Team:HokkaidoU Japan/Notebook/aggregation Week 9

From 2012.igem.org

Contents

August 27th

Aggregation check

We found a lot of colonies on LBA plate, spreaded at August 26th. We incubated 3 colonies in LBAK solution including 1% L-arabinose for 18 hrs. However, we could not find expression of Ag43 protein.

Plasmid extraction

We used FastGene Plasmid Mini Kit(Nippon Genetics) and got 50 ul of DNA solutions.

Plasmid extraction resulsts

Colony PCR

Colony PCR to confirm that whether the pT7-RBS-Ag43-dT on pSB1C3 was successfully ligated or not.

DNA solution 4 ul
Kapa-Taq(Taq polymerase) 5 ul
Forward Primer(ag43-f4 primer) 0.5 ul
Reverse Primer(200bp down primer) 0.5 ul
Total 10 ul


Number Degree Second
1 95 120
2 95 30
3 53.0 30
4 72 60
5 72 60
6 4 HOLD

Cycle:2~4 x 35

We used N1 (DW only) and N2 (Ag43-dT on pSB1AK3) as controls. Desired product is about 695bp.

Colony PCR result


The result did not show the band clearly. We selected No.1 and 2 colony for incubation.

Incubation for plasmid extraction of pT7-RBS-Ag43-dT on pSB1C3

Incubation of pT7-RBS-Ag43-dT on pSB1C3 in LBC liquid medium.

  1. Prepared 2 ml LBC into culture tubes.
  2. Re-suspended 2 colonies (No.1 and No.2 respectively).
  3. Incubated at 37C for 15 hrs.

Transformation of ptet-RBS(B0034)-CFP-dT on pSB1A2

  1. Mixed 1 ul DNA to 50 ul of thawed competent cells on ice.
  2. Incubated on ice for 30 min.
  3. Mixed 350 ul of LB.
  4. Prepared and Labeled two plastic plates with LBC.
  5. Plated 300 ul of the culture onto first dish and spread.
  6. Mixed 450 ul of LB to 50 ul of the culture and plated 300 ul of it onto second dish and spread.
  7. Incubated the plates at 37C for 15 hours.

PCR of RBS-YFP-dT

Amplified the construct with 100bp-up-EX primer and 200bp-down-PS primer. Mixed PCR solutions.

Solution Volume (ul)
DNA 1
100bp-up-EX 1
200bp-down-PS 1
MgSO4 3
dNTP 5
10x KOD-Plus-Neo Buffer 5
KOD-Plus-Neo 1
DW 33
Total 50
Number Degree Second
1 94 120
2 98 10
3 58.2 30
4 68 60
5 4 HOLD

Cycle:2~4 x 35


August 28th

Digestion

We digested plasmid extraction products (pBAD-RBS-Ag43-dT on pSB1AK3) by EcoRI and SpeI. Because I'd like to check the size of insert and vector of getting plasmid.

DNA solution 5 ul
EcoRI 1 ul
SpeI 1 ul
10xH buffer 2 ul
DW 11 ul
Total 20 ul


Number Degree Minute
1 37 180
2 60 15
3 4 HOLD
digestion result

Gel extraction

Gel extraction for digestion product. We used FastGene Gel&PCR extraction kit(NipponGenetics)and got 50 ul of DNA solution.

Plasmid extraction of pT7-RBS-Ag43-dT on pSB1C3

Plasmid extraction of pT7-RBS-Ag43-dT on pSB1C3. We re-suspended No.1,2 colonies and incubated.

Plasmid extraction result

Estimation of Concentration of RBS-eYFP-dT and ptetR-pSB1A2

Solution Value (ul)
1kb ladder 1
Insert 1
Vector 1
Electrophoresis result

From this result, We estimated that the concentration of Insert DNA solution is about 40 ng/ul, and Vector DNA is also about 40 ng/ul.

Digestion of ptet-pSB1A2 and RBS-Ag43-dT

ptet-pSB1A2(Vector) was digested with SpeI and PstI, and RBS-Ag43-dT(Insert) was cut with XbaI and PstI.
Vector

DNA solution (40 ng/ul) 5 ul
SpeI 0.5 ul
PstI 0.5 ul
10xH buffer 2 ul
DW 12 ul
Total 20 ul


Inset

DNA solution (40 ng/ul) 14 ul
XbaI 1 ul
PstI 1 ul
10xM buffer 2 ul
DW 2 ul
Total 20 ul


Number Degree Minute
1 37 180
2 60 15
3 4 HOLD


digestion result

From this result, we confirmed that Insert and Vector DNA were digested.

Ethanol Precipitation

Ethanol precipitation for ptet-pSB1A2 and RBS-eYFP-dT digestion products.

  1. Added 5 ul of NaoAc, 1.5 ul of glycogen and 125 ul of 100% ethanol.
  2. Centrifuged at 15000 rpm, 15 min at 4C.
  3. Removed supernatant and added 220 ul of 70% ethanol.
  4. Centrifuged at 15000 rpm, 10 min at 4C.
  5. Removed supernatant and dried out at room temperature, after that added 10 ul of DW.

Ligation

Ligation for ptet-pSB1A2 and RBS-eYFP-dT. We used Ligation Mighty Mix (TAKARA BIO INC.) which contains ligase and buffer.


Vector DNA 3 ul
Insert DNA 3 ul
Ligation Mighty Mix 6 ul
Total 12 ul


Ligation reaction time was in detail below.

Degree Minute
16 30
65 10
4 Hold

Transformation

Transformation for ligation product (ptet-RBs-eYFP-dT on pSB1A2) into DH5α.

  1. Mixed 1 ul of DNA to 50 ul of thawed competent cells on ice.
  2. Incubated on ice for 30 min.
  3. Mixed 350 ul of LB.
  4. Prepared and Labeled two plastic plates with LBA.
  5. Plated 300 ul of the culture onto first dish and spread.
  6. Mixed 450 ul of LB to 50 ul of the culture and plated 300 ul of it onto second dish and spread.
  7. Incubated the plates at 37C for 15 hrs.

Gel extraction product check of pT7-RBS-Ag43-dT on pSB1C3

We couldn't get desired plasmid DNA by transformation. We doubted contamination of non-digested vector DNA and decided to test the gel extraction product of pT7-RBS on pSB1C3, which were successfully separated from non-digested product or not by transformation.

  1. Mixed 1 ul of each DNA of ligation product and digestion product to 50 ul of thawed competent cells on ice.
  2. Incubated on ice for 30 min.
  3. Mixed 350 ul of LB.
  4. Incubated for 2 hrs to get the resistance to Chloramphenicol.
  5. Prepared and Labeled two plastic plates with LBC.
  6. Plated 300 ul of the culture onto first dish and spread.
  7. Mixed 450 ul of LB to 50 ul of the culture and plated 300 ul of it onto second dish and spread.
  8. Incubated the plates at 37C for 16 hrs.

There were no colony on the LBC plate that was spread solution mixed digestion product.


August 29th

Aggregation check

We incubated 9 colonies transformed at August 25th in LBAK solution including 1% L-arabinose for 16 hrs. Then we find that 1 culture expressing Ag43. Observed the E. coli cluster by a microscope of 100 magnifications.


Then we checked whether pBAD promoter is behaving exactly or not.

  1. 1 colony ( could expressing Ag43 ) incubated in 2 ml LB at 37C for 2 hrs.
  2. Prepared 5 kinds of LB medium differing the concentration of L-arabinose.


No. 1 :0.001%
No. 2 :0.1%
No. 3 :0.4%
No. 4 :1.0%
No. 5 :0%

  1. Added 400 ul of culture in several LB medium.
  2. Incubated for 17 hrs and 30 min at 37C.

PCR of eCFP(E0020)

Amplified the part with 100bp-up-EX primer and 200bp-down-PS primer. Desired product is about 800~900bp.,br />,br /> Mixed PCR solutions.

Solution Volume (ul)
DNA 1
100bp-up-EX 1
200bp-down-PS 1
MgSO4 3
dNTP 5
10x KOD-Plus-Neo Buffer 5
KOD-Plus-Neo 1
DW 33
Total 50


Number Degree Second
1 94 120
2 98 10
3 58.2 30
4 68 60
5 4 HOLD

Cycle:2~4 x 35

Colony PCR

Colony PCR of pT7-RBS-Ag43-dT on pSB1C3 transformed at August 28th.

DNA solution 4 ul
Kapa-Taq(Taq polymerase) 5 ul
Forward Primer(ag43-f4 primer) 0.5 ul
Reverse Primer(200bp down primer) 0.5 ul
Total 10 ul


Number Degree Second
1 95 120
2 95 30
3 53.0 30
4 72 60
5 72 60
6 4 HOLD

Cycle:2~4 x 35

We used N1 (DW only) and N2 (Ag43-dT on pSB1AK3) as controls. Desired product is about 695bp. This length is almost same as N2.

Colony PCR result

We decided to incubate the colony of No.7 and 8.

Incubation for plasmid extraction of pT7-RBS-Ag43-dTonpSB1C3 and Ag43-dTonpSB1AK3

Incubation of pT7-RBS-Ag43-dTonpSB1C3 (and Ag43-dT on pSB1AK3) in LBC (LBA) liquid medium.

  1. Prepared 2 ml LBC (LBA) into culture tubes.
  2. Re-suspended 2 colonies No.7 and No.8 respectively. Ag43-dT on pSB1AK3 was re-suspended the N2 colony.
  3. Incubated at 37C for 17 hrs.

Estimation of Concentration of RBS-eYFP-dT (PCR product) and ptetR-pSB1A2

Solution Value (ul)
1kb ladder 1
Insert 1
Vector 1
Electrophoresis result

From this result, We estimated that the concentration of Insert DNA solution is about 36 ng/ul, and Vector DNA is also about 29 ng/ul.

Digestion of ptet-pSB1A2 and RBS-Ag43-dT

ptet-pSB1A2(Vector) was digested with EcoRI and SpeI, and RBS-Ag43-dT(Insert) was cut with EcoRI and XbaI. And we used construct of pT7-RBS on pSB1C3 as control for the function of XbaI.
Insert (eCFP)

DNA solution (36 ng/ul) 5 ul
EcoRI 1 ul
SpeI 1 ul
10xH buffer 2 ul
DW 5 ul
Total 20 ul

Vector(RBS on pSB1A2)

DNA solution (29 ng/ul) 6 ul
EcoRI 1 ul
XbaI 1 ul
10xM buffer 2 ul
DW 10 ul
Total 20 ul


control (pT7-RBs on pSB1C3)

DNA solution (30 ng/ul) 6 ul
XbaI 1 ul
10xM buffer 2 ul
100x BSA 0.2 ul
DW 11 ul
Total 20 ul


Number Degree Minute
1 37 120
2 60 15
3 4 HOLD


digestion result

From this result, vector DNA were digested by XbaI, but remains some amount of non-digested DNA. And insert DNA solution were not existed in both d- and d+ lines.It means we failed to extract from gel after electrophoresis. We decided to retry PCR.

PCR of eCFP(E0020)

Amplified the part with 100bp-up-EX primer and 200bp-down-PS primer. Desired product is about 800~900bp.

Mixed PCR solutions.

Solution Volume (ul)
DNA 1
100bp-up-EX 1
200bp-down-PS 1
MgSO4 3
dNTP 5
10x KOD-Plus-Neo Buffer 5
KOD-Plus-Neo 1
DW 33
Total 50


Number Degree Second
1 94 120
2 98 10
3 58.0 30
4 68 60
5 4 HOLD

Cycle:2~4 x 35


August 30th

Estimation of concentration of eCFP, pT7-RBS-Ag43-dT-pSB1C3 and Ag43-dT-pSB1AK3

No. 7,8 means the colony number of colony PCR of pT7-RBS-Ag43-dT-pSB1C3.

electrophoresis result

We failed the PCR for E0020. We estimated the concentration and the result was that pT7-RBS-Ag43-dT-pSB1C3 is 31 ng/ul and Ag43-dT-pSB1AK3 is 35 ng/ul.

Digestion of pT7-RBS-pSB1C3 and Ag43-dT-pSB1AK3

Digestion of pT7-RBS-pSB1C3 (as Vector) and Ag43-dT-pSB1AK3 (as Insert) to make pT7-RBs-Ag43-dT-pSB1C3 construct.
Vector

DNA solution (31 ng/ul) 1 ul
SpeI 1 ul
10xm buffer 2 ul
DW 16 ul
Total 20 ul


Inset

DNA solution (35 ng/ul) 14 ul
XbaI 1 ul
SpeI 1 ul
10xM buffer 2 ul
DW 2 ul
Total 20 ul


Number Degree Minute
1 37 120
2 60 15
3 4 HOLD

As a background, we did PCR for eCFP again.

digestion and PCR result

We did not do digestion of vector DNA sokution, result, because it has only too low concentration to be digested product solution.
We failed PCR again. The digestion result was confirmed that the Insert DNA was successfully digested by XbaI and SpeI. And we extracted the insert DNA digestion product from agarose gel by gel-extraction kit and got 20 ul of Insert DNA solution.

Digestion of pSB1AK3 by hindIII

The gel-extracted DNA solution contains Ag43-dT DNA and pSB1AK3 DNA because these DNA have same size of base pair and exist as same band in agarose gel. Thus we digest pSB1AK3 with HindIII to separate it from Ag43-dT.

DNA solution (35 ng/ul) 20 ul
HindIII 1 ul
10xM buffer 3 ul
DW 7 ul
Total 20 ul


Number Degree Minute
1 37 180
2 70 10
3 4 HOLD

As a background, we did PCR for eCFP again.


PCR and digestion result

We failed the PCR for E0020. The digestion result was confirmed that the insert DNA was successfully digested with HindIII.

Ethanol precipitation of pT7-RBS-Ag43-dT-pSB1C3 and Ag43-dT

We did ethanol precipitation to get more high concentration DNA solution of each part. And we got 5ul of each DNA solution.

ethanol precipitation result

The electrophoresis result showed that the pT7-RBS-pSB1C3 construct was successfully digested by SpeI and get enough concentration of DNA solution to ligate.

Ligation of pT7-RBS-pSB1C3 and Ag43-dT

Ligation of pT7-RBS-pSB1C3 (as Vector) and Ag43-dT (as Insert). We used Ligation Mighty Mix (TAKARA BIO INC.) which contains ligase and buffer.

Vector DNA 2.5 ul
Insert DNA 2.5 ul
Ligation Mighty Mix 5 ul
Total 10 ul


Ligation reaction time was in detail below.

Degree Minute
16 30
65 10
4 Hold
ligation result

Incubation for plasmid extraction of Ag43-dT-pSB1AK3 and ptet-RBS-YFP-dT-pSB1A2

Incubation of Ag43-dT-pSB1AK3 and ptet-RBS-YFP-dT-pSB1A2 in LBA liquid medium.

  1. Prepared 2 ml LBC into culture tubes.
  2. Re-suspended 1 colony from each plate that each construct plated.
  3. Incubated at 37C for 22 hrs (Ag43-dT-pSB1AK3 was incubated for 41 hrs)


August 31st

Plasmid extraction for pBAD-RBS-Ag43-dT on pSB1AK3

We used promega SV miniprep kit. We got 100 ul DNA solution.

plasmid extraction result

Digestion

We digested plasmid extraction products (pBAD-RBS-Ag43-dT on pSB1AK3) with EcoRI and SpeI. Because I'd like to check the size of insert and vector of getting plasmid.

DNA solution 6 ul
EcoRI 1 ul
SpeI 1 ul
10xH buffer 2 ul
DW 10 ul
Total 20 ul


Number Degree Minute
1 37 120
2 60 15
3 4 HOLD


digestion result

Transformation of pT7-RBS-Ag43-dT-pSB1C3 and eCFP (E0020)

  1. Mixed 2 ul ligation product and 1ul E0020 DNA solution to each 50 ul of thawed competent cells on ice.
  2. Incubated on ice for 30 min.
  3. Mixed 350 ul of LB.
  4. Prepared and Labeled two plastic plates with LB plate medium which contained appropriate antibiotics (LBA and LBC).
  5. Incubated for 2 hrs to get the resistance to Chloramphenicol (E0020 mixture skipped this step).
  6. Plated 300 ul of the culture onto first dish and spread.
  7. Mixed 450 ul of LB to 50 ul of the culture and plated 300 ul of it onto second dish and spread.
  8. Incubated the plates at 37C for 15 hrs.

We failed to transformation of pT7-RBS-Ag43-dT-pSB1C3.

Confirmation of amplification of ptet-RBS-eYFP-dT-pSB1A2

After plasmid extraction, we confirmed whether the desired construct ptet-RBS-eYFP-dT was really amplified or not by PCR. We chose EX-F primer as forward primer and PS-R primer as reverse primer then amplified about 1000bp of insert DNA. As controls, we chose DW as N1 and ptet-RBS-eCFP-dT construct as N2.


DNA solution 4 ul
Kapa-Taq(Taq polymerase) 5 ul
Forward Primer(EX-F primer) 0.5 ul
Reverse Primer(PS-R primer) 0.5 ul
Total 10 ul


Number Degree Second
1 95 120
2 95 30
3 68.9 30
4 72 60
5 72 60
6 4 HOLD

Cycle:2~4 x 35

PCR result

This image showed that the desired construct (about 1000 bp) amplified by incubation.

Incubation for plasmid extraction of eCFP-pSB1A2

Incubation of eCFP-pSB1A2 in LBA liquid medium.

  1. Prepared 2 ml LBA into culture tubes.
  2. Re-suspended 1 colony.
  3. Incubated at 37C for 16 hrs.

Transformation of ptet-RBS-eYFP-dT-pSB1A2 and pT7-RBS-Ag43-dT-pSB1C3

  1. Mixed 2 ul pT7-RBS-Ag43-dT-pSB1C3 ligation product and 1ul ptet-RBS-eYFP-dT-pSB1A2 DNA solution to each 50 ul of thawed competent cells on ice.
  2. Incubated on ice for 30 min.
  3. Mixed 350 ul of LB.
  4. Prepared and Labeled two plastic plates with LB plate medium which contained appropriate antibiotics (LBA and LBC).
  5. Incubated for 2 hrs to get the resistance to Chloramphenicol (ptet-RBS-eYFP-dT-pSB1A2 mixture skipped this step).
  6. Plated 300 ul of the culture onto first dish and spread.
  7. Mixed 450 ul of LB to 50 ul of the culture and plated 300 ul of it onto second dish and spread.
  8. Incubated the plates at 37C for hrs.


September 1st

Digestion for pSB1C3

We have to change the plasmid backbone to pSB1C3. We got the insert DNA at August 31th. So we need to get the pSB1C3 solution digested with EcoRI and SpeI.

pSB1C3 (60 ng/ul) 3 ul
Eco RI 1 ul
SpeI 1 ul
10xH buffer 2 ul
DW 13 ul
Total 20 ul
Number Degree Minute
1 37 180
2 60 15
3 4 HOLD
digestion result

Gel extraction

Gel extraction for digestion product. We used FastGene Gel&PCR extraction kit(NipponGenetics)and got 50 ul of DNA solution.

Ethanol precipitation

Ethanol precipitation to get more high concentration of pBAD-RBS-Ag43-dT solution and pSB1C3 solution digested by EcoRI & SpeI.

  1. Added 2 ul of NaoAc, 1.5 ul of glycogen and 50 ul of 100% ethanol.
  2. Centrifuged at 15000 rpm, 10 min at 4C.
  3. Removed supernatant and added 220 ul of 70% ethanol.
  4. Centrifuged at 15000 rpm, 10 min at 4C.
  5. Removed supernatant and dried out at room temperature, after that added 10 ul of DW.

Ligation

Ligation for insert DNA and pSB1C3.

Vector DNA 1 ul
Insert DNA 4 ul
Ligation Mighty Mix 5 ul
Total 10 ul


Ligation reaction time was in detail below.

Degree Minute
16 30
65 10
4 Hold


Ligation result


Transformation

Transformation for ligation product into DH5α.

  1. Added 1 ul of DNA to 50 ul of thawed competent cells on ice.
  2. Incubated on ice for 30 min.
  3. Added 350 ul of LB.
  4. Incubated the cells for 2 hours at 37C.
  5. Plated 300 ul of the culture onto first LBC dish and spread.
  6. Added 450 ul of LB to 50 ul of the culture and plated 300 ul of it onto second LBC dish and spread.
  7. Incubated the plates at 37C for 18 hrs.

Plasmid extraction of Ag43-dT-pSB1AK3 and RBS-pSB1A2

We used plasmid extraction kit of Nippon genetics and got 50 ul Ag43-dT-pSB1AK3 plasmid DNA solution.

Digestion of eCFP-pSB1A2 and RBS-pSB1A2

To make a construct of eCFP-RBS-pSB1A2, we digested eCFP-pSB1A2 by EcoRI and SpeI, and RBS-pSB1A2 with EcoRI and XbaI. And we digested pT7-RBS-pSB1C3 by XbaI as a control for confirmation of the ability to digest.
Insert (eCFP-pSB1A2)

DNA solution (35 ng/ul) 11 ul
EcoRI 1 ul
SpeI 1 ul
10xH buffer 2 ul
DW 5 ul
Total 20 ul


Vector(RBS-pSB1A2)

DNA solution (29 ng/ul) 6 ul
EcoRI 1 ul
XbaI 1 ul
10xM buffer 2 ul
DW 10 ul
Total 20 ul


control (pT7-RBS-pSB1C3)

DNA solution (30 ng/ul) 6 ul
XbaI 1 ul
10xM buffer 2 ul
100x BSA 0.2 ul
DW 11 ul
Total 20 ul


Number Degree Minute
1 37 120
2 60 15
3 4 HOLD


digestion result

From this image, we confirmed that DNA were digested into fragments and all of restriction enzyme worked.


September 2nd

Ethanol precipitation of digestion products (eCFP and RBS-pSB1A2) and estimation of concentration

  1. Added 5 ul of NaoAc, 1.5 ul of glycogen and 125 ul of 100% ethanol.
  2. Centrifuged at 14000 rpm, 30 min at 4C.
  3. Removed supernatant and added 220 ul of 70% ethanol.
  4. Centrifuged at 15000 rpm, 15 min at 4C.
  5. Removed supernatant and dried out at room temperature, after that added 10 ul of DW.
ethanol precipitation result

We estimated the concentration of ethanol presipitation products.The concentration of Insert DNA solution is about 20 ng/ul and Vector DNA solution is about 37 ng/ul.

Incubation of pT7-RBS-Ag43-dT-pSB1C3 transformation product

We failed to cultivation of above construct two times so we tried to incubation in LBC liquid medium.

  1. Prepared 1.8 ml LBC into culture tubes.
  2. Re-suspended 200 ul transformation product solution (which was mixed with LB and incubated for 3 hrs).
  3. Incubated at 37C.

Ligation of eCFP and RBS-pSB1A2

Vector DNA (37 ng/ul) 1 ul
Insert DNA (20 ng/ul) 4 ul
Ligation Mighty Mix 6 ul
Total 11 ul


Ligation reaction time was in detail below.

Degree Minute
16 30
65 10
4 Hold


Transformation of eCFP-RBS-pSB1A2

  1. Mixed 2 ul eCFP-RBS-pSB1A2 ligation product to 50 ul of thawed competent cells on ice.
  2. Incubated on ice for 30 min.
  3. Mixed 350 ul of LB.
  4. Prepared and Labeled two plastic plates with LB plate medium which contained appropriate antibiotics (LBA).
  5. Plated 300 ul of the culture onto first dish and spread.
  6. Mixed 450 ul of LB to 50 ul of the culture and plated 300 ul of it onto second dish and spread.
  7. Incubated the plates at 37C for 19 hrs.