Difference between revisions of "Team:ShanghaiTech/Notebook"

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         <a href="#construction1" data-toggle="collapse">
 
         <a href="#construction1" data-toggle="collapse">
  
         <h3>I: Construction of module A (LuxR gene circuit)</h3>
+
         <h3>I: Verification of the function of LuxR element</h3>
  
 
         </a>
 
         </a>
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       <div class="card-body collapse" id="construction1">
 
       <div class="card-body collapse" id="construction1">
  
         <p>In this part of our experiments, we constructed the module A of our project, which express LuxR under the induction of AHL. The part we constructed is pCons-pT181-repC-LuxR-ter in pSB1C3 backbone. This plasmid functions as quorum sensing in origin. </p>
+
         <p>In this part of our experiments, we verified the function of LuxR in our project. The gene circuit on the part (BBa_K2315024 in 2017 Part Library, from 2017 ShanghaiTech iGEM team) is pCon-LuxR-Ter-pLux-GFP-Ter in pSB1C3 backbone. In the gene curcuit, AHL (exogenously added inducer) and LuxR co-activates the promoter pLux and co-induce the expression of the GFP gene. </p>
 
         <p><strong>08/17/2018</strong></p>
 
         <p><strong>08/17/2018</strong></p>
 
         <ol start='' >
 
         <ol start='' >
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         <a href="#construction2" data-toggle="collapse">
 
         <a href="#construction2" data-toggle="collapse">
  
         <h3>II: Construction of module B (STAR and orthogonal ribosome)</h3>
+
         <h3>II: Verification of the function of pT181 element</h3>
  
  
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       <div class="card-body collapse" id="construction2">
 
       <div class="card-body collapse" id="construction2">
  
         <p>In this part of our experiments, we constructed the module B of our project, which express STAR RNA and orthogonal ribosome 16S rRNA under the induction of LuxR. The part we constructed is pLux-STAR-o16S-ter in pSB1C3 backbone. The STAR functions as the inducer of pT181 (module C) and the orthogonal functions as the output of the feedback loop.</p>
+
         <p>In this part of our experiments, we verified the function of pT181 element in our constructed plasmid (BBa_2787027 in 2018 Part Library). The gene circuit on the part is pCon-pT181 Antisense-Ter-pCon-pT181 Sense Target-GFP-Ter. The pT181 Antisense gene express pT181 Antisense, and pT181 Antisense binds the pT181 Sense Target, thus represses the expression of GFP gene.</p>
 
         <p><strong>07/02/2018</strong></p>
 
         <p><strong>07/02/2018</strong></p>
 
         <p>Transformation of synthesis pT181 plasmids (the vector is pUC57, and the plasmid was synthesized by GenScript, China) into <em>E.coli</em> MG1655 strains.</p>
 
         <p>Transformation of synthesis pT181 plasmids (the vector is pUC57, and the plasmid was synthesized by GenScript, China) into <em>E.coli</em> MG1655 strains.</p>
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         <a href="#construction3" data-toggle="collapse">
 
         <a href="#construction3" data-toggle="collapse">
  
         <h3>III: Construction of module C (pT181 gene circuit)</h3>
+
         <h3>III: Verification of the function of STAR element</h3>
  
 
         </a>
 
         </a>
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       <div class="card-body collapse" id="construction3">
 
       <div class="card-body collapse" id="construction3">
  
         <p>In this part of our experiments, we constructed the module C of our project, which express pT181, the negative RNA transcriptional regulator. The part we constructed is pCons-STAR Target-pT181 Antisense-ter in pSB1C3 backbone. This plasmid functions as quorum sensing in origin.</p>
+
         <p>In this part of our experiments, we verified the function of STAR element in the plasmid courtsey of 2018 SJTU-BioX-Shanghai (The sequence of Antisense and STAR Target was from 2016 Imperial College London). The gene circuit on the part is pCons-STAR Antisense-t500 (between the two multi-cleavage sites on both sides of the gene circuit) and pCons-STAR Target-GFP or pCons-STAR Target-RFP. The STAR Antisense gene express STAR Antisense, and STAR Antisense binds the STAR target, thus activates the expression of GFP gene or RFP gene.</p>
 
         <p><strong>07/05/2018</strong></p>
 
         <p><strong>07/05/2018</strong></p>
 
         <p>Plate spread of three kinds of competent cells containing different plasmids courtesy of SJTU.</p>
 
         <p>Plate spread of three kinds of competent cells containing different plasmids courtesy of SJTU.</p>
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       <div class="card-body collapse" id="assembly">
 
       <div class="card-body collapse" id="assembly">
  
         <p>In this part of our experiments, we assembled three gene circuit modules (module A, module B, module C) and orthogonal ribosome 16S DNA. The gene circuit system containing module A, module B and module C was synthesized by GenScript, China in pUC57 backbone, and we assembled GFP gene sequence and orthogonal ribosome 16S DNA separately on the plasmid. </p>
+
         <p>In this part of our experiments, we assembled three gene circuit modules (module A, module B, module C) and orthogonal ribosome 16S DNA. The following plasmids were synthesized by GenScript, China:</p>
 +
<p>Plasmid A: Gene circuit system containing module A, module B, module C and homologous sequence of the start and end of GFP gene (in pUC57 backbone).</p>
 +
<p>Plasmid B: Gene circuit system containing module A, module B, module C and homologous sequence of the start and end of orthogonal ribosome 16S gene (in pUC57 backbone).</p>
 +
<p>We assembled GFP gene sequence on Plasmid A, and assembled orthogonal ribosome 16S gene sequence on Plasmid B.
 
         <p><strong>08/06/2018</strong></p>
 
         <p><strong>08/06/2018</strong></p>
 
         <p>PCR amplifications were performed to amplify four target fragments: h16S DNA sequence (labelled as “h16S”), GFP gene sequence (labelled as “GFP”), </p>
 
         <p>PCR amplifications were performed to amplify four target fragments: h16S DNA sequence (labelled as “h16S”), GFP gene sequence (labelled as “GFP”), </p>
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         <a href="#construction5" data-toggle="collapse">
 
         <a href="#construction5" data-toggle="collapse">
  
         <h3>V: Construction of a plasmid validating the expression of orthogonal ribosome and the entire loop system</h3>
+
         <h3>V: Construction of a plasmid to validate the function of orthogonal ribosome</h3>
  
 
         </a>
 
         </a>
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         <p>&nbsp;</p>
 
         <p>&nbsp;</p>
         <p>In this part of our experiments, we constructed the plasmid validating the expression of orthogonal ribosome and the entire loop system. The part we constructed is pCons-oRBS-RFP-hRBS-GFP-ter in pSB1C3 backbone. The expression quantity of host ribosome was detected by GFP fluorescence, and the expression quantity of orthogonal ribosome was detected by RFP fluorescence.</p>
+
         <p>In this part of our experiments, we constructed the plasmid (BBa_K2787021 in 2018 Part Library) to validate the function of orthogonal ribosome. The part we constructed is pCon-hRBS-RFP-Ter-pCon-oRBS-GFP-Ter in pSB1C3 backbone. The orthogonality was verified by GFP fluorescence intensity and RFP fluorescence intensity.</p>
 
         <p> </p>
 
         <p> </p>
 
         <p><strong>07/11/2018</strong></p>
 
         <p><strong>07/11/2018</strong></p>
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         <a href="#experiment6" data-toggle="collapse">
 
         <a href="#experiment6" data-toggle="collapse">
  
         <h3>VI: Experiment of site-directed mutagenesis of hRBS to oRBS</h3>
+
         <h3>VI: Experiment of site-directed mutation of hRBS to oRBS</h3>
  
 
         </a>
 
         </a>
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         <p>&nbsp;</p>
 
         <p>&nbsp;</p>
         <p>In this part of our experiments, we performed site-directed mutagenesis of host ribosome binding site (hRBS) to orthogonal ribosome binding site (oRBS).</p>
+
         <p>In this part of our experiments, we performed site-directed mutation of host ribosome binding site (hRBS) to orthogonal ribosome binding site (oRBS).</p>
 
         <p>&nbsp;</p>
 
         <p>&nbsp;</p>
 
         <p><strong>09/03/2018</strong></p>
 
         <p><strong>09/03/2018</strong></p>

Revision as of 03:01, 18 October 2018

ShanghaiTech iGEM

Calendar


In this part of our experiments, we verified the function of LuxR in our project. The gene circuit on the part (BBa_K2315024 in 2017 Part Library, from 2017 ShanghaiTech iGEM team) is pCon-LuxR-Ter-pLux-GFP-Ter in pSB1C3 backbone. In the gene curcuit, AHL (exogenously added inducer) and LuxR co-activates the promoter pLux and co-induce the expression of the GFP gene.

08/17/2018

  1. PCR + gel extraction (Vector and Insert were separately extracted)
  2. Double digestion

Reaction system:

ReagentsVolume/μl
Vector (at a very low concentration)20
Insert (at a very low concentration)20
Buffer(10x)5
Endonuclease BamH I1
Endonuclease Pst I1
ddH2O3
Total volume50

The reaction system was incubated at 37°C for 2 hours.

  1. Restriction Endonuclease

Reaction system:

ReagentsVolume/μl
Template mix (at a very low concentration)40
T4 Buffer(10x)5
T4 ligase1
ddH2O4
Total volume50

The reaction system was incubated at 16°C overnight.

08/18/2018

Perform these steps:

  1. Purification
  2. Transformation (early morning)

Result: No colonies on the LB solid medium.

[Repeat The Following Steps]

  1. PCR products purification (Vector + Insert)
  2. Restriction endonuclease digestion

Reaction system:

ReagentsVolume/μl
Vector (at a very low concentration)20
Insert (at a very low concentration)20
Buffer(10x)5
Endonuclease 11
Endonuclease 21
ddH2O3
Total volume50

The reaction system was incubated at 37°C for 2 hours.

  1. Restriction Endonuclease

Reaction system:

ReagentsVolume/μl
Template mix (at a very low concentration)40
T4 Buffer(10x)5
T4 DNA ligase1
ddH2O4
Total volume50

The reaction system was incubated at 16°C overnight.

08/19/2018

Perform these steps:

  1. Purification
  2. Transformation (products on Aug 18th)

Result: No colonies on the LB solid medium.

08/20/2018

  1. Preparation of Lux-AHL Solution:

    Preparation of stock solution: 25mg AHL + 1.17ml DMSO → Concentration of AHL is 100mM.

    Preparation of test solution: about 3mg AHL + 200μl → Concentration of AHL is 70.3mM.

  2. Dilution of test solution:

    Dilute the test solution to the final concentration of 7×10-4 M, 7×10-6 M, 7×10-8 M, 7×10-10 M.

  3. Inducer addition to the bacterial fluid of A-GFP and the bacterial fluid made by Wenhan Fu:

    A-GFP①: Add 10μl 10-8M AHL to 1ml bacterial fluid (final concentration: 10-10M)

    A-GFP① Blank: No AHL addition in the bacterial fluid.

    A-GFP②: Add 10μl 10-6M AHL to 1ml bacterial fluid (final concentration: 10-8M)

    A-GFP② Blank: No AHL addition in the bacterial fluid.

    FWH: Add 10μl 10-8M AHL to 1ml bacterial fluid made by Wenhan Fu (final concentration: 10-10M).

    FWH Blank: No AHL addition in the bacterial fluid.

  4. Detection on an ELISA plate

08/21/2018

  1. Digestion of two types of restriction endonucleases:

    Reaction system:

ReagentsVolume/μl
Plasmid (Template)5
Buffer(10x)3
Endonuclease BamH I1
Endonuclease Pst I1
ddH2O20
Total volume30

The reaction system was incubated at 37°C for 2 hours.

  1. Agarose gel electrophoresis (1% agarose gel, 120V, 45min) was performed to verify the DNA bands.

08/22/2018

The plasmid (used in the restriction endonuclease digestion) was sent for sequencing.

[Repeat the steps on Aug 17th]

  1. PCR + gel extraction (Vector and Insert were separately extracted)

  2. Double digestion

    Reaction system:

ReagentsVolume/μl
Vector (at a very low concentration)20
Insert (at a very low concentration)20
Buffer(10x)5
Endonuclease BamH I1
Endonuclease Pst I1
ddH2O3
Total volume50

The reaction system was incubated at 37°C for 2 hours.

  1. Restriction Endonuclease Digestion

    Reaction system:

ReagentsVolume/μl
Template mix (at a very low concentration)40
T4 Buffer(10x)5
T4 ligase1
ddH2O4
Total volume50

The reaction system was incubated at 16°C overnight.

08/24/2018

Purification of PCR products on Aug 22nd and transformation of the purified product.

08/25/2018

  1. Monoclonal colonies were picked and inoculated in liquid LB medium with chloramphenol at 37°C for 15 hours.

  2. Small molecule experiment

    Reaction system:

ReagentsVolume/μl
Bacterial liquid5000
AHL (10ng/uL)200

Reaction conditions: The reaction system mixture was shaken overnight at 37°C.

Result: No GFP fluorescence was observed.

08/27/2018

The plasmid (used in the restriction endonuclease digestion) was sent for sequencing.

08/29/2018

  1. Purification and transformation of the plasmid constructed on Aug 22nd.

  2. Small molecule experiment

    Reaction system:

ReagentsVolume/μl
Bacterial liquid5000
AHL (10ng/uL)200

Reaction conditions: The reaction system mixture was shaken overnight at 37°C.

Result: No GFP fluorescence was observed.


In this part of our experiments, we verified the function of pT181 element in our constructed plasmid (BBa_2787027 in 2018 Part Library). The gene circuit on the part is pCon-pT181 Antisense-Ter-pCon-pT181 Sense Target-GFP-Ter. The pT181 Antisense gene express pT181 Antisense, and pT181 Antisense binds the pT181 Sense Target, thus represses the expression of GFP gene.

07/02/2018

Transformation of synthesis pT181 plasmids (the vector is pUC57, and the plasmid was synthesized by GenScript, China) into E.coli MG1655 strains.

Result: No colonies on the LB solid medium.

07/03/2018

Transformation of synthesis pT181 plasmids (the vector is pUC57, the plasmid was synthesized by GenScript, China) into E.coli DH5α strains.

Result: There were a few colonies on all the four LB solid medium plates. Label the four plates as: Plasmid①, Plasmid②; TOP 10①, TOP 10②. The colonies were picked and inoculated into liquid LB mediums. Shake the bacterial fluids at 37°C overnight (12 hours).

(Note: “Plasmid” represents the control, and “TOP 10” represents the plasmid containing the target DNA sequence.)

07/05/2018

Plasmid DNA Extraction of Plasmid①, Plasmid②, TOP 10①, TOP 10②:

Name of PlasmidConcentration/(ng/**μl)**A260/A280
Plasmid①44.21.97
Plasmid②38.31.92
TOP 10①293.21.85
TOP 10②158.41.77

07/07/2018

Plasmid DNA Extraction

 Concentration/(ng/**μl)**A260/A280A260/A230
Plasmid①20.71.891.92
Plasmid②93.71.882.09

07/15/2018

Vector linearization by circular PCR amplification:

The templates were pUC57, and was labelled as pUC57①, pUC57②, pUC57③, pUC57④.

ReagentVolume/μl
TIANGEN 2×PCR Master Mix25
Primer-F2
Primer-R2
Template1
ddH2O20
Total Volume50

Program of PCR amplifier:

Step Temperature Time Cycles
Initial Denaturation 94°C 3 min 1
Denaturation 94°C 30 seconds 25-35
Annealing 55°C 30 seconds
Extension 72°C 1 min
Final Extension 72°C 5 minutes 1
Hold 4°C 1

07/16/2018

  1. Gel extraction of linearized pUC57:

    (Plasmid pUC57① and pUC57② were added into the same adsorption column to perform gel extraction, and the products of gel extraction was labelled as Blank①; plasmid pUC57① and pUC57② were added into the same adsorption column, and the products of gel extraction was labelled as Blank②.)

Name of PlasmidsConcentration/(ng/**μl)**A260/A280
Blank①67.71.88
Blank②54.71.87
  1. Transformation of synthesis pT181 plasmids (the vector is pUC57, and the plasmid was synthesized by GenScript, China) into E.coli DH5α strains.

07/17/2018

  1. Genomic DNA Extranction of E.coli MG1655 strains: E.coli DH5α strains was inoculated into LB solid medium, and the bacterial fliud was shaken at 37°C overnight (12 hours). The bacterial fluids were used to perform genomic DNA extraction.
  2. Using Gibson Assembly Master Mix to perform pT181 Assembly (products labelled as PA):
ReagentVolume of PA/μlVolume of Control/μl
Gibson Assembly Master Mix (2×)1010
Linearized Vector (Blank)2.72.7
Insert (pT181)0.50.5
ddH2O6.86.8
Total Volume2020

Then transformation of PA and control was followed by, and inoculation of colonies and shaking bacterial fluids were performed after transformation.

07/18/2018

Plasmid DNA extraction of PA (pT181-Blank Assembly):

Name of PlasmidConcentration/(ng/**μl)**A260/A280
PA①538.61.84
PA②372.91.85

Then high fidility PCR amplification was performed to amplify the target DNA sequence. Then the extracted plasmids were sent for sequencing.

Result: No target DNA (inserted pT181) in the pUC57 vector.

07/20/2018

pT181-Blank Assembly (Repeated the experimen again)

ReagentVolume of PA**①, PA②/μl**Volume of Control/μl
Gibson Assembly Master Mix (2×)1010
Linearized Vector (Blank)2.72.7
Insert (pT181)0.90
ddH2O7.48.3
Total Volume2121

07/22/2018

  1. pT181-Blank-Assembly:

The DNA fragments pT181 and linearized vector (Blank) was assembled by Gibson Assembly Master Mix (2×), which is labelled PA. Two systems were made to perform the assembly: PA①, PA②.

ReagentVolume of PA**①, PA②/μl**Volume of Control/μl
Gibson Assembly Master Mix (2×)100
Linearized Vector (Blank)2.72.7
Insert (pT181)0.50.5
ddH2O6.86.8
Total Volume2010
  1. PCR and Transformation:

    25μl DH5α competent cells + 0.2/10/9.8μl pT181-Blank

    Circular PCR amplification of PA → 500μl DH5α competent cells + 1μl PA → Pipette 50μl to spread the cells on a solid LB medium

07/23/2018

Bacterial fluid (Blank/PA): shake for 12 hours

07/25/2018

Bacterial fluid (Blank/PA): plate streak

Bacterial fluid (Blank/PA): shake for 12 hours

07/25/2018

PA/Blank: Agarose gel electrophoresis (120 V, 30 min) + Gel extraction

Name of DNAConcentration/(ng/**μl)**A260/A280A260/A230
PA36.31.820.89
Blank30.01.830.16

08/06/2018

Blank/pT181-Assembly transformation into E.coli DH5α

08/08/2018

Plasmid DNA extranction of pT181-Assembly(PA)/Blank again:

Name of PlasmidConcentration/(ng/**μl)**A260/A280A260/A230
pT181 Assembly (PA)505.91.892.36
pT181 Blank (Blank)265.11.912.09

Performing 1% agarose gel electrophoresis for the two extracted plasmids above, and performing gel extraction. The results of gel extraction are as follows:

Name of PlasmidConcentration/(ng/**μl)**A260/A280
PA15.31.79
Blank6.51.65

08/10/2018

  1. Colony PCR and Gel Electrophoresis of PCR Products

    Templates: Blank 1, Blank 2, Blank 3, PA 1

ReagentVolume/μl
TIANGEN 2×PCR Master Mix10
Primer-F0.8
Primer-R0.8
Template0.8
ddH2O7.6
Total Volume20

Results of electrophoresis: No expected electrophoresis band.

08/11/2018

Plasmid PCR verification and Gel Electrophoresis of PCR Products

Templates: Blank pT181 top②, pT181 Assembly②; pT181 Blank (in plasmid pUC57), pT181 Assembly (in plasmid pUC57)

ReagentVolume/μl
TIANGEN 2×PCR Master Mix10
Primer-F0.8
Primer-R0.8
Template0.8
ddH2O7.6
Total Volume20

08/12/2018

  1. Dilution, Spreading Plates, followed by Picking Monoclonal Colonies and Shaking bacterial fluids.

    Plates of the following bacterial fluids were diluted and spread: Blank (7.23)①; Blank (7.23)③; Blank (7.26)③; PA (7.26)②; PA (7.26)③.

    Monoclonal colonies were picked and bacterial fluids were shaken after 17 hours.

  2. Picking a Monoclonal Colony and Shaking bacterial fluids

    Pick a Monoclonal Colony and Shake bacteria of the following bacterial fluid: Blank/PA (7.22), Blank/PA (8.8)

08/17/2018

  1. Plasmid DNA Extraction

    Plasmid DNA extraction of the bacterial fluids on August 12th : PA (7.22)①, PA (8.8)②, Blank (7.22)②, Blank (8.8)②

Name of PlasmidConcentration/(ng/**μl)**A260/A280A260/A230
PA (7.22)①426.51.892.28
PA (8.8)②370.71.882.28
Blank (7.22)②586.51.882.36
Blank (8.8)②497.51.892.34
  1. Gibson Assembly
ReagentVolume/μl
Gibson Assembly Master Mix (2×)10
Insert1.8
Vector0.6
ddH2O7.6
Total Volume20

08/18/2018

Plasmid PCR verification and Gel Electrophoresis of PCR Products

Templates: PA (7.22)①, PA (8.8)②, Blank (7.22)②, Blank (8.8)② (extracted in August 17th )

ReagentVolume/μl
TIANGEN 2×PCR Master Mix10
Primer-F0.8
Primer-R0.8
Template0.8
ddH2O7.6
Total Volume20

Agarose gel electrophoresis: 120 V, 30 min.


In this part of our experiments, we verified the function of STAR element in the plasmid courtsey of 2018 SJTU-BioX-Shanghai (The sequence of Antisense and STAR Target was from 2016 Imperial College London). The gene circuit on the part is pCons-STAR Antisense-t500 (between the two multi-cleavage sites on both sides of the gene circuit) and pCons-STAR Target-GFP or pCons-STAR Target-RFP. The STAR Antisense gene express STAR Antisense, and STAR Antisense binds the STAR target, thus activates the expression of GFP gene or RFP gene.

07/05/2018

Plate spread of three kinds of competent cells containing different plasmids courtesy of SJTU.

Result: No colony on each of the three plates after 15 hours.

07/06/2018

Transformation of the three plasmids courtesy of SJTU.

Result: A few colonies grew on the LB plates.

07/07/2018

  1. Picking a Monoclonal Colony and Shaking bacterial fluids

    Monoclonal Colonies were picked and inoculated liquid LB mediums with streptomycin antibiotics, and bacterial fluids were shaken at 37°C for 12 hours (three tubes were shaken for each plasmid PCDF1, PCDF3, T1RA1): PCDF1-1, PCDF1-2, PCDF1-3; PCDF3-1, PCDF3-2, PCDF3-3; T1RA1-1, T1RA1-2, T1RA1-3.

  2. Plasmid DNA Extraction

    Plasmid DNA extraction of the bacterial fluids: PCDF1-1, PCDF1-2, PCDF1-3; PCDF3-1, PCDF3-2, PCDF3-3; T1RA1-1, T1RA1-2, T1RA1-3.

Name of PlasmidConcentration/(ng/μl)A260/A280
PCDF1-151.51.92
PCDF1-2128.41.90
PCDF1-3351.91.86
PCDF3-1161.31.88
PCDF3-2230.71.89
PCDF3-3265.41.84
T1RA1-184.41.97
T1RA1-272.51.98
T1RA1-393.31.98

These plasmids were then stored at -20°C, and they were sequenced right by sequencing company.

07/09/2018

  1. Fluorescence Intensity Detection By a Microplate Reader

    The bacterial liquids were added to 1.5ml EP tubes, and were centrifuged at 12,000 rpm for 5 min; the supernatant was discarded, and 200μl 1×PBS solution was added to the bacterial precipitate; resuspend the precipitate and add the resuspension solution to the wells on a 96-well ELISA plate; fluorescence intensity was detected by a microplate reader.

  2. Shaking bacterial fluids

  3. The detected bacterial fluids above were inoculated in liquid LB medium with streptomycin.

07/15/2018

Strain Recovery and Fluorescence Intensity Detection By a Microplate Reader

The DH5α E.coli strains containg following plasmids were recovered at 37°C for 20 min: PCDF1-1, PCDF1-2, PCDF1-3; PCDF3-1, PCDF3-2, PCDF3-3. Then the DH5α E.coli strain solutions were centrifuged at 12,000 rpm for 2 min, discard the supernatant, and resuspend the precipitate by addition of 200μl 1×PBS solution. Finally 200μl resuspended solution were added in the wells of a 96-well ELISA plate to detect fluorescence intensity of each solution.

07/26/2018

Shake Bacterial Fluids To Amplify Plasmid DNA

The following bacterial fluids were shaked overnight (12 hours): sfPCDF1-1, sfPCDF1-2, sfPCDF1-3; sfPCDF3-1, sfPCDF3-2, sfPCDF3-3.

Mix the bacterial fluids evenly, pick a monoclonal colony and inoculate it into 5ml LB medium with streptomycin antibiotics. Shake the bacterial fluid at 37°C overnight (12 hours).

07/27/2018

Microplate reader detection of GFP fluorescent expression results

The following bacterial fluids were performed to extract DNA plasmids: sfPCDF1-1, sfPCDF1-2, sfPCDF1-3; sfPCDF3-1, sfPCDF3-2, sfPCDF3-3; Blank 2-1, Blank 2-2; PA 2-1; PA 2-2.

For the bacterial fliuds above, 1.4 ml of each were centrifuged at 5,000 rpm, followed by discard of supernatants. Then 1.4 ml 1×PBS solution were added to resuspend the bacteria precipitate, and the resuspended solutions were added to the wells on a 96-well ELISA plate to detect the GFP fluorescence intensity.

The resuspended solutions of the following bacterial fluids were also aliquoted 5 μl to make a microscope mounts for viewing GFP fluorescence image: sfPCDF1-2, sfPCDF3-1, Blank 1, PA 2.


In this part of our experiments, we assembled three gene circuit modules (module A, module B, module C) and orthogonal ribosome 16S DNA. The following plasmids were synthesized by GenScript, China:

Plasmid A: Gene circuit system containing module A, module B, module C and homologous sequence of the start and end of GFP gene (in pUC57 backbone).

Plasmid B: Gene circuit system containing module A, module B, module C and homologous sequence of the start and end of orthogonal ribosome 16S gene (in pUC57 backbone).

We assembled GFP gene sequence on Plasmid A, and assembled orthogonal ribosome 16S gene sequence on Plasmid B.

08/06/2018

PCR amplifications were performed to amplify four target fragments: h16S DNA sequence (labelled as “h16S”), GFP gene sequence (labelled as “GFP”),

LabelsCorresponding Amplified FragmentsTemplates
h16Sh16S gene sequenceMG1655 genomic DNA
GFPGFP gene sequencePlasmid BBa_K2315022 (pCon-LuxR-pRpa-GFP)
R-GLinearized vector of pUC57 containing GFP gene homologous sequence (start and terminate position)pUC57 containing GFP gene homologous sequence (start and terminate position) (This vector is synthesized by GenScript, China)
O-riboLinearized vector of pUC57 containing h16S gene homologous sequence (start and terminate position)pUC57 containing h16S gene homologous sequence (start and terminate position) (This vector is synthesized by GenScript, China)

PCR amplification of four fragments above was performed. The reaction systems were as follows:

ReagentVolume/μl
NEB HiFi 2×PCR Master Mix25
Primer-F2.5
Primer-R2.5
Template1
ddH2O19
Total Volume50

Programs of PCR amplifier:

(1) h16S:

Step Temperature Time Cycles
Initial Denaturation 98°C 30 seconds 1
Denaturation 98°C 10 seconds 35
Annealing 67°C 30 seconds
Extension 72°C 90 seconds
Final Extension 72°C 2 minutes 1
Hold 4°C 1

(2) GFP:

StepTemperatureTimeCycles
Initial Denaturation 98°C 30 seconds 1
Denaturation 98°C 10 seconds 35
Annealing 55°C 30 seconds
Extension 72°C 30 seconds
Final Extension 72°C 2 minutes 1
Hold 4°C 1

(3) R-G:

StepTemperatureTimeCycles
Initial Denaturation 98°C 30 seconds 1
Denaturation 98°C 10 seconds 35
Annealing 65°C 30 seconds
Extension 72°C 2 minutes
Final Extension 72°C 2 minutes 1
Hold 4°C 1

(4) O-ribo:

StepTemperatureTimeCycles
Initial Denaturation 98°C 30 seconds 1
Denaturation 98°C 10 seconds 35
Annealing 65°C 30 seconds
Extension 72°C 2 minutes
Final Extension 72°C 2 minutes 1
Hold 4°C 1

08/07/2018

  1. 1% Agarose Gel Electrophoresis of PCR products (h16S, GFP, R-G, O-ribo) was performed at 120V for 45 min, then performed gel extraction. As there was no target band on the agarose gel, the results of gel extraction of the other tthree fragments was:
Name of PlasmidConcentration/(ng/**μl)**A260/A280A260/A230
h16S11.52.790.01
GFP8.02.081.81
O-ribo4.12.110.03
  1. Gibson Assembly of two fragments h16S and O-ribo (labelled as “h16S-O-ribo”)
ReagentVolume/μl
Gibson Assembly Master Mix (2×)10
O-ribo8.5
h16S2.5
Total Volume21

08/08/2018

  1. Transformation of assembled products h16S-O-ribo into E.coli DH5α competent cells on the LB solid medium (Three with ampicillin, the other three with no antibiotics)

    Results: High density colonies on the three LB solid medium plates with no antibiotics, but no colony on the three LB solid medium plates.

  2. PCR amplification of pUC57 containing GFP gene homologous sequence

    This time the forward primer (primer-F) and the reverse primer (primer-R) were changed to repeat PCR amplification.

  3. Gel electrophoresis and gel extraction

Name of PlasmidConcentration/(ng/**μl)**A260/A280A260/A230
R-G①16.21.760.14
R-N-G①12.31.820.21

08/09/2018

  1. PCR products purification
Name of PlasmidConcentration/(ng/**μl)**A260/A280A260/A230
h16S220.01.841.67
GFP132.61.680.88
R-G②32.81.740.81
R-N-G②36.61.671.00
O-ribo25.31.461.02
  1. Gibson Assembly of each products

    Two gel extraction products were Gibson Assembled as the following reaction system:

ReagentVolume/μl
Gibson Mix Courtesy of Haopeng Wang’s Lab15
Vector (R-G① or R-N-G①)4
Insert (GFP)1
Total Volume20

Five purified PCR products were Gibson Assembled as the following reaction system:

ReagentVolume/μl
Gibson Assembly Master Mix (2×)10
Vector (R-G② or R-N-G② or O-ribo)5
Insert (GFP)5
Total Volume20
ReagentVolume/μl
Gibson Mix Courtesy of Haopeng Wang’s Lab15
Vector (R-G② or R-N-G② or O-ribo)4
Insert (GFP)1
Total Volume20

Then all reaction systems were incubated at 50°C for 4 hours.

08/10/2018

Transformation of the Gibson products of Aug 9th into E.coli DH5α Competent cells.

Result: No colonies on each LB solid medium plate.

08/11/2018~08/15/2018

Repeat PCR amplification, 1% agarose gel electrophoresis, gel extraction and Gibson assembly protocols from Aug 6th to Aug 9th .

The gel extraction results:

Name of PlasmidConcentration/(ng/**μl)**A260/A280A260/A230
h16S75.51.791.23
GFP36.71.791.92
R-G10.51.710.05
O-ribo15.51.730.48

The Gibson Assembly reaction systems:

(Reaction systems: G1: GFP + R-G; G2: GFP + R-G; G3: h16S + O-ribo; G4: h16S + O-ribo)

ReagentVolume of G1/μlVolume of G2/μlVolume of G3/μlVolume of G4/μl
Gibson Assembly Master Mix (2×)10101010
Vector (R-G)6868
Insert (GFP)4242
Total Volume20202020

Then performed transformation of the Gibson products into E.coli DH5α Competent cells.

Result: No colonies on each LB solid medium plate.

08/16/2018~08/22/2018

Repeat PCR amplification and 1% agarose gel electrophoresis of R-G and O-ribo, and gel extraction of the R-G. and Gibson assembly protocols from Aug 6th to Aug 9th .

  1. The reaction systems of PCR amplification:
ReagentVolume/μl
NEB HiFi 2×PCR Master Mix25
Primer-F2.5
Primer-R2.5
Template1
ddH2O19
Total Volume50
  1. The programs of PCR amplifier:

(1) R-G:

StepTemperatureTimeCycles
Initial Denaturation 98°C 30 seconds 1
Denaturation 98°C 10 seconds 30
Annealing 65°C 30 seconds
Extension 72°C 2 minutes
Final Extension 72°C 2 minutes 1
Hold 4°C 1

(2) O-ribo:

StepTemperatureTimeCycles
Initial Denaturation 98°C 30 seconds 1
Denaturation 98°C 10 seconds 30
Annealing 65°C 30 seconds
Extension 72°C 2 minutes
Final Extension 72°C 2 minutes 1
Hold 4°C 1

Then the 1% agarose gel electrophoresis was followed by.

Results: the expected R-G bands were observed on the agarose gel, but there were no expected O-ribo bands.

  1. The gel extraction results:
Name of PlasmidConcentration/(ng/**μl)**A260/A280A260/A230
R-G18.81.820.04
  1. The Gibson Assembly reaction systems:

(Reaction systems: G1: GFP + R-G; G2: h16S + O-ribo)

ReagentVolume of G1/μlVolume of G2/μl
Gibson Assembly Master Mix (2×)1010
Vector4.194.2
Insert0.981
ddH2O4.834.8
Total Volume2020

Then gradient transformation was transformed of the Gibson products (GFP + R-G, labelled as “GFP”) into E.coli DH5α Competent cells.

Transformation in gradient:

Group 1: 0.2μl plasmid + 25μl E.coli DH5α Competent cells (labelled as “0.2GFP-①”“0.2GFP-②”“0.2GFP-③”)

Group 2: 0.5μl plasmid + 25μl E.coli DH5α Competent cells (labelled as “0.5GFP-①”“0.5GFP-②”“0.5GFP-③”)

Group 3: 1μl plasmid + 25μl E.coli DH5α Competent cells (labelled as “1GFP-①”“1GFP-②”“1GFP-③”)

Result: High-density colonies were performed on each group of LB solid medium plates.

  1. The colonies were picked and inoculated to liquid LB medium with chloramphenicol antibiotics, followed by plasmid DNA extraction.

The results of plasmid DNA extraction:

Name of PlasmidConcentration/(ng/**μl)**A260/A280A260/A230
0.2GFP-①524.51.892.38
0.2GFP-②600.01.892.38
0.5GFP-①589.81.872.36
0.5GFP-②475.01.912.35
0.5GFP-③500.71.912.32
1GFP-①388.01.862.35
1GFP-②437.51.882.34
1GFP-③491.51.872.36

Note: The bacterial fluid of 0.2GFP-③ wasn’t observed turbidity.

08/21/2018~08/29/2018

Repeat the following protocols (for many times) from Aug 21st to Aug 29th : PCR amplification and 1% agarose gel electrophoresis of R-G, and gel extraction of the R-G. and Gibson assembly protocols from Aug 6th to Aug 9th .

The labels of each assembly products were as follows:

LabelProtocol of Fragments Assembly
GHDR-G + GFP: HiFi Assembly → DpnI Digestion
GGDR-G + GFP: Gibson Assembly → DpnI Digestion
GHNR-G + GFP: HiFi Assembly → No Digestion
  1. PCR amplification of R-G:

The reaction systems of PCR amplification:

ReagentVolume/μl
NEB HiFi 2×PCR Master Mix25
Primer-F2.5
Primer-R2.5
Template1
ddH2O19
Total Volume50

The programs of PCR amplification were the same as that in Aug 6th:

StepTemperatureTimeCycles
Initial Denaturation 98°C 30 seconds 1
Denaturation 98°C 10 seconds 35
Annealing 55°C 30 seconds
Extension 72°C 30 seconds
Final Extension 72°C 2 minutes 1
Hold 4°C 1

Then the 1% agarose gel electrophoresis was followed by.

Results: The expected R-G bands were observed on the agarose gel.

  1. Gel extraction was performed after 1% agarose gel electrophoresis. The gel extraction results:
Name of PlasmidConcentration/(ng/μl)A260/A280A260/A230
R-G48.01.840.38
  1. The HiFi/Gibson Assembly reaction systems:

(Reaction systems: G1: GFP + R-G; G2: h16S + O-ribo)

ReagentVolume of GHN/μlVolume of GGN/μl
Gibson Assembly Master Mix (2×)1010
Vector3.23.2
Insert1.21.2
ddH2O5.65.2
Total Volume2020

Then DpnI digestion was performed as the following reaction systems:

ReagentVolume of GHD/μlVolume of GGD/μl
Hifi/Gibson Assembly Products88
10×Cutsmart11
DpnI11
Total Volume1010

Then gradient transformation was transformed of the DpnI digestion products into E.coli DH5α Competent cells.

Transformation in gradient (or in different groups):

Group 1: GHD① 0.5μl + 25μl E.coli DH5α Competent cells

Group 2: GGD① 1.5μl + 25μl E.coli DH5α Competent cells

Group 3: GHD② 0.2μl/0.5μl/1μl + 25μl E.coli DH5α Competent cells

Group 4: GGD② 0.7μl/1.5μl/2.5μl + 25μl E.coli DH5α Competent cells

Result: High-density colonies were performed on each group of LB solid medium plates.

  1. The colonies were picked and inoculated to liquid LB medium with ampicillin antibiotics, followed by plasmid DNA extraction.

    The results of plasmid DNA extraction:

Name of PlasmidConcentration/(ng/μl)A260/A280A260/A230
0.2GFP-①524.51.892.38
0.2GFP-②600.01.892.38
0.5GFP-①589.81.872.36
0.5GFP-②475.01.912.35
0.5GFP-③500.71.912.32
1GFP-①388.01.862.35
1GFP-②437.51.882.34
1GFP-③491.51.872.36

Note: The bacterial fluid of 0.2GFP-③ wasn’t observed turbidity.

08/21/2018~08/29/2018

Repeat the following protocols (for many times) from Aug 21st to Aug 29th : PCR amplification and 1% agarose gel electrophoresis of O-ribo and h16S, and gel extraction of the R-G. and Gibson assembly protocols from Aug 6th to Aug 9th .

The labels of each assembly products were as follows:

LabelProtocol of Fragments Assembly
OHDO-ribo + h16S: HiFi Assembly → DpnI Digestion
OGDO-ribo + h16S: Gibson Assembly → DpnI Digestion
OHNO-ribo + h16S: HiFi Assembly → No Digestion
o16S-LinLinearized vector of pUC57 containing h16S gene homologous sequence (start and terminate position)
  1. PCR amplification of R-G:

    The reaction systems of PCR amplification:

ReagentVolume/μl
NEB HiFi 2×PCR Master Mix25
Primer-F2.5
Primer-R2.5
Template1
ddH2O19
Total Volume50

The programs of PCR amplification were the same as that in Aug 6th:

StepTemperatureTimeCycles
Initial Denaturation 98°C 30 seconds 1
Denaturation 98°C 10 seconds 40
Annealing 65°C 30 seconds
Extension 72°C 2 minutes
Final Extension 72°C 2 minutes 1
Hold 4°C 1

Then the 1% agarose gel electrophoresis was followed by.

Results: The expected R-G bands were observed on the agarose gel.

  1. Gel extraction was performed after 1% agarose gel electrophoresis. The gel extraction results:
Name of PlasmidConcentration/(ng/**μl)**A260/A280A260/A230
o16S-Lin35.21.650.19
  1. Overlap PCR was performed with h16S and o16S-Lin (The product was labelled as “o-ribo①”“o-ribo②”):
ReagantsVolume in o-ribo①/μlVolume in o-ribo②/μl
NEB HiFi 2×PCR Master Mix1010
Insert55
Vector15
ddH2O40
Total Volume2020
  1. Then DpnI digestion was performed as the following reaction systems (The product was labelled as “o-ribo-I”“o-ribo-II”):
ReagentVolume of o-ribo-I/μlVolume of o-ribo-II/μl
Hifi/Gibson Assembly Products (o-ribo①/o-ribo②)88
10×Cutsmart11
DpnI11
Total Volume1010

Then transformation was transformed of the DpnI digestion products into E.coli DH5α Competent cells:

Group 1: 1.5μl o-ribo-I + 25μl E.coli DH5α Competent cells;

Group 2: 1.5μl o-ribo-II + 25μl E.coli DH5α Competent cells.

Result: A few colonies were performed on each group of LB solid medium plates.

The colonies were picked and inoculated to liquid LB medium with ampicillin antibiotics, followed by plasmid DNA extraction and sending extracted DNA for sequencing (many times).


 

In this part of our experiments, we constructed the plasmid (BBa_K2787021 in 2018 Part Library) to validate the function of orthogonal ribosome. The part we constructed is pCon-hRBS-RFP-Ter-pCon-oRBS-GFP-Ter in pSB1C3 backbone. The orthogonality was verified by GFP fluorescence intensity and RFP fluorescence intensity.

07/11/2018

E.coli strain recovery by activation culture

Three LB solid plates were spread on by the bacterial fluids containing the following plasmids separately: PRSF①, PRSF②, PRSF③. Then the three plates were incubated at 37°C for 16 hours.

Results: The colonies on three LB solid plates were all extremely dense and small.

07/12/2018

  1. The bacterial strains PRSF②, PRSF③ were reserved, while the PRSF① was discarded. The PRSF②, PRSF③ was relabelled as PRSF-1. PRSF-2.

  2. The monoclonal colonies were picked on the LB solid plate on Jul 11th, and was separately inoculated in the liquid LB medium with antibiotics. Then these obtained bacterial liquid in different tubes was shaken for 13 hours, and were spread 20μl on the LB solid plate with antibiotics.

    Results: The colonies on three LB solid plates were all extremely dense and small.

07/16/2018

For E.coli strain PRSF:

Monoclonal colonies were picked and innoculated to liquid LB medium with antibiotics, and these obtained bacterial fluids were shaken for 12 hours. Then plasmid DNA extraction was performed on each tube of bacterial fluids. The results of plasmid DNA extraction are as follows:

Name of PlasmidConcentration/(ng/**μl)**A260/A280A260/A230
PRSF-1176.11.962.11
PRSF-2225.81.952.23

The plasmid (used in the restriction enzyme digestion) was sent for sequencing.

07/17/2018

  1. PCR amplification was performed by each extracted plasmids PRSF-1

    Note: the annealing temperature was set at 67°C, and the extending time was set at 105 seconds.

  2. The 1% agarose gel electrophoresis was performed at 120V for 32 min.

    Result: There are two clear and bright bands at the position of 2,000 bp and 3,500 bp.

07/18/2018

  1. PCR amplification of vector and RFP:
Number123
TemplateVectorRFPRFP
Enzyme ManufacturerNEBNEBTIANGEN Pfw
Annealing Temperature677158
Extension time1 min 45 seconds30 seconds1 min 30 senconds

1% agarose gel electrophoresis (120V, 45 min); DL 5000 marker was used.Then the No.3 DNA on the gel was discarded.

  1. Gel extraction was performed to collect vector and insert (RFP gene sequence) DNA.
Name of PlasmidConcentration/(ng/**μl)**A260/A280A260/A230
pSEVA GFP (vector)17.51.820.99
pSEVA RFP (insert)161.11.832.08
  1. Gibson Assembly of vector and insert
ReagentVolume/μl
Gibson Assembly Master Mix (2×)10
Vector5
Insert1.5
ddH2O3.5
Total Volume20
  1. Transformation of Gibson assembly products (Using E.coli DH5α strain)

    Result: No colonies on the solid LB medium (while the positive control performed well).

07/19/2018

The plate was spreaded using the Gibson assembly product again.

Result: No colonies on the solid LB medium (while the positive control performed well).

07/20/2018

  1. NEB HiFi assembly of vector and insert:
ReagentVolume/μl
Gibson Assembly Master Mix (2×)10
Vector5
Insert1.5
ddH2O3.5
Total Volume20
  1. Transformation of Gibson assembly products

Result: No colonies on the solid LB medium (while the positive control performed well).

07/21/2018~07/23/2018

The experiment of Gibson Assembly on Jul 18th and Jul 21st was performed again on this day. Then the transformation of Gibson assembly products to DH5α was performed. After viewing monoclonal colonies 15 hours later, three colonies were picked to innoculate in the LB liquid with antibiotics, and the bacterial fluids were shaked in the 37°C shaker overnight. Then the plasmid DNA extraction was performed, and 20μl of the extracted plasmid were sent for sequencing.

08/06/2018~08/08/2018

  1. PCR amplification of vector and RFP:
Number12
TemplateVectorRFP
Enzyme ManufacturerNEBPfu
Annealing Temperature6758
Extension time1 min 45 seconds1 min 30 seconds

1% agarose gel electrophoresis (120V, 45 min); DL 5000 marker was used.

  1. Gel extraction was performed to collect vector and insert (RFP gene sequence) DNA.
Name of PlasmidConcentration/(ng/μl)A260/A280A260/A230
pSEVA GFP (vector)14.31.891.58
pSEVA RFP (insert)23.01.971.67
  1. Gibson Assembly of vector and insert
ReagentVolume/μl
Gibson Assembly Master Mix15
Vector3.8
Insert1.2
Total Volume20
  1. Transformation of Gibson assembly products (Using E.coli DH5α strain) were performed, and then two of the colonies were picked to the liquid LB medium.

Result: No turbidity in the bacterial liquid.

08/12/2018~08/13/2018

  1. PCR amplification of vector and RFP:
Number12
TemplateVectorRFP
Enzyme ManufacturerNEBPfu
Annealing Temperature6758
Extension time1 min 45 seconds1 min 30 seconds

1% agarose gel electrophoresis (120V, 45 min); DL 5000 marker was used.

  1. Gel extraction was performed to collect vector and insert (RFP gene sequence) DNA.
Name of PlasmidConcentration/(ng/μl)A260/A280A260/A230
pSEVA GFP (vector)14.31.891.58
pSEVA RFP (insert)23.01.971.67
  1. Gibson Assembly of vector and insert
ReagentVolume/μl
Gibson Assembly Master Mix (2×)10
Vector7.5
Insert2.5
Total Volume20

Two parallel Gibson Assembly in the above form were performed.

  1. Transformation of Gibson assembly products (Using E.coli DH5α strain) were performed, and then two of the colonies were picked to the liquid LB medium.

    Result: No turbidity in the bacterial liquid.

08/15/2018~08/17/2018

  1. PCR amplification of vector and RFP:
Number12
TemplateVectorRFP
Enzyme ManufacturerNEBNEB
Annealing Temperature6671
Extension time1 min 45 seconds30 seconds

1% agarose gel electrophoresis (120V, 45 min); DL 5000 marker was used.

  1. Gel extraction was performed to collect vector and insert (RFP gene sequence) DNA and Gibson Assembly of vector and insert
ReagentVolume/μl
Gibson Assembly Master Mix (2×)10
Vector3.5
Insert1.5
ddH2O5
Total Volume20

Two parallel Gibson Assembly in the above form were performed.

  1. Transformation of Gibson assembly products (Using E.coli DH5α strain) were performed, and then two of the colonies were picked to the liquid LB medium.

    Result: No turbidity in the bacterial liquid.

08/17/2018~08/20/2018

  1. PCR amplification of vector and RFP:
Number12
TemplateVectorRFP
Enzyme ManufacturerNEBNEB
Annealing Temperature6671
Extension time1 min 45 seconds30 seconds

Then purification of PCR products was directly performed (No gel electrophoresis).

  1. Gel extraction was performed to collect vector and insert (RFP gene sequence) DNA, following by DpnI digestion was performed to eliminate the template DNA:
ReagentVolume/μl
PCR Products of Vector (or Insert)8
10×CutSmart1
DpnI1

Gibson Assembly of vector and insert

ReagentVolume/μl
Gibson Assembly Master Mix (2×)10
Vector0.6
Insert1.8
ddH2O7.6
Total Volume20

Two parallel Gibson Assembly in the above form were performed.

  1. Transformation of Gibson assembly products (DpnI digested) were performed:

    Group 1: 1μl Gibson products were added to 25μl DH5α competent cells.

    Group 2: The following volume of Gibson poducts (DpnI digestion first, then Gibson assembly) were separately added to 25μl DH5α competent cells: 0.5μl, 1μl, 2.5μl, 5μl.

    Group 3: The following volume of Gibson poducts (Gibson assembly first, then DpnI digestion) were separately added to 25μl DH5α competent cells: 0.5μl, 1μl, 2.5μl, 5μl.

    After transformation, two of the colonies on each of the nine LB medium were picked to the liquid LB medium. Then the plasmid DNA extraction was performed, and 20μl of the extracted plasmid were sent for sequencing.

    Result: The target fragment was successfully inserted to the vector.


 

In this part of our experiments, we performed site-directed mutation of host ribosome binding site (hRBS) to orthogonal ribosome binding site (oRBS).

 

09/03/2018

Experimental goal: T4 vector ligation with PCR products

Experimental steps:

  1. Adding A tail to PCR products:

    Reaction system:

ReagentsVolume/μl
Template (100ng/μl)20
Datp (10ng/μl)1
Taq1
Buffer3
ddH2O5
Total volume30

The reaction system was incubated at 72°C for 1 hour.

  1. T4 vector ligation:

    One fast reaction and one slow reaction.

  2. Transformation, blue and white spot experiment

    Reaction system:

ReagentsVolume/μl
IPTG40
Xgal13

09/04/2018

Experimental goal: h-ribo SD sequence mutation [mutA2 & mutB8]

Experimental steps:

  1. PCR mutagenesis:

Reaction system:

ReagentsVolume/μl
Template (100ng/μl)1
Primer F (10ng/μl)1
Primer R (10ng/μl)1
Q5_mix(2x)20
ddH2O17
Total volume40

Program of PCR amplifier:

StepTemperatureTimeCycles
Initial Denaturation 95°C 5 minutes 1
Denaturation 95°C 30 seconds 30
Annealing 56°C 30 seconds
Extension 72°C 3 minutes
Final Extension 72°C 5 minutes 1
Hold 4°C 1
  1. Dpn I digestion

Reaction system:

ReagentsVolume/μl
PCR product20
Buffer(10x)2.5
Dpn I0.5
ddH2O2
Total volume25

The reaction system was incubated at 37°C for 2 hours.

  1. PCR product purification
  2. Transformation

09/05/2018

  1. Experimental goal: plasmid DNA amplification

    Experimental steps:

    a. Pick a single colony [over-density]

    b. LB amplification (Amp+)

  2. Experimental goal: h-ribo SD sequence mutation [9-4 repeat]

    Experimental steps:

    a. PCR mutagenesis

    Reaction system:

ReagentsVolume/μl
Template (100ng/μl)1
Primer F (10ng/μl)1
Primer R (10ng/μl)1
Q5_mix(2x)20
ddH2O17
Total volume40

Program of PCR amplifier:

StepTemperatureTimeCycles
Initial Denaturation 95°C 5 minutes 1
Denaturation 95°C 30 seconds 30
Annealing 56°C 30 seconds
Extension 72°C 3 minutes
Final Extension 72°C 5 minutes 1
Hold 4°C 1

b.DpnI digestion

Reaction system:

ReagentsVolume/μl
PCR product20
Buffer(10x)2.5
Dpn I0.5
ddH2O2
Total volume25

The reaction system was incubated at 37°C for 2 hours.

c. PCR product purification

d.Tranformation

09/06/2018

  1. Experimental goal: plasmid amplification

    Experimental steps:

a. Pick [9-5 mutant board] single colonies [over-density]

b. Plasmid subtle [9-5] inoculated bacterial solution

  1. Experimental goal: h-ribo mutation [a2 and b8]

    Experimental steps:

a. PCR mutagenesis

Reaction system:

ReagentsVolume/μl
Template (100ng/μl)1
Primer F (10ng/μl)1
Primer R (10ng/μl)1
Q5_mix(2x)20
ddH2O17
Total volume40

Program of PCR amplifier:

StepTemperatureTimeCycles
Initial Denaturation 95°C 5 minutes 1
Denaturation 95°C 30 seconds 30
Annealing 56°C 30 seconds
Extension 72°C 3 minutes
Final Extension 72°C 5 minutes 1
Hold 4°C 1

b. DpnI digestion

Reaction system:

ReagentsVolume/μl
PCR product20
Buffer(10x)2.5
Dpn I0.5
ddH2O2
Total volume25

The reaction system was incubated at 37°C for 2 hours.

c. PCR product purification

d. Transformation

09/07/2018

Experimental goal: verification of plasmid

Experimental steps:

  1. Pick [9-6] single colonies
  2. Plasmid DNA extraction of inoculated bacterial solution [from 9 am-7 pm]
  3. Send the extracted plasmids for sequencing

09/09/2018

Experimental goal: h-ribo SD sequence mutation [mutA2 & mutB8]

Experimental steps:

  1. PCR mutagenesis

    Reaction system:

ReagentsVolume/μl
Template (100ng/μl)1
Primer F (10ng/μl)1
Primer R (10ng/μl)1
Q5_mix(2x)20
ddH2O17
Total volume40

Program of PCR amplifier:

StepTemperatureTimeCycles
Initial Denaturation 95°C 5 minutes 1
Denaturation 95°C 30 seconds 30
Annealing 56°C 30 seconds
Extension 72°C 3 minutes
Final Extension 72°C 5 minutes 1
Hold 4°C 1
  1. DpnI digestion

    Reaction system:

ReagentsVolume/μl
PCR product20
Buffer(10x)2.5
Dpn I0.5
ddH2O2
Total volume25

The reaction system was incubated at 37°C for 2 hours.

09/10/2018

  1. Experimental goal: plasmid amplification

    Experimental steps:

    Pick single colonies from the LB medium (on Sep 9th) with mutant strain [No colonies observed]

  2. Experimental goal: h-ribo SD sequence mutation [mutA2 & mutB8][9-9 repeat]

a. PCR mutagenesis (Protocol of Teacher Gaofeng Fan)

Reaction system:

ReagentsVolume/μl
Template (10ng/μl)5
Primer F (10 ng/μl)1.25
Primer R (10ng/μl)1.25
Restriction Endonuclease1
Buffer(10x)5
ddH2O36.5
Total volume50

Program of PCR amplifier:

StepTemperatureTimeCycles
Initial Denaturation 95°C 5 minutes 1
Denaturation 95°C 30 seconds 18
Annealing 60°C 30 seconds
Extension 72°C 5 minutes
Final Extension 72°C 5 minutes 1
Hold 4°C 1

b. Dpn I digestion

Reaction system:

ReagentsVolume/μl
PCR product20
Buffer(10x)2.5
Dpn I0.5
ddH2O2
Total volume25

The reaction system was incubated at 37°C for 2 hours.

c. PCR product purification

d. Transformation

09/11/2018

  1. Experimental goal: plasmid amplification

    Experimental steps:

    a. Pick single colonies from the LB solid medium (on Sep 10th) with mutant strain

    b. Plasmid DNA extraction

  2. Experimental goal: h-ribo mutation [m2 & m8]

    Experimental steps:

    a. PCR mutagenesis (Protocol of Teacher Gaofeng Fan)

    Reaction system:

ReagentsVolume/μl
Template (10ng/μl)5
Primer F (10 ng/μl)1.25
Primer R (10ng/μl)1.25
Restriction Endonuclease1
Buffer(10x)5
ddH2O36.5
Total volume50

Program of PCR amplifier:

StepTemperatureTimeCycles
Initial Denaturation 95°C 5 minutes 1
Denaturation 95°C 30 seconds 18
Annealing 60°C 30 seconds
Extension 72°C 5 minutes
Final Extension 72°C 5 minutes 1
Hold 4°C 1

b. Dpn I digestion

Reaction system:

ReagentsVolume/μl
PCR product20
Buffer(10x)2.5
Dpn I0.5
ddH2O2
Total volume25

The reaction system was incubated at 37°C for 2 hours.

c. PCR product purification

d.Transformation

09/12/2018

Experimental goal: verification of plasmid

Experimental steps:

  1. Pick single colonies (on the LB solid medium on Sep 11th)
  2. Plasmid DNA extraction (in the morning of Sep 12th) of inoculated bacterial fluid

09/15/2018

Experimental goal: h-ribo SD sequence mutation [mutA2 & mutB8]

Experimental steps:

  1. PCR mutagenesis (PFU protocol)

    Reaction system:

ReagentsVolume/μl
Template (10ng/μl)4
Primer F (10ng/μl)1
Primer R (10ng/μl)1
Pfu_mix(2x)20
ddH2O14
Total volume40

Program of PCR amplifier:

StepTemperatureTimeCycles
Initial Denaturation 95°C 5 minutes 1
Denaturation 95°C 30 seconds 30
Annealing 56°C 30 seconds
Extension 68°C 10 minutes
Final Extension 68°C 5 minutes 1
Hold 4°C 1
  1. Dpn I digestion

    Reaction system:

ReagentsVolume/μl
PCR product20
Buffer(10x)2.5
Dpn I0.5
ddH2O2
Total volume25

The reaction system was incubated at 37°C for 2 hours, then incubated at 4°C overnight.

  1. PCR product purification
  2. Transformation (Followed by picking single colonies and inoculate into LB medium with antibiotics, shaking bacteria fluids and plasmid DNA extraction, sending for sequencing for verification of plasmids over the next few days)

ShanghaiTech iGEM @ 2018