Team:TzuChiU Formosa/Modeling

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== Synthesis system ==
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===constitutive promoter-CrtEBIY (The Part BBa_k419012 )===
 +
====Verification of the Part BBa_k419012====
 +
We use constitutive promoter to drive the CrtEBIY composite for beta-carotene synthesis. The CrtEBIY composite (BBa_K274210) was obtained from the distribution part of iGEM 2009 Cambrige and digested with restriction enzymes, EcoR I and Pst I, then ligated to EcoR I and Pst I sites of pSB1C3, the iGEM 2010 standard backbone. We verified our composite for synthesis system by EcoRI and PstI digestion and the agarose gel electrophoresis result was shown. The arrow (red) indicates the CrtEBIY with constitutive promoter (R001) DNA fragment. The synthesis system composite was transformed into DH5 E. coli for further experiment.<br>
 +
 +
[[Image:Synthesis5.jpg|500px]]
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 +
===constitutive promoter-CrtEBIY (Demonstration of Synthesis System)===
 +
====Growth Curve of Synthesis System E. coli====
 +
To verify the beta-carotene production by our synthesis system E. coli (DH5α), which contains the part BBa_k419012 (beta-carotene producing genes CrtEBIY with constitutive promoter) in the iGEM 2010 standard backbone pSB1C3, the bacterial culture of our synthesis system was performed and the growth curve was determined in the experiment.
 +
Single colony of our synthesis system or control (without beta-carotene genes) bacteria was inoculated into LB medium containing 34  μg/ml chloramphenical , then incubated at 37℃ overnight. The next day, the absorbance of the overnight cultures was measured at 600 nm and 0.1 OD of diluted bacterial culture (1 ml) was inoculated into 40 ml fresh LB/chloramphenical broth, then grow the culture at 37℃ incubator. We aliquot the bacterial culture (1 ml) every 2 hours and measured the bacterial growth by spectrophotometer at 600nm. Finally, we determine and draw the bacterial growth curve of our synthesis system E. coli. The Figure shows the growth curve of our synthesis system or control E. coli. The result shows that both control (green curve) and synthesis system (synthesizer, orange curve) E. coli reached to plateau at 8 h and grown equally well. We prove that the growth of synthesis system (containing part BBa_k274200) is well in the same growth condition compared with control.<br>
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 +
[[Image:Synthesis2 1.jpg|500px]]
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 +
==== Beta-carotene Productivity of Synthesis System E. coli====
 +
The level of beta-carotene production was measured every two hours. The beta-carotene produced by the synthesis system E. coli (1 ml) was extracted by acetone, then the absorbance was determined at 450nm by spectrophotometer. Figure shows the absorbance of beta-carotene. The result shows that that the level of the beta-carotene in our synthesis system contained part BBa_K419012 (synthesizer, orange curve) was elevated at 4 hour and reached a maximum level at 8 h. No beta-carotene was produced in the control E. coli (green curve). <br>
 +
 +
[[Image:Synthesis3.jpg|500px]]
<br>
<br>
 +
The level of beta-carotene was calculated by the concentration standard curve of beta-carotene. The commercial available beta-carotene was purchased and established the concentration curve of beta-carotene as shown in the following Figure.<br>
 +
 +
[[Image:Synthesis4.jpg|500px]]
 +
 +
====Estimation of the bacterial numbers of synthesis system E. coli====
 +
Figure shows that the calculation of the total number of the synthesis system E. coli. The bacterial cultures were series diluted and plated on LB agar contained cploramphenical. As shown in figure, we count the number of colony at 106x and 107x dilution of 6h bacterial culture. We calculate the average bacterial numbers at 6 h culture is 7x108.<br>
 +
 +
[[Image:Synthesis7.jpg|900px]]
 +
 +
====The productivity of beta-carotene produced by the synthesis system E. coli====
 +
Based on the standard concentration curve of beta-carotene as mention above, we calculate the productivity of beta-carotene produced by our synthesis system E. coli. <br>
 +
<br>
 +
y= 0.1865x + 0.0014 <br>
 +
y: absorbance at 450 nm, x: concentration of beta-carotene (μg)<br>
 +
<br>
 +
For example, we choose two time point to measure the productivity of beta-carotene<br>
 +
At 6 h culture, y= 0.204    x1 = 1.086 (μg)<br>
 +
At 8 h culture, y= 0.248    x2 = 1.322 (μg)<br>
 +
<br>
 +
At 6 h culture, total bacterial numbers = 7x108<br>
 +
  Productivity of beta-carotene per cell<br>
 +
    1.086 / 7 x108 = 1.551 x10-9<br>
 +
  At 8 h culture, total bacterial numbers = 1.018x109 <br>
 +
  Productivity of beta-carotene per cell<br>
 +
    1.322 / 1.018x109 = 1.299 x10-9<br>
 +
    <br>
 +
Average productivity per cell: <br>
 +
(1.551 x10-9 + 1.299 x10-9) / 2 = 1.425 x10-9 (μg) [0.001425 pg]<br>
 +
<br>
 +
The aliquot of 8 h culture (1 ml) was used to determine the concentration of beta-carotene. The maximum productivity of beta-carotene is estimated approximately 1.322 mg/L.<br>
 +
                     
 +
 +
==Sensing system==
 +
===pSB1C3-nhaA-Lux I (The Part BBa_K419020)===
 +
====Verification of the Part BBa_K419020====
 +
The DNA fragment of nhaA promoter was amplified from the part BBa_K116002 by PCR method. The nhaA PCR products (274 bp) were purified and digested with EcoRI and PstI, then ligated with EcoRI-PstI cut pSB1C3, the iGEM 2010 standard backbone. We got the pSB1C3-nhaA plasmid successfully. Furthermore, the Lux I gene with ribosome binding site (RBS) DNA was amplified from the part BBa_C0161. The Lux I PCR products (585 bp) were digested with Xba I and Pst I, then ligated with the Spe I-Pst I treated pSB1C3-nhaAvector. After E. coli transformation and plasmid preparation, the part BBa_K419020 for sensing system in our Neutrient Synthesizer was verified by EcoRI and PstI enzyme digestion in 1% agarose gel electrophoresis. The arrow (red) indicates the nhaA-Lux I DNA fragment (859 bp). The sensing system composite was transformed into E. coli for further experiments.<br>
 +
[[Image:Synthesis10.jpg|300px]]
 +
 +
===pSB1C3-nhaA-Lux R (The Part BBa_K419021)===
 +
The DNA fragment of nhaA promoter was amplified from the part BBa_K116002 by PCR method. The nhaA PCR products (274 bp) were purified and digested with EcoRI and PstI, then ligated with EcoRI-PstI cut pSB1C3, the iGEM 2010 standard backbone. We got the pSB1C3-nhaA plasmid successfully. Furthermore, the Lux R gene with ribosome binding site (RBS) DNA was amplified from the part BBa_C0062. The Lux R PCR products (756 bp) were digested with Xba I and Pst I, then ligated with the Spe I-Pst I treated pSB1C3-nhaAvector. After E. coli transformation and plasmid preparation, the part BBa_K419021 for sensing system in our Neutrient Synthesizer was verified by EcoRI and PstI enzyme digestion in 1% agarose gel electrophoresis. The arrow (red) indicates the nhaA-Lux R DNA fragment (1030 bp). The sensing system composite was transformed into E. coli for further experiments.<br>
 +
 +
[[Image:Synthesis9.jpg|300px]]
 +
 +
=== pSB1C3-Lux R( The Part BBa_K419015 )===
 +
====Verification of the Part BBa_K419015====
 +
The Lux R gene with ribosome binding site (RBS) DNA was amplified from the part BBa_C0062. The Lux R PCR products (756 bp) were digested with EcoR I and Pst I, then ligated with the EcoR I-Pst I treated pSB1C3. After E. coli transformation and plasmid preparation, the part BBa_K419015 for sensing system in our Neutrient Synthesizer was verified by EcoRI and PstI enzyme digestion in 1% agarose gel electrophoresis. The arrow (red) indicates the Lux R DNA fragment. The sensing system composite was transformed into E. coli for further experiments.
 +
 +
[[Image:Synthesis8.jpg|300px]]
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[[Image:TzuChiU_Formosa_team.png|600px|Your team picture]]
+
==Releasing system==
 +
=== LuxPR-lysis device(The Part BBa_k419003)===
 +
Verification of the Part BBa_k419003<br>
 +
The DNA fragment of LuxR responsive promoter, LuxPR, was amplified from the part BBa_R0062 by PCR method. The LuxPR PCR products were purified and digested with EcoRI and PstI, then ligated with EcoRI-PstI cut pSB1C3, the iGEM 2010 standard backbone. We got the pSB1C3-LuxPR plasmid successfully. In addition, the lysis device DNA which contained holing and lysozyme genes was amplified from the part BBa_K112021. The lysis device PCR products were digested with Xba I and Pst I and ligated with the Spe I-Pst I treated pSB1C3-LuxPR vector. After transformation and plasmid preparation, the part BBa_k419003 for releasing system in our Neutrient Synthesizer was verified by EcoRI and PstI enzyme digestion in 1% agarose gel electrophoresis. The arrow (red) indicates the lysis device DNA fragment. The releasing system composite was transformed into DH5 E. coli for further experiment.<br>
 +
[[Image:Synthesis1.jpg|500px]]
-
== '''Modeling''' ==
 
-
Your abstract
+
===pLuxPR-Lysis device( Demonstration of Releasing System )===
 +
A single colony of releasing system E. coli was inoculated in the LB/chloramphenicol medium at 37℃. After 8 h of culture, we found that the LuxPR was auto-activated and lysis device was expressed causing the lysis of E. coli host. In our observation, we found that the autolysis of the host bacterial was almost completed after 8 hours. The result indicated that other factors may be involved in the activation of the luxR responsive promoter.<br>
 +
[[Image:Synthesis6.jpg|500px]]

Latest revision as of 09:23, 4 December 2010


MODO1.jpg MODO2.jpg MODO3.jpg MODO4.jpg


Contents

Synthesis system

constitutive promoter-CrtEBIY (The Part BBa_k419012 )

Verification of the Part BBa_k419012

We use constitutive promoter to drive the CrtEBIY composite for beta-carotene synthesis. The CrtEBIY composite (BBa_K274210) was obtained from the distribution part of iGEM 2009 Cambrige and digested with restriction enzymes, EcoR I and Pst I, then ligated to EcoR I and Pst I sites of pSB1C3, the iGEM 2010 standard backbone. We verified our composite for synthesis system by EcoRI and PstI digestion and the agarose gel electrophoresis result was shown. The arrow (red) indicates the CrtEBIY with constitutive promoter (R001) DNA fragment. The synthesis system composite was transformed into DH5 E. coli for further experiment.

Synthesis5.jpg

constitutive promoter-CrtEBIY (Demonstration of Synthesis System)

Growth Curve of Synthesis System E. coli

To verify the beta-carotene production by our synthesis system E. coli (DH5α), which contains the part BBa_k419012 (beta-carotene producing genes CrtEBIY with constitutive promoter) in the iGEM 2010 standard backbone pSB1C3, the bacterial culture of our synthesis system was performed and the growth curve was determined in the experiment. Single colony of our synthesis system or control (without beta-carotene genes) bacteria was inoculated into LB medium containing 34 μg/ml chloramphenical , then incubated at 37℃ overnight. The next day, the absorbance of the overnight cultures was measured at 600 nm and 0.1 OD of diluted bacterial culture (1 ml) was inoculated into 40 ml fresh LB/chloramphenical broth, then grow the culture at 37℃ incubator. We aliquot the bacterial culture (1 ml) every 2 hours and measured the bacterial growth by spectrophotometer at 600nm. Finally, we determine and draw the bacterial growth curve of our synthesis system E. coli. The Figure shows the growth curve of our synthesis system or control E. coli. The result shows that both control (green curve) and synthesis system (synthesizer, orange curve) E. coli reached to plateau at 8 h and grown equally well. We prove that the growth of synthesis system (containing part BBa_k274200) is well in the same growth condition compared with control.

Synthesis2 1.jpg

Beta-carotene Productivity of Synthesis System E. coli

The level of beta-carotene production was measured every two hours. The beta-carotene produced by the synthesis system E. coli (1 ml) was extracted by acetone, then the absorbance was determined at 450nm by spectrophotometer. Figure shows the absorbance of beta-carotene. The result shows that that the level of the beta-carotene in our synthesis system contained part BBa_K419012 (synthesizer, orange curve) was elevated at 4 hour and reached a maximum level at 8 h. No beta-carotene was produced in the control E. coli (green curve).

Synthesis3.jpg
The level of beta-carotene was calculated by the concentration standard curve of beta-carotene. The commercial available beta-carotene was purchased and established the concentration curve of beta-carotene as shown in the following Figure.

Synthesis4.jpg

Estimation of the bacterial numbers of synthesis system E. coli

Figure shows that the calculation of the total number of the synthesis system E. coli. The bacterial cultures were series diluted and plated on LB agar contained cploramphenical. As shown in figure, we count the number of colony at 106x and 107x dilution of 6h bacterial culture. We calculate the average bacterial numbers at 6 h culture is 7x108.

Synthesis7.jpg

The productivity of beta-carotene produced by the synthesis system E. coli

Based on the standard concentration curve of beta-carotene as mention above, we calculate the productivity of beta-carotene produced by our synthesis system E. coli.

y= 0.1865x + 0.0014 

y: absorbance at 450 nm, x: concentration of beta-carotene (μg)

For example, we choose two time point to measure the productivity of beta-carotene
At 6 h culture, y= 0.204 x1 = 1.086 (μg)
At 8 h culture, y= 0.248 x2 = 1.322 (μg)

At 6 h culture, total bacterial numbers = 7x108

 Productivity of beta-carotene per cell
1.086 / 7 x108 = 1.551 x10-9
At 8 h culture, total bacterial numbers = 1.018x109
Productivity of beta-carotene per cell
1.322 / 1.018x109 = 1.299 x10-9

Average productivity per cell:
(1.551 x10-9 + 1.299 x10-9) / 2 = 1.425 x10-9 (μg) [0.001425 pg]

The aliquot of 8 h culture (1 ml) was used to determine the concentration of beta-carotene. The maximum productivity of beta-carotene is estimated approximately 1.322 mg/L.


Sensing system

pSB1C3-nhaA-Lux I (The Part BBa_K419020)

Verification of the Part BBa_K419020

The DNA fragment of nhaA promoter was amplified from the part BBa_K116002 by PCR method. The nhaA PCR products (274 bp) were purified and digested with EcoRI and PstI, then ligated with EcoRI-PstI cut pSB1C3, the iGEM 2010 standard backbone. We got the pSB1C3-nhaA plasmid successfully. Furthermore, the Lux I gene with ribosome binding site (RBS) DNA was amplified from the part BBa_C0161. The Lux I PCR products (585 bp) were digested with Xba I and Pst I, then ligated with the Spe I-Pst I treated pSB1C3-nhaAvector. After E. coli transformation and plasmid preparation, the part BBa_K419020 for sensing system in our Neutrient Synthesizer was verified by EcoRI and PstI enzyme digestion in 1% agarose gel electrophoresis. The arrow (red) indicates the nhaA-Lux I DNA fragment (859 bp). The sensing system composite was transformed into E. coli for further experiments.
Synthesis10.jpg

pSB1C3-nhaA-Lux R (The Part BBa_K419021)

The DNA fragment of nhaA promoter was amplified from the part BBa_K116002 by PCR method. The nhaA PCR products (274 bp) were purified and digested with EcoRI and PstI, then ligated with EcoRI-PstI cut pSB1C3, the iGEM 2010 standard backbone. We got the pSB1C3-nhaA plasmid successfully. Furthermore, the Lux R gene with ribosome binding site (RBS) DNA was amplified from the part BBa_C0062. The Lux R PCR products (756 bp) were digested with Xba I and Pst I, then ligated with the Spe I-Pst I treated pSB1C3-nhaAvector. After E. coli transformation and plasmid preparation, the part BBa_K419021 for sensing system in our Neutrient Synthesizer was verified by EcoRI and PstI enzyme digestion in 1% agarose gel electrophoresis. The arrow (red) indicates the nhaA-Lux R DNA fragment (1030 bp). The sensing system composite was transformed into E. coli for further experiments.

Synthesis9.jpg

pSB1C3-Lux R( The Part BBa_K419015 )

Verification of the Part BBa_K419015

The Lux R gene with ribosome binding site (RBS) DNA was amplified from the part BBa_C0062. The Lux R PCR products (756 bp) were digested with EcoR I and Pst I, then ligated with the EcoR I-Pst I treated pSB1C3. After E. coli transformation and plasmid preparation, the part BBa_K419015 for sensing system in our Neutrient Synthesizer was verified by EcoRI and PstI enzyme digestion in 1% agarose gel electrophoresis. The arrow (red) indicates the Lux R DNA fragment. The sensing system composite was transformed into E. coli for further experiments.

Synthesis8.jpg

Releasing system

LuxPR-lysis device(The Part BBa_k419003)

Verification of the Part BBa_k419003
The DNA fragment of LuxR responsive promoter, LuxPR, was amplified from the part BBa_R0062 by PCR method. The LuxPR PCR products were purified and digested with EcoRI and PstI, then ligated with EcoRI-PstI cut pSB1C3, the iGEM 2010 standard backbone. We got the pSB1C3-LuxPR plasmid successfully. In addition, the lysis device DNA which contained holing and lysozyme genes was amplified from the part BBa_K112021. The lysis device PCR products were digested with Xba I and Pst I and ligated with the Spe I-Pst I treated pSB1C3-LuxPR vector. After transformation and plasmid preparation, the part BBa_k419003 for releasing system in our Neutrient Synthesizer was verified by EcoRI and PstI enzyme digestion in 1% agarose gel electrophoresis. The arrow (red) indicates the lysis device DNA fragment. The releasing system composite was transformed into DH5 E. coli for further experiment.
Synthesis1.jpg


pLuxPR-Lysis device( Demonstration of Releasing System )

A single colony of releasing system E. coli was inoculated in the LB/chloramphenicol medium at 37℃. After 8 h of culture, we found that the LuxPR was auto-activated and lysis device was expressed causing the lysis of E. coli host. In our observation, we found that the autolysis of the host bacterial was almost completed after 8 hours. The result indicated that other factors may be involved in the activation of the luxR responsive promoter.
Synthesis6.jpg