Team:HokkaidoU Japan/Notebook/aggregation Week 12

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Contents

September 17th

Digestion of RBS-phaC-RBs-phaA-RBS-phaB-RBS-eYFP-dT-pSB1A2 and ptet-pSB1A2

To make a construct of ptet-RBS-phaC-RBS-phaA-RBS-phaB-RBS-dT-pSB1A2, we digested RBS-phaC-RBs-phaA-RBS-phaB-RBS-eYFP-dT-pSB1A2 with XbaI & PstI, ptet-pSB1A2 with SpeI & PstI. Insert (RBS-phaC-RBs-phaA-RBS-phaB-RBS-eYFP-dT-pSB1A2)

DNA solution ( 45=50ng/ul) 27 ul
XbaI 1 ul
PstI 1 ul
10xM buffer 4 ul
DW 7 ul
Total 40 ul


Vector(ptet-pSB1A2)

DNA solution (about 20 ng/ul) 4 ul
SpeI 1 ul
PstI 1 ul
10xH buffer 2 ul
DW 12 ul
Total 20 ul


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


Number Degree Minute
1 37 120
2 70 20
3 4 HOLD


[[image:|thumb|digestion result]]

Ethanol precipitation of RBS-phaB-RBS-eYFP-dT and RBS-phaC-RBS-phaA-pSB1A2

  1. Added 5 ul of NaoAc, 1.5 ul of glycogen and 125 ul of 100% ethanol.
  2. Centrifuged in 15000 rpm, 15 min at 4C.
  3. Remove supernatant and added 220 ul of 70% ethanol.
  4. Centrifuged in 15000 rpm, 10 min at 4C.
  5. Remove supernatant and air drying in room temperature then added 5 ul of DW.
[[image:|thumb|ethanol precipitation result]] We confirmed that the concentration of Insert DNA solution is 60~70 ng/ul and Vector DNA solution is about 20~30 ng/ul.

Ligation of RBS-phaB-RBS-eYFP-dT and RBS-phaC-RBS-phaA-pSB1A2

Insert DNA (60~70 ng/ul) 4 ul
Vector DNA (20~30 ng/ul) 2 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 of RBS-phaC-RBS-phaA-RBS-phaB-RBS-eYFP-dT-pSB1A2

Transformation of JM109.

  1. Mixed 2 ul RBS-phaC-RBS-phaA-RBS-phaB-RBS-eYFP-dT-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 17 hours.


September 18th

Colony PCR of pBAD-RBS-eCFP-RBS-Ag43-dI-pSB1C3

We did colony PCR two times.

DNA solution 4 ul
Kapa-Taq(Taq polymerase) 10 ul
Forward Primer(200bp down primer) 0.8 ul
Reverse Primer(ag43-f4 primer) 0.8 ul
DW 4.4 ul
Total 20 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(pBAD-RBS-Ag43-dT-pSB1A2)as controls. Desired product is about 702bp.

Colony PCR result
Colony PCR result 2


Target products didn't exist in all samples. We noticed the reason why such results shown is that we used incorrect pSB1C3 DNA solution which isn't confirmed the sequence. We'll try the synthesis once again in today.

Digestion of pBAD-RBS-eCFP-RBS-Ag43-dT-pSTV28 and pSB1C3

To make a construct of pBAD-RBS-eCFP-RBS-Ag43-dT-pSB1C3, we digested pBAD-RBS-eCFP-RBS-Ag43-dT-pSTV28 with EcoRI & SpeI and pSB1C3 with EcoRI & SpeI. Insert (pBAD-RBS-eCFP-RBS-Ag43-dT-pSTV28)

DNA solution (about 35ng/ul) 41 ul
EcoRI 2 ul
SpeI 2 ul
10xH buffer 5 ul
Total 50 ul


Vector(pSB1C3)

DNA solution (about 30~40 ng/ul) 2 ul
EcoRI 1 ul
SpeI 1 ul
10xH buffer 2 ul
DW 14 ul
Total 20 ul


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


[[image:|thumb|digestion result]]

Ethanol precipitation of pBAD-RBS-eCFP-RBS-Ag43-dT--pSB1C3

  1. Added 5 ul of NaoAc, 1.5 ul of glycogen and 125 ul of 100% ethanol.
  2. Centrifuged in 15000 rpm, 15 min at 4C.
  3. Remove supernatant and added 220 ul of 70% ethanol.
  4. Centrifuged in 15000 rpm, 10 min at 4C.
  5. Remove supernatant and air drying in room temperature then added 5 ul of DW.
[[image:|thumb|ethanol precipitation result]]

Ligation of pBAD-RBS-eCFP-RBS-Ag43-dT and pSB1C3

Insert DNA 4 ul
Vector DNA 2 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 of pBAD-RBS-eCFP-RBS-Ag43-dT-pSB1C3

Transformation of JM109.

  1. Mixed 2 ul pBAD-RBS-eCFP-RBS-Ag43-dT--pSB1C3 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. Incubated for 2 hrs to get the resistance to Chloramphenicol.
  5. Prepared and Labeled two plastic plates with LB plate medium which contained appropriate antibiotics (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 15 hours.


September 19th

Colony PCR of pBAD-RBS-eCFP-RBS-Ag43-dI-pSTV28

Colony PCR to confirm whether pSTV28 vettor has pBAS-RBs-eCFP-RBs-Ag43-dT as insert or not.

DNA solution 4 ul
Kapa-Taq(Taq polymerase) 10 ul
Forward Primer(200bp down primer) 0.8 ul
Reverse Primer(ag43-f4 primer) 0.8 ul
DW 4.4 ul
Total 20 ul


Number Degree Second
1 95 120
2 95 30
3 53.3 30
4 72 180
5 72 60
6 4 HOLD

Cycle:2~4 x 35


We used N1 (DW only) and N2(pBAD-RBS-Ag43-dT-pSB1A2)as controls. Desired product is about 702bp.

[[image:|thumb|Colony PCR result]]

We noticed the some of colones have pBAD-RBS-eCFP-RBS-Ag43-dT-pSTV28 construct as plasmid DNA.

Colony PCR of pBAD-RBS-eCFP-RBS-Ag43-dI-pSB1C3 and pBAD-RBS-eCFP-RBS-Ag43-dI-pSB1C3

Colony PCR to confirm whether the constructs written above really have eCFP and Ag43 coding sites or not by using primers: one can aneal to a part of eCFP coding site and another can aneal to a part of Ag43 coding site.

DNA solution 4 ul
Kapa-Taq(Taq polymerase) 10 ul
Forward Primer(FP-F primer) 0.8 ul
Reverse Primer(ag43-R primer) 0.8 ul
DW 4.4 ul
Total 20 ul


Number Degree Second
1 95 120
2 95 30
3 53.3 30
4 72 180
5 72 60
6 4 HOLD

Cycle:2~4 x 35


We used N1, N2 (DW only) as controls. Desired product is about 452 bp and 697 bp respectively.

[[image:|thumb|Colony PCR result]]

We noticed the some of colones have pBAD-RBS-eCFP-RBS-Ag43-dT-pSTV28 construct as plasmid DNA.


September 20th

Digestion of ptet-RBS-phaC-RBs-phaA-RBS-phaB-RBS-eYFP-dT-pSB1A2 (DNA solution eluted from colony No.10, 12 respectively in ) and ptet-pSB1A2

To make a construct of ptet-RBS-phaC-RBS-phaA-RBS-phaB-RBS-dT-pSB1A2, we digested RBS-phaC-RBs-phaA-RBS-phaB-RBS-eYFP-dT-pSB1A2 with XbaI & PstI, ptet-pSB1A2 with SpeI & PstI. We prepared DNa solution derived from No.10 and No.12 colony selected selected by the result of colony PCR in 18th.

Insert No.10 (RBS-phaC-RBs-phaA-RBS-phaB-RBS-eYFP-dT-pSB1A2)

DNA solution ( 40 ng/ul) 20 ul
EcoRI 1 ul
PstI 1 ul
10xH buffer 4 ul
DW 4 ul
Total 30 ul


Insert No.12 (RBS-phaC-RBs-phaA-RBS-phaB-RBS-eYFP-dT-pSB1A2)

DNA solution ( 40 ng/ul) 20 ul
EcoRI 1 ul
PstI 1 ul
10xH buffer 4 ul
DW 4 ul
Total 30 ul


Vector(ptet-pSB1A2)

DNA solution (about 40 ng/ul) 2 ul
EcoRI 1 ul
PstI 1 ul
10xH buffer 2 ul
DW 14 ul
Total 20 ul


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


digestion result

Ethanol precipitation of RBS-phaB-RBS-eYFP-dT and RBS-phaC-RBS-phaA-pSB1A2

  1. Added 5 ul of NaoAc, 1.5 ul of glycogen and 125 ul of 100% ethanol.
  2. Centrifuged in 15000 rpm, 15 min at 4C.
  3. Remove supernatant and added 220 ul of 70% ethanol.
  4. Centrifuged in 15000 rpm, 10 min at 4C.
  5. Remove supernatant and air drying in room temperature then added 5 ul of DW.
[[image:|thumb|ethanol precipitation result]] We decided to use No.10 digestion product for ligation, and confirmed that the concentration of Insert DNA solution is 50 ng/ul and Vector DNA solution is about 20~30 ng/ul.

Ligation of RBS-phaB-RBS-eYFP-dT and RBS-phaC-RBS-phaA-pSB1A2

Insert DNA (50 ng/ul) 4 ul
Vector DNA (20~30 ng/ul) 1.5 ul
DW 0.5 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 of RBS-phaC-RBS-phaA-RBS-phaB-RBS-eYFP-dT-pSB1A2

Transformation of JM109.

  1. Mixed 2 ul RBS-phaC-RBS-phaA-RBS-phaB-RBS-eYFP-dT-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. Incubated for 2 hrs to get the resistance to Chloramphenicol.
  5. Prepared and Labeled two plastic plates with LB plate medium which contained appropriate antibiotics (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 15 hours.