colonies with different promoters on the same semi-solid culture medium with 0.02% L-arabione and 50 μg/ml chloramphenicol added in (Figure 2A). After 36 hours culturing, difference of chemotactic diameters between each colonies could be distinguished as Figure 2B.

 

 

 

 

 

A

B

Figure 2A. Schematic of spotting bacteria. 2B. Culturing with 0.02 L-arabione for 48 hours, distinguish difference of chemotaxis diameters between each colonies is shown.

 

Actually, we kept measuring chemotactic diameters of three colonies at different time and set the diameter of the colony with promoter Lac as 1.0. We got the following table (Figure 3). The ratio between each colony diameters was fixed after 36 hours. If we set the fixed ratio as relative promoter activities, from our characterization, promoter TetR (BBa_R0040) activity is 1.86 relative to promoter Lac (BBa_R0010). Refer to published papers [1] [2], promoter activity between pTetR and pLac has already been measured, and their ratio (pTetR/pLac) is 1.58. So our system is reliable as it could tell the difference between different promoter activities. However, no published data tell us about the relative promoter activity of pBAD (BBa_K206000), while L-arabinose can induce pBAD (BBa_K206000). The characterization of the relative activity of pBAD is carried out with 0.02% inducer L-arabinose in culture. And the ratio (pBAD/pLac) is 0.37.

 

Table 1 The relative activity of different promoters.

 

Extensive application

As the results shown above, we draw a conclusion that this new system works well with little errors. We can also standardize this method to characterize most of the promoters. What’s more, it can be used to characterize the RBS efficiency (Figure 3A), terminator efficiency (Figure 3B) and expression strength of target gene etc (Figure 3C).

 

Figure 3A Device to characterize the efficiency different RBS.

Figure 3B Device to characterize the efficiency different terminator.

Figure 3C Device to characterize the expression of target gene.

 

Click the following biobricks to read more about our results:

BBa_K1412614

BBa_K1412014

BBa_K1412000

 

Reference

1. Kelly J R, Rubin A J, Davis J H, et al. Measuring the activity of BioBrick promoters using an in vivo reference standard[J]. Journal of biological engineering, 2009, 3(1): 4.



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