Difference between revisions of "Part:BBa K173004"

 
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==Overview:==
 
==Overview:==
 
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lacZ gene originated from bacteria encodes for β-galactosidase which can cleave lactose to glucose and galactose. It is also be used as a reporter protein/enzyme for colorimetric assays. For example, β-galactosidase can cleave X-gal to yield galactose and 5-bromo-4-chloro-3-hydroxyindole. The latter is then oxidized to 5-bromo-4-chloro Indigo, a blue color product which is easily measured.
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β-galactosidase is encoded by LacZ gene. It is widely found in animals, plants, microorganisms and cultured cells. It can catalyze the hydrolysis of β-galactoside bonds in β-galactoside compounds and release free galactose. It can also cleave lactose to glucose and galactose.  
 
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β-galactosidase is often used as a reporter protein/enzyme for colorimetric assays. For example, β-galactosidase can cleave X-gal to yield galactose and 5-bromo-4-chloro-3-hydroxyindole. The latter is then oxidized to 5-bromo-4-chloro Indigo, a blue color product which is easily measured.
 
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In our project this year, we used LacZ gene and toehold switch to construct a recombined plasmid pET-28a-toehold switch-LacZ, which can express β-galactosidase trigged by miRNA 34a-5p. At the presence of X-gal, it is used to detect the amount of miRNA 34a-5p in samples, such as serum or blood.
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In addition, β-galactosidase can decompose p-Nitrophenyl-β-D-Galactopyranoside to produce p-Nitrophenol. The product has a characteristic absorption peak at 400 nm. The activity of β-galactosidase can be characterized by the change of absorbance value, which is used to determine the activity of β-galactosidase.
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[[File:K4167660-fig.1.jpg|center]]
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BBa_K173004 is a β-galactosidase protein generator with strong RBS. To control the expression of β-galactosidase, we constructed BBa_K4167660 which is also a β-galactosidase protein generator with strong RBS, but it driven by Plac promoter. This promoter is mainly composed of Lac operon containing LacO site. LacI repressor, encoded by LacI gene, can bind with LacO site to inhibit the binding of RNA pol to the promoter, so the genes downstream expression is blocked. Serving as inducer, IPTG can bind with LacI inhibitor, making it detached from LacO site, which enables the transcription of downstream genes. So, the expression of β-galactosidase is regulated by IPTG induction. With the different concentration of IPTG, it can express β-galactosidase at different level. With the detection of p-Nitrophenol, the activity of β-galactosidase can be measured.
 
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To construct the standard part, toehold switch-LacZ was amplified and checked the restriction enzyme information, which is shown as follows:  
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To construct the standard part, LacZ with RBS and promoter were checked for the restriction enzyme information, which is shown as follows:  
 
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[[File:K4167666-fig.1-2.jpg|center]]
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[[File:K4167660-fig.1-2.jpg|center]]
Fig.1 The map of toehold switch-LacZ described with SnapGene Viewer, showing the restriction enzyme information (no EcoRI and PstI sites).
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Fig.1 The map of β-galactosidase generator described with SnapGene Viewer, showing the restriction enzyme information (no EcoRI and PstI sites).
 
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After detecting the restriction enzyme information of toehold switch-LacZ using SnapGene software, it was inserted into the pSB1C3 plasmid to construct the standard part pSB1C3-toehold switch-LacZ with PCR method. Then it was identified as follows:  
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After detecting the restriction enzyme information of β-galactosidase generator, it was inserted into the pSB1C3 plasmid to construct the standard part BBa_K4167660 with PCR method. Then it was identified as follows:
 
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[[File:K4167666-fig.2.jpg|center]]
 
[[File:K4167666-fig.2.jpg|center]]
Fig.2 Identification of standard part pSB1C3-toehold switch-LacZ using PCR and digestion with EcoRI and PstI.
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Fig.2 Identification of standard part BBa_K4167660, using PCR and digestion with EcoRI and PstI. M: Marker; 1: PCR result; Digestion result.
M: Marker; 1: PCR result; Digestion result.
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Toehold switch-LacZ plasmid was designed to express β-galactosidase controlled by the toehold switch and miRNA 34a-5p. It comprises the antisense sequence of miRNA 34a-5p, RBS, Linker and part sequence of miRNA 34a-5p, which form a toehold switch, as well as the gene of β-galactosidase. At the presence of miRNA 34a-5p, it binds to its antisense sequence, opening the toehold switch to trigger the expression of β-galactosidase which catalyzes the substrate X-gal to produce 5-bromo-4-chloro Indigo (blue color). The mechanism is shown as Fig.3.
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We compared the inducing effect of IPTG on the two β-galactosidase generators, using different concentration of IPTG. We set 5 groups: 2 groups of old generator(BBa_K173004) with or without IPTG and 2 groups of new generator(BBa_K4167660) with or without IPTG, and 1 negative control without β-galactosidase expression. At 0h, all groups’OD600 approximately reached to 0.6, then a certain of IPTG and p-Nitrophenyl-β-D-Galactopyranoside were added to the culture medium, incubated cells at 37℃ for 14h. Measure the absorption of OD400 and OD600 value for each group every 2h, using an automatic microplate reader. The results are showed as follows.  
 
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[[File:K4167666-fig.3-2.jpg|center]]
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[[File:K4167660-fig.3-1.jpg|center]]
Fig.3 The mechanism of toehold switch-LacZ.  
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Fig.3 Inducing effect of IPTG on the two β-galactosidase generators. The OD400 value was standardized with OD600 value of each group at the same testing time. The figure indicated that BBa_K173004 expressing β-galactosidase was not affected by IPTG, while BBa_K4167660 expressing β-galactosidase was affected by IPTG. And different concentration of IPTG had the same inducing trend.
 
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To express β-galactosidase in BL21 bacteria, the recombined plasmid pET-28a-toehold switch-LacZ controlled by miRNA 34a-5p was constructed using PCR method. For identification, the restriction endonuclease digestion and PCR assays were performed, which showed that the fragment length of lacZ was consistent with the expected results (Fig.4)
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Then we detected the β-galactosidase expression with IPTG presence or absence, using both generators. The results showed that BBa_K173004 can express β-galactosidase whether IPTG was present or not, which means that BBa_K173004 expressing β-galactosidase was not affected by IPTG. However, BBa_K4167660 expressed β-galactosidase at a high level with IPTG presence, and it had some leakage expression without IPTG induction, which required further modification in future.  
 
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[[File:K4167660-fig.4-3.jpg|center]]
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Fig.4 The comparison of β-galactosidase expression using BBa_K173004 with and without IPTG induction. The OD400 value is standardized with OD600 value of each group at the same testing time. The figure indicated that BBa_K173004 expressing β-galactosidase was not affected by IPTG.
 
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[[File:K4167666-fig.4.jpg|center]]
 
Fig.4 Identification of pET-28a-toehold switch-lacZ plasmid.
 
M: Marker, 1: The plasmid of pET-28a-toehold switch-LacZ,  2: The pET-28a-toehold switch-LacZ plasmid was digested by EcoRⅠ and Hind Ⅲ restriction endonuclease, 3: The LacZ gene amplified by PCR method.
 
 
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[[File:K4167660-fig.5.jpg|center]]
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Fig.5 The comparison of β-galactosidase expression using BBa_K4167660 with and without IPTG induction. The OD400 value is standardized with OD600 value of each group at the same testing time. The figure indicated that BBa_K4167660 expressed β-galactosidase at a high level with IPTG presence, and it had some leakage expression without IPTG induction.
 
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pET-28a-toehold switch-lacZ plasmid was transfected into BL21ΔlacZ strain(LacZ deleted). Under the optimal conditions, the cell-free expression system was prepared by mixing the cell extract with other components such as ATP, PEP, amino acid, etc. (see protocol section for details). After the filter paper was blocked with bovine serum albumin (BSA), washed and dried, a drop of the cell-free reaction system mentioned above fell onto the filter paper strip which was followed by putting it into the ultra-low temperature refrigerator and frozen dryer to form a paper strip sensor.
 
 
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=References=
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1.Szabolcs Semsey, Sandeep Krishna.The effect of LacI autoregulation on the performance of the lactose utilization system in Escherichia col, Nucleic Acids Res 2013 Jul; 41(13): 6381–6390.
 
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In order to obtain sensitive and fast detection effects, the reaction conditions that X-gal is converted to 5-bromo-4-chloro Indigo (blue color) catalyzed by β-galactosidase in the cell-free expression system was optimized under different temperature, reaction time and miRNA concentration, which were shown as follows:  
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2.Adam J. Meyer, Thomas H. Segall-Shapiro, Emerson Glassey, Jing Zhang & Christopher A. Voigt. Escherichia coli “Marionette” strains with 12 highly optimized small-molecule sensors. Nature Chemical Biology, 2019, 15: 196–204.
 
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[[File:K4167666-fig.5.jpg|center]]
 
Fig.5 The optimization of reaction temperature at which X-gal is converted to 5-bromo-4-chloro Indigo (blue color) catalyzed by β-galactosidase in the cell-free expression system. (A): OD570 value, (B): Photograph of paper strip sensor reaction in cell-free system.
 
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[[File:K4167666-fig.6.jpg|center]]
 
Fig.6 The optimization of reaction time for β-galactosidase enzyme reaction in cell-free system. (A):OD570 value, (B): Photograph of paper strip sensor reaction in cell-free system.
 
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[[File:K4167666-fig.7.jpg|center]]
 
Fig.7 The optimization of miRNA concentration to trigger the expression of β-galactosidase catalyzing the 5-bromo-4-chloro Indigo (blue color) production in cell-free system. (A):OD570 value, (B): Photograph of paper strip sensor reaction in cell-free system.
 
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The optimization results showed that the best temperature is 30°C, as shown in Fig.5. When the reaction lasts for 1h, the reaction is almost over, so 1h is chosen as the best reaction time (Fig.6). For miR-34a-5p target sensor, the lowest limit of visible color development is 500fM (Fig.7).
 
 
 
 
<!-- Uncomment this to enable Functional Parameter display  
 
<!-- Uncomment this to enable Functional Parameter display  
 
===Functional Parameters===
 
===Functional Parameters===
 
<partinfo>BBa_K173004 parameters</partinfo>
 
<partinfo>BBa_K173004 parameters</partinfo>
 
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Latest revision as of 21:54, 13 October 2022

Beta-galactosidase protein generator

Beta-galactosidase protein generator with strong RBS.

This part takes PoPS as input to express lacZ gene (BBa_I732005), encoding for beta-galactosidase enzyme. This enzyme can be used to cleave lactose molecule to glucose and galactose (see Fig.1), but can also be used as a reporter protein for colorimetric assays (together with X-Gal or ONPG as a substrate).

X-gal is cleaved by β-galactosidase yielding galactose and 5-bromo-4-chloro-3-hydroxyindole. The latter is then oxidized into 5,5'-dibromo-4,4'-dichloro-indigo, an insoluble blue product (see Fig.2 and Fig.3).

Fig.1: lactose cleavage to glucose and galactose.
Fig.2: X-Gal cleavage to galactose and an insoluble blue product.
Fig.3: example of blue colonies bearing lacZ.

Sequence and Features


Assembly Compatibility:
  • 10
    COMPATIBLE WITH RFC[10]
  • 12
    COMPATIBLE WITH RFC[12]
  • 21
    COMPATIBLE WITH RFC[21]
  • 23
    COMPATIBLE WITH RFC[23]
  • 25
    COMPATIBLE WITH RFC[25]
  • 1000
    COMPATIBLE WITH RFC[1000]



Improvement by ICJFLS2022

Overview:


β-galactosidase is encoded by LacZ gene. It is widely found in animals, plants, microorganisms and cultured cells. It can catalyze the hydrolysis of β-galactoside bonds in β-galactoside compounds and release free galactose. It can also cleave lactose to glucose and galactose.
β-galactosidase is often used as a reporter protein/enzyme for colorimetric assays. For example, β-galactosidase can cleave X-gal to yield galactose and 5-bromo-4-chloro-3-hydroxyindole. The latter is then oxidized to 5-bromo-4-chloro Indigo, a blue color product which is easily measured.
In addition, β-galactosidase can decompose p-Nitrophenyl-β-D-Galactopyranoside to produce p-Nitrophenol. The product has a characteristic absorption peak at 400 nm. The activity of β-galactosidase can be characterized by the change of absorbance value, which is used to determine the activity of β-galactosidase.

K4167660-fig.1.jpg


BBa_K173004 is a β-galactosidase protein generator with strong RBS. To control the expression of β-galactosidase, we constructed BBa_K4167660 which is also a β-galactosidase protein generator with strong RBS, but it driven by Plac promoter. This promoter is mainly composed of Lac operon containing LacO site. LacI repressor, encoded by LacI gene, can bind with LacO site to inhibit the binding of RNA pol to the promoter, so the genes downstream expression is blocked. Serving as inducer, IPTG can bind with LacI inhibitor, making it detached from LacO site, which enables the transcription of downstream genes. So, the expression of β-galactosidase is regulated by IPTG induction. With the different concentration of IPTG, it can express β-galactosidase at different level. With the detection of p-Nitrophenol, the activity of β-galactosidase can be measured.

Results:


To construct the standard part, LacZ with RBS and promoter were checked for the restriction enzyme information, which is shown as follows:

K4167660-fig.1-2.jpg


Fig.1 The map of β-galactosidase generator described with SnapGene Viewer, showing the restriction enzyme information (no EcoRI and PstI sites).


After detecting the restriction enzyme information of β-galactosidase generator, it was inserted into the pSB1C3 plasmid to construct the standard part BBa_K4167660 with PCR method. Then it was identified as follows:

K4167666-fig.2.jpg

Fig.2 Identification of standard part BBa_K4167660, using PCR and digestion with EcoRI and PstI. M: Marker; 1: PCR result; Digestion result.


We compared the inducing effect of IPTG on the two β-galactosidase generators, using different concentration of IPTG. We set 5 groups: 2 groups of old generator(BBa_K173004) with or without IPTG and 2 groups of new generator(BBa_K4167660) with or without IPTG, and 1 negative control without β-galactosidase expression. At 0h, all groups’OD600 approximately reached to 0.6, then a certain of IPTG and p-Nitrophenyl-β-D-Galactopyranoside were added to the culture medium, incubated cells at 37℃ for 14h. Measure the absorption of OD400 and OD600 value for each group every 2h, using an automatic microplate reader. The results are showed as follows.

K4167660-fig.3-1.jpg

Fig.3 Inducing effect of IPTG on the two β-galactosidase generators. The OD400 value was standardized with OD600 value of each group at the same testing time. The figure indicated that BBa_K173004 expressing β-galactosidase was not affected by IPTG, while BBa_K4167660 expressing β-galactosidase was affected by IPTG. And different concentration of IPTG had the same inducing trend.


Then we detected the β-galactosidase expression with IPTG presence or absence, using both generators. The results showed that BBa_K173004 can express β-galactosidase whether IPTG was present or not, which means that BBa_K173004 expressing β-galactosidase was not affected by IPTG. However, BBa_K4167660 expressed β-galactosidase at a high level with IPTG presence, and it had some leakage expression without IPTG induction, which required further modification in future.

K4167660-fig.4-3.jpg

Fig.4 The comparison of β-galactosidase expression using BBa_K173004 with and without IPTG induction. The OD400 value is standardized with OD600 value of each group at the same testing time. The figure indicated that BBa_K173004 expressing β-galactosidase was not affected by IPTG.

K4167660-fig.5.jpg

Fig.5 The comparison of β-galactosidase expression using BBa_K4167660 with and without IPTG induction. The OD400 value is standardized with OD600 value of each group at the same testing time. The figure indicated that BBa_K4167660 expressed β-galactosidase at a high level with IPTG presence, and it had some leakage expression without IPTG induction.


References

1.Szabolcs Semsey, Sandeep Krishna.The effect of LacI autoregulation on the performance of the lactose utilization system in Escherichia col, Nucleic Acids Res 2013 Jul; 41(13): 6381–6390.
2.Adam J. Meyer, Thomas H. Segall-Shapiro, Emerson Glassey, Jing Zhang & Christopher A. Voigt. Escherichia coli “Marionette” strains with 12 highly optimized small-molecule sensors. Nature Chemical Biology, 2019, 15: 196–204.