Team:XMU-China/Labjournal

From 2011.igem.org

(Difference between revisions)
(Week 20-22(28th Aug.—17th Sep.))
 
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(We thought the part didn’t exist in the registry and we had constructed a new part. But, afterwards, we found it(BBa_F2622) did exist! )
(We thought the part didn’t exist in the registry and we had constructed a new part. But, afterwards, we found it(BBa_F2622) did exist! )
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XXXXXXXXXXXXXX Fig.150 XXXXXXXXXXXXXXXXXXXX
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===Week 2(10th Apr.—16th Apr.)===
===Week 2(10th Apr.—16th Apr.)===
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Constructing the BioBrick H. The figure shown below and sequence analysis can indicate that it is correctly constructed.
Constructing the BioBrick H. The figure shown below and sequence analysis can indicate that it is correctly constructed.
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XXXXXXXXXXXXXXXXX Fig.151 XXXXXXXXXXXXXXXXXX
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[[Image:XMU_China_151.jpg|left]]
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===Week 4(24th Apr.—30th Apr.)===
===Week 4(24th Apr.—30th Apr.)===
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Testing on the performance of the part using different concentrations of AHL as inducer.The result is shown as follows:
Testing on the performance of the part using different concentrations of AHL as inducer.The result is shown as follows:
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XXXXXXXXXXXXXXXXXX Fig.152 XXXXXXXXXXXXXXXXXX
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[[Image:XMU_China_152.jpg|left]]
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===Week 5-8(1st May—28th May)===
===Week 5-8(1st May—28th May)===
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Constructing the population-control device with RBS0.07
Constructing the population-control device with RBS0.07
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XXXXXXXXXXXXXXXXXXX Fig.153 XXXXXXXXXXXXXXXXXX
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S1:  single endonuclease digestion of pSB1A2-PlacO-1-RBS1.0-luxI-TT
S1:  single endonuclease digestion of pSB1A2-PlacO-1-RBS1.0-luxI-TT
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Constructing the population-control device with RBS1.0
Constructing the population-control device with RBS1.0
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XXXXXXXXXXXXXXXXXXXXX Fig.154 XXXXXXXXXXXXXXXXXXXXXXXXX
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S1: single endonuclease digestion of pSB1A2-PlacO-1-RBS1.0-luxI-TT;
S1: single endonuclease digestion of pSB1A2-PlacO-1-RBS1.0-luxI-TT;
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Constructing the population-control device with RBS0.3
Constructing the population-control device with RBS0.3
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XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX Fig.155 XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX
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[[Image:XMU_China_155.jpg|left]]
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S1: single endonuclease digestion of pSB1A2-PlacO-1-RBS1.0-luxI-TT
S1: single endonuclease digestion of pSB1A2-PlacO-1-RBS1.0-luxI-TT
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Conducting the experiment on the cell growth of the two devices with RBS0.07.
Conducting the experiment on the cell growth of the two devices with RBS0.07.
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XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX Fig.156 XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX
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[[Image:XMU_China_156.jpg|left]]
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Conducting the experiment on the viable cell density at steady state of the four devices with RBS0.07, RBS0.3, RBS0.6 and RBS1.0
Conducting the experiment on the viable cell density at steady state of the four devices with RBS0.07, RBS0.3, RBS0.6 and RBS1.0
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XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX Fig.157 XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX
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[[Image:XMU_China_157.jpg|left]]
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===Week 9-17(29th May—30th Jul.)===
===Week 9-17(29th May—30th Jul.)===
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Proving the three mutants wrong which is shown as follows:
Proving the three mutants wrong which is shown as follows:
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XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX Fig.158 XXXXXXXXXXXXXXXXXXXXXXXXXX
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By restriction analysis, the restored IR-gfp identified to be broken  
By restriction analysis, the restored IR-gfp identified to be broken  
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XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX Fig.159 XXXXXXXXXXXXXXXXXXXXXXXXXXXXXX
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[[Image:XMU_China_159.jpg|left]]
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Reconstructing IR-gfp  
Reconstructing IR-gfp  
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XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX Fig.160 XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX
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Successfully getting the mutant at site 3, site 5 and site 3/5 which can be verified by sequence analysis
Successfully getting the mutant at site 3, site 5 and site 3/5 which can be verified by sequence analysis
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XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX Fig.161 XXXXXXXXXXXXXXXXXXXXXXXXXXXXX
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[[Image:XMU_China_161.jpg|left]]
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[[Image:XMU_China_162.jpg|left]]
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XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX Fig.162 XXXXXXXXXXXXXXXXXXXXXXXXXXXX
 
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[[Image:XMU_China_163.jpg|left]]
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XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX Fig.163 XXXXXXXXXXXXXXXXXXXXXXXXXXXXX
 
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XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX Fig.164 XXXXXXXXXXXXXXXXXXXXXXXXXXXXX
 
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XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX Fig.165XXXXXXXXXXXXXXXXXXXXXXXXXXXXX
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XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX Fig.166 XXXXXXXXXXXXXXXXXXXXXXXXXXXXX
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===Week 18-21(31st Jul.—27th Aug.)===
===Week 18-21(31st Jul.—27th Aug.)===
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XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX Fig.167 XXXXXXXXXXXXXXXXXXXXXXXXXXXXX
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XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX Fig.168 XXXXXXXXXXXXXXXXXXXXXXXXXXXXX
 
Successfully getting the mutant H3
Successfully getting the mutant H3
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XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX Fig.169 XXXXXXXXXXXXXXXXXXXXXXXXXXXXX
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===Week 20-22(28th Aug.—17th Sep.)===
===Week 20-22(28th Aug.—17th Sep.)===
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XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX Fig.170 XXXXXXXXXXXXXXXXXXXXXXXXXXXXX
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XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX Fig.171 XXXXXXXXXXXXXXXXXXXXXXXXXXXXX
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XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX Fig.172 XXXXXXXXXXXXXXXXXXXXXXXXXXXXX
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XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX Fig.173 XXXXXXXXXXXXXXXXXXXXXXXXXXXXX
 
===Week 23(18th Sep.—24th Sep.)===
===Week 23(18th Sep.—24th Sep.)===
Changing the backbone of the plasmids according to the requirement
Changing the backbone of the plasmids according to the requirement

Latest revision as of 01:43, 6 October 2011


Contents

Wetlab journal

Week 1(3rd Apr.—9th Apr.)

Aim:

By replacing the promoter of the existing BioBrick BBa_F2621 with Placo-1, the expression of the downstream sequence can be controlled by adding IPTG.

Performance:

Constructing the new BioBrick BBa_K658000 (The figure below and sequence analysis can indicate it is correctly constructed.)

Testing the expression of BBa_K658000 by adding IPTG (We thought the part didn’t exist in the registry and we had constructed a new part. But, afterwards, we found it(BBa_F2622) did exist! )

XMU China 150.jpg


Week 2(10th Apr.—16th Apr.)

Aim:

By combining the BioBrick BBa_R0011, BBa_F1610 and BBa_K65800, we can get a new BioBrick which is part of the bacteria population-control device we have planned to design.

Performance:

Constructing the new BioBrick IR(BBa_K658012)

Week 3(17th Apr.—23rd Apr.)

Aim:

By adding the killer gene to the Biobrick IR, we can finally get the bacteria population-control device H(BBa_K658003).

Performance:

Constructing the BioBrick H. The figure shown below and sequence analysis can indicate that it is correctly constructed.

XMU China 151.jpg


Week 4(24th Apr.—30th Apr.)

Aim:

We plan to construct a new part in order to test how the concentration of AHL can affect the expression of the downstream sequence under the control of lux pR. Performance:

Successfully construct the new part BBa_K658022 Testing on the performance of the part using different concentrations of AHL as inducer.The result is shown as follows:

XMU China 152.jpg


Week 5-8(1st May—28th May)

Aim:

In order to investigate the performance of the device(iccdB) under different conditions, we plan to construct several devices with RBS of different efficiency to see how RBS can affect the functioning of the device.

Performance:

Week 5-7(1st May—21st May)

Constructing the population-control device with RBS0.07

XMU China 153.jpg


S1: single endonuclease digestion of pSB1A2-PlacO-1-RBS1.0-luxI-TT

S2: double endonuclease digestion of pSB1A2-PlacO-1-RBS1.0-luxI-TT

S3: single endonuclease digestion of pSB1A2-PlacO-1-RBS1.0-luxR-TT-lux pR

S4: double endonuclease digestion of pSB1A2-PlacO-1-RBS1.0-luxR-TT-lux pR

S5: single endonuclease digestion of pSB1A2-PlacO-1-RBS1.0-luxI-TT-PlacO-1-RBS1.0-luxR-TT-lux pR

S6: double endonuclease digestion of pSB1A2-PlacO-1-RBS1.0-luxI-TT-PlacO-1-RBS1.0-luxR-TT-lux pR

S7: single endonuclease digestion of pSB1AK3-lacZɑ-ccdB-TT

S8: double endonuclease digestion of pSB1AK3-lacZɑ-ccdB-TT

S9: single endonuclease digestion of pSB1A2-RBS0.07-lacZɑ-ccdB-TT

S10: double endonuclease digestion of pSB1A2-RBS0.07-lacZɑ-ccdB-TT

S11: single endonuclease digestion of pSB1A2-PlacO-1-RBS1.0-luxI-TT-PlacO-1-RBS1.0-luxR-TT-luxpR-RBS0.07-lacZɑ-ccdB-TT

S12: double endonuclease digestion of pSB1A2-PlacO-1-RBS1.0-luxI-TT-PlacO-1-RBS1.0-luxR-TT-luxpR-RBS0.07-lacZɑ-ccdB-TT


Constructing the population-control device with RBS1.0

XMU China 154.jpg


S1: single endonuclease digestion of pSB1A2-PlacO-1-RBS1.0-luxI-TT;

S2: double endonuclease digestion of pSB1A2-PlacO-1-RBS1.0-luxI-TT ;

S3: single endonuclease digestion of pSB1A2-PlacO-1-RBS1.0-luxR-TT-lux pR

S4: double endonuclease digestion of pSB1A2-PlacO-1-RBS1.0-luxR-TT-lux pR

S5: single endonuclease digestion of pSB1A2-PlacO-1-RBS1.0-luxI-TT-PlacO-1-RBS1.0-luxR-TT-lux pR

S6: double endonuclease digestion Of pSB1A2-PlacO-1-RBS1.0-luxI-TT-PlacO-1-RBS1.0-luxR-TT-lux pR

S7: single endonuclease digestion of pSB1A2-RBS0.6-lacZɑ-ccdB

S8: double endonuclease digestion of pSB1A2-RBS0.6-lacZɑ-ccdB

S9: single endonuclease digestion Of pSB1A2-PlacO-1-RBS1.0-luxI-TT-PlacO-1-RBS1.0-luxR-TT-luxpR-RBS0.6-lacZɑ-ccdB

S10: double endonuclease digestion Of pSB1A2-PlacO-1-RBS1.0-luxI-TT-PlacO-1-RBS1.0-luxR-TT-luxpR-RBS0.6-lacZɑ-ccdB

S11: single endonuclease digestion Of pSB1A2-PlacO-1-RBS1.0-luxI-TT-PlacO-1-RBS1.0-luxR-TT-luxpR-RBS0.6-lacZɑ-ccdB

S12: double endonuclease digestion Of pSB1A2-PlacO-1-RBS1.0-luxI-TT-PlacO-1-RBS1.0-luxR-TT-luxpR-RBS0.6-lacZɑ-ccdB


Constructing the population-control device with RBS0.3

XMU China 155.jpg


S1: single endonuclease digestion of pSB1A2-PlacO-1-RBS1.0-luxI-TT

S2: double endonuclease digestion of pSB1A2-PlacO-1-RBS1.0-luxI-TT

S3: single endonuclease digestion of pSB1A2-PlacO-1-RBS1.0-luxR-TT-lux pR

S4: double endonuclease digestion of pSB1A2-PlacO-1-RBS1.0-luxR-TT-lux pR

S5: single endonuclease digestion of pSB1A2-PlacO-1-RBS1.0-luxI-TT-PlacO-1-RBS1.0-luxR-TT-lux pR

S6: double endonuclease digestion of pSB1A2-PlacO-1-RBS1.0-luxI-TT-PlacO-1-RBS1.0-luxR-TT-lux pR

S7: single endonuclease digestion of pSB1A2-RBS0.3-lacZɑ-ccdB

S8: double endonuclease digestion of pSB1A2-RBS0.3-lacZɑ-ccdB

S9: single endonuclease digestion of pSB1A2-PlacO-1-RBS1.0-luxI-TT-PlacO-1-RBS1.0-luxR-TT-luxpR-RBS0.3-lacZɑ-ccdB

S10: double endonuclease digestion of pSB1A2-PlacO-1-RBS1.0-luxI-TT-PlacO-1-RBS1.0-luxR-TT-luxpR-RBS0.3-lacZɑ-ccdB

S11: single endonuclease digestion of pSB1A2-PlacO-1-RBS1.0-luxI-TT-PlacO-1-RBS1.0-luxR-TT-luxpR-RBS0.3-lacZɑ-ccdB

S12: double endonuclease digestion of pSB1A2-PlacO-1-RBS1.0-luxI-TT-PlacO-1-RBS1.0-luxR-TT-luxpR-RBS0.3-lacZɑ-ccdB


Week 8(22nd May—28th May)

Conducting the experiment on the cell growth of the two devices with RBS0.07.

XMU China 156.jpg


Conducting the experiment on the viable cell density at steady state of the four devices with RBS0.07, RBS0.3, RBS0.6 and RBS1.0

XMU China 157.jpg


Week 9-17(29th May—30th Jul.)

Aim:

The promoter lux pR can also affect the functioning of the device. So we plan to mutate the promoter lux pR to see how the mutation in lux pR can affect functioning of device. Before testing on the population-control device, we try to construct another device to test how the mutation of the promoter can affect the expression of the downstream gene. In the following experiment, we plan to use the gene of gfp to show the expression.

Performance:

Week 9(29th May—4th Jun.)

Constructing the device IR-gfp (BBa_K658016)


Week 10(5th Jun.—11th Jun.)

Experiment suspended because of exams.


Week 11(12th Jun.—18th Jun.)

Mutation of lux pR being carried out


Week 12(19th Jun. —25th Jun.)

Experiment suspended becauce of an internship in a factory away from Xiamen.


Week 13(26th Jun.—2nd Jul.)

Continuing the work of last week and getting three mutants Proving the three mutants wrong which is shown as follows:

XMU China 158.jpg


Week 14(3rd Jul.--9th Jul.)

By restriction analysis, the restored IR-gfp identified to be broken

XMU China 159.jpg


Reconstructing IR-gfp

XMU China 160.jpg


Week 15-16(10th Jul.--23rd Jul.)

Successfully getting the mutant at site 3, site 5 and site 3/5 which can be verified by sequence analysis

XMU China 161.jpg
XMU China 162.jpg


XMU China 163.jpg


XMU China 164.jpg


Week 17(24th Jul.—30th Jul.)

Conducting the experiment of determining the fluorescence curve of the three devices with mutations respectively at site 3, 5, 3/5


XMU China 165.jpg


XMU China 166.jpg


Week 18-21(31st Jul.—27th Aug.)

Aim:

We plan to mutate the lux pR to see how the mutation in lux pR can affect functioning of the population-control device.

Performance:

Week 16(31st Jul. —6th Aug.) Activation of H for the following experiment


XMU China 167.jpg


XMU China 168.jpg


Successfully getting the mutant H3

The intended 5-site mutation turning out to be mutated at 5/15 and 5/20


Week 17-18(7th Aug.—20th Aug.)

Successfully getting the mutant at site 5 and 3/5


Week 19(21st Aug. —27th Aug.)

Conducting the experiment of the bacteria quantity of the population-control device with mutations respectively at site 3, 5, 3/5


XMU China 169.jpg


Week 20-22(28th Aug.—17th Sep.)

Aim:

In order to further study whether the population-control device has an impact on the the expression of the downstream gene, we plan to add the gene gfp to the population-control device to examine it.

Performance:

Week 20(28th Aug.—3rd Sep.)

Constructing the BioBrick H62M19(BBa_K658020)

Constructing 62M19(BBa_K658021)


XMU China 170.jpg


XMU China 171.jpg


Week 21(4th Sep.—10th Sep.)

Conducting the experiment of determining the fluorescence curves of H62M19 and 62M19

Reviewing the experimental process of the week and sorting out mistakes we have made


Week 22(11th Sep.—17th Sep.)

Repeating and optimizing the work done last week to get better results.


XMU China 172.jpg


XMU China 173.jpg


Week 23(18th Sep.—24th Sep.)

Changing the backbone of the plasmids according to the requirement