Team:KIT-Kyoto/Notebook/LabNote/GFPMLF9

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1st, September

Member

Nakagawa


1.Using Gel Extraction Kit and extracted DNA of pSB1C3 from the gel.
2.DNA bands in the agarose gel.
After extracting DNA,I measured 5µl ,and diluted it for 20 times.
And I measured its density.
3.PCR reaction was carried out by using primers designed on August 30th. The reaction conditions are summarized below.
PCR reaction
10 µM Primer F1.5 µl
10 µM Primer R1.5 µl
BBa_E02401 µl
10 x PCR Buffer for KOD Plus5 µl
dNTPs4 µl
MgSO44 µl
ddH2O32 µl
KOD Plus1 µl
 total 50 µl
Cycle
Pre-Denature95°C30sec 
Denature95°C30sec30 Cycle
Anneling48.5°C1min
Extension68°C1kb/min
End4°Ckeep 


Results

2.Image of the agarose gel.


You can see DNA band at around 2kbp.


density(ng/µl)
119.0
213.0
319.0
422.0
516.0
ave.17.8

2nd, September

Member

Nakagawa


Isolate BBa_E0240 by phenol-chloroform treatment,Agarose gel electrophoresis and carried out to detect the PCR products.
I digested PCR products with the following restriction enzymes (at 37°C for 16 hours).
ddH2O2 µl
BBa_E024050 µl
EcoRⅠ1 µl
Pst1 µl
10 x H Buffer6 µl
 total 60 µl


Results

2.Image of the agarose gel.


I can see BBa_E0240 band at the correct place.And the density was enough to watch it.



3rd,September

Member

Nakagawa


Using Gel Extraction Kit and extracted DNA of pSB1C3 from the gel.


Results



5th,September

Member

Nakagawa


Ligate BBa_E0240.which doesn’t have ATG codons and pSB1C3
I have transformed E. coli DH5 alpha with it.
Before I made BBa_E0240.which doesn’t have ATG codons and pSB1C3.
The densities are 19ng/µl and 25ng/µl.
DNA samples were digested by the following restriction enzymes at 37 ℃ for 30 min.
BBa_E02400.5 µl
pSB1C30.5 µl
10 x Buffer2.5 µl
F4 ligase0.5 µl
ddH2O1.0 µl
 total 5 µl
After ligate them, I have transformed E. coli DH5 alpha with it.


Results

There aren’t any colonies on the plate.
However I heared the success probability is very low, so next time I want to be careful about the density.

6th,September

Member

Yoshimura,Nakagawa


1.Ligate BBa_E0240.which doesn’t have ATG codons and pSB1C3
DNA samples were digested by the following restriction enzymes at 37 ℃ for 30 min
insert0.5 µl
vector0.5 µl
10 x Buffer2.5 µl
F4 ligase0.5 µl
ddH2O1.0 µl
 total 5 µl
However, I ligated them with this density ratio (bector: insert=1:9)
After ligate them, I have transformed E. coli DH5 alpha with it.
2. We attached restriction enzyme site of EcoRⅠand XbaⅠto the Flag-tag dMLF from pUAST Flag-tag dMLF.
We isolated Flag-tag dMLF from pUAST Flag-tag dMLF.


Results

1.There are 4 colonies on the LB plate.
2.F:AAAGAATTCAAATCTAGAAAAATGGACTACAAGGACGA
      EcoRⅠ  Xba
Tm value:72.14℃ 38bases
R:AAACTGCAGAAAACTAGTAAATACCCTACTTCTTCTTGCC
     PstⅠ   Spe
Tm value:72.16℃ 40bases



7th.September

Member

Nakagawa


I did pre-culture of yesterday colonies and pSB1C3.
PCR and restriction enzyme with MLF
PCR reaction
10 µM GFP Primer F1.5 µl
10 µM GFP Primer R1.5 µl
BBa_E02401 µl
10 x PCR Buffer for KOD Plus5 µl
dNTPs4 µl
MgSO44 µl
ddH2O32 µl
KOD Plus1 µl
 total 50 µl
Cycle
Pre-Denature95°C30sec 
Denature95°C30sec30 Cycle
Anneling50°C1min
Extension68°C1min
End4°Ckeep 


After that, I isolated MLF with restriction enzyme.
DNA samples were digested by the following restriction enzymes at 37 ℃ for 16 hours.
ddH2O2 µl
Flag tag dMLF50 µl
EcoRⅠ1 µl
Pst1 µl
10 x H Buffer6 µl
 total 60 µl

8th,September

Member

Nakagawa


Using Gel Extraction Kit and extracted DNA of Flag tag dMLF from the gel.
Isolatioe pSB1C3 by the alkaline-lysis method by phenol-chloroform treatment, DNA was digested with the following restriction enzymes (30 min at 37℃).
I digested the DNA of pSB1C3 with the following restriction enzymes (at 37°C for 16 hours).
ddH2O2 µl
pSB1C350 µl
EcoRⅠ1 µl
Pst1 µl
10 x H Buffer6 µl
 total 60 µl


Results

We cannot see any bands of MLF from the gel.
So, we are effort to ligate with pSB1C3 and BBa_E0240.



9th,September

Member

Nakagawa


I planned to give efficiency of the ligation by giving rise to the density of GFP and vector by ethanol precipitating


Results

I failed to rise the densities of vector and the DNA of insert.
We lost DNA In the middle of ethanol precipitation.



12th,September

Members

Yoshimura, Nakagawa


1.We amplified the Flag-MLF by using primer which was made on September 6th.
We did PCR reaction with following conditions.
PCR reaction(1)
10 µM Primer F1.5 µl
10 µM Primer R1.5 µl
Template DNA1 µl
10 x PCR Buffer for KOD Plus5 µl
dNTPs4 µl
MgSO44 µl
ddH2O32 µl
KOD Plus1 µl
 total 50 µl
Cycle
Pre-Denature94°C2min 
Denature94°C15sec35 Cycle
Anneling55°C30sec
Extension68°C1min 20sec
End4°Ckeep 


PCR reaction(2)
10 µM Primer F1.5 µl
10 µM Primer R1.5 µl
Template DNA1 µl
10 x PCR Buffer for KOD Plus5 µl
dNTPs4 µl
MgSO42 µl
ddH2O34 µl
KOD Plus1 µl
 total 50 µl
Cycle
Pre-Denature94°C2min 
Denature94°C15sec35 Cycle
Anneling55°C30sec
Extension68°C1min 20sec
End4°Ckeep 
We collected each sample and kept them in -20°C.
2.Pre-culture of E.coli(DH5α)which contains pSB1C3.
I tried doing PCR reaction with following conditions with BBa_E0240 again.
PCR reaction
10 µM Primer F1.5 µl
10 µM Primer R1.5 µl
GFP1 µl
10 x PCR Buffer for KOD Plus5 µl
dNTPs4 µl
MgSO44 µl
ddH2O32 µl
KOD Plus1 µl
 total 50 µl
Cycle
Pre-Denature95°C30sec 
Denature95°C30sec30 Cycle
Anneling48.5°C1min
Extension68°C1kb/min
End4°Ckeep 
I isolated pSB1C3 by phenol-chloroform treatment .I digested DNA with the following restriction enzymes (30 minutes at 37°C).
ddH2O2 µl
BBa_E024050 µl
EcoRⅠ1 µl
Pst1 µl
10 x H Buffer6 µl
 total 60 µl


Results

The E.coli (DH5α) which contains pSB1C3 was increased, but there are some colonies which doesn’t correct color.
Possibly deterioration may begin in plate in itself.
The DNA of PCR reaction increased next day.



13th,September

Member

Yoshimura, Nakagawa


1.We carried out agarose gel electrophoresis to detect the PCR products.
2.We amplified Flag-tag dMLF by using the primer which I manufactured on 6th September.
Restriction enzyme processing.
This is because after examining a sequence of Flag-tag dMLF, a restriction enzyme site of PstI and XbaI was seen.
So, I examined whether PCR product of Flag-tag dMLF is cut by PstI and XbaI.

(1)

MilliQ6.5 µl
Flag-tag dMLF20 µl
Pst0.5 µl
10 x H Buffer3 µl
 total 30 µl


(2)

MilliQ6.5 µl
Flag-tag dMLF20 µl
Xba0.5 µl
10 x M Buffer3 µl
 total 30 µl


(3)

MilliQ6 µl
Flag-tag dMLF20 µl
Pst0.5 µl
Xba0.5 µl
10 x M Buffer3 µl
 total 30 µl
After incubate it in 37°C for 50 minutes, I performed electrophoresis with agarose gel.
Photograph after the electrophoresis.
3.To amplify Flag-tag dMLF cDNA, PCR reactions were carried out under the following conditions.
PCR reaction
10 µM Primer F1.5 µl
10 µM Primer R1.5 µl
Template DNA1 µl
10 x PCR Buffer for KOD Plus5 µl
dNTPs4 µl
MgSO44 µl
ddH2O32 µl
KOD Plus1 µl
 total 50 µl
Cycle
Pre-Denature94°C2min 
Denature94°C15sec35 Cycle
Anneling55°C30sec
Extension68°C1min 20sec
End4°Ckeep 
We collected each sample and kept them in -20°C.


Results

1.Image of the agarose gel.


2.Images of the agarose gel.

:
Flag-tag dMLF aren’t cut by restriction enzyme of PstI and XbaI.
A marker did not enough to drift.




14th,September

Members

Yoshimura


1.We carried out agarose gel electrophoresis to detect the PCR products.
2.I extracted GFP, DNA of the vector from gel using Gel Extraction Kit.


Results 1.Image of the agarose gel.


After doubling the density of gel, a marker did not drift.
I will decide to perform it with 2% of agarose gel about the electrophoresis of Flag-tag MLF in future.

2.I measured the density with an absorbance meter afterwards.

GFP
10.158
20.147
30.160
40.159
50.158
ave.0.156
pSB1C3
10.029
20.021
30.028
40.022
50.025
ave.0.025


GFP
pSB1C3


The BBa_E0240 succeeded in the extraction from gel and recorded 156ng/µl by the measurement with the absorbance meter and the pSB1C3 became 25ng/µl.
Therefore I decided to begin an experiment of the ligation again from the next day.

17th,September

Members

Nakagawa


1.Ligate with BBa_E0240 and pSB1C3
2.Pre-culture and the alkaline-lysis method of pSB1C3


I adjusted reaction liquid according to the following composition.

pSB1C3:GFP=1:2

insert0.3 µl
vector2.0µl
10 x Buffer2.5 µl
F4 ligase0.5 µl
ddH2O1.7 µl
 total 7 µl

pSB1C3:GFP=1:5

insert1.0 µl
vector1.0 µl
10 x Buffer2.5 µl
F4 ligase0.5 µl
ddH2O2.0 µl
 total 7 µl

pSB1C3:GFP=1:10

insert1.3 µl
vector1.0 µl
10 x Buffer2.5 µl
F4 ligase0.5 µl
ddH2O1.7 µl
 total 7 µl
I incubated them in 16°C for 30 min.
After that, I transformed them, and I poured them into 300 µl of SOC medium and add them on the plate after culture for 30 minutes.
I thought that I tried to pick at only a red colony as a point to keep in mind of this time and lowered the possibility of contaminating it.


Results

Here are many colonies on the LB medium.
Possibly contaminating is thought for example an antibiotic does not work.
The pSB1C3 was not able to be refined again.



19th,September

Members

Yoshimura Nakagawa


1.We transformed and performed restriction enzyme processing
2.Density check of BBa_E0240 and pSB1C3
3.Pre-culture with yesterday colony and pSB1C3 to the new LB plate


I digested with the XhoI according to the following composition.
(1)
MilliQ6.5 µl
Flag-tag dMLF20 µl
Pst0.5 µl
10 x H Buffer3 µl
 total 30 µl


(2)
MilliQ6.5 µl
Flag-tag dMLF20 µl
Xba0.5 µl
10 x M Buffer3 µl
 total 30 µl


(3)
MilliQ6 µl
Flag-tag dMLF20 µl
Pst0.5 µl
Xba0.5 µl
10 x M Buffer3 µl
 total 30 µl
After incubate it in 37 ゜ C for 18 hours, I performed agarose gel electrophoresis.


Checking the amount of the purified GFP,
1 x 1µl
2 x 1µl
4 x 1µl
8 x 1µl

Image of agarose gel after DNA fragment isolation for Checking the amount of the purified GFP.



Results

The increase of BBa_E0240 was good, and upbringing of the big colony was seen.
pSB1C3 was not BBa_E0240 too, but was all right because some number grew.



24th,September

Members

Yoshimura Nakagawa


1.alkaline-lysis method, phenol-chloroform treatment
2.restriction enzymes, extraction with pSB1C3
3.restriction enzymes processing with BBa_E0240
Yield rose markedly when I exchanged isopropanol.
After alkaline-lysis method, phenol-chloroform treatment with pSB1C3,restriction enzymes processing with BBa_E0240 and pSB1C3
According to a list shown below, I performed restriction enzyme processing at 37 overnight.
ddH2O2 µl
BBa_E024050 µl
EcoRⅠ1 µl
Pst1 µl
10 x H Buffer6 µl
 total 60 µl
The restriction enzyme-digested pSB1C3 were extracted from the agarose gel by QIAquick Gel Extraction Kit.
Photograph after the extraction.


Results


Image of agarose gel after DNA fragment isolation.


A band was seen to about 2kb.



26th,September

Members

Yoshimura Nakagawa


1.Ligation
2.restriction enzyme handling of liquid pSB1C3
restriction enzymes processing with pSB1C3
According to a list shown below, I performed restriction enzyme processing at 37 for 30 minutes.
ddH2O2 µl
BBa_E024050 µl
EcoRⅠ1 µl
Pst1 µl
10 x H Buffer6 µl
 total 60 µl
Next ligate with following list.
At first I dilute the density of vector to become 10 pg/µl.
And I dilute it as I calculate one and MLF 60 ng/µl of GFP 70 ng/µl to be able to go by combination below and am composed follows at 1 µl.
I combined it in the ratio of follows afterwards.

pSB1C3:GFP=1:10

insert1.0 µl
vector1.0µl
10 x Buffer2.5 µl
F4 ligase0.5 µl
ddH2O1.0 µl
 total 6.0 µl

pSB1C3:GFP=1:20

insert1.0 µl
vector1.0 µl
10 x Buffer2.5 µl
F4 ligase0.5 µl
ddH2O1.0 µl
 total6.0µl

pSB1C3:GFP=1:40

insert1.0 µl
vector1.0 µl
10 x Buffer2.5 µl
F4 ligase0.5 µl
ddH2O1.0 µl
 total 6 µl
I incubated them in 16°C for 30 min.
After that, I transformed them, and I poured them into 300 µl of SOC medium and add them on the plate after culture for 30 minutes.


Results

There are no colonies.



29th,September

Members

Yoshimura, Nakagawa


At first I dilute the density of vector to become 10 pg/µl.
And I dilute it as I calculate one and MLF 60 ng/µl of GFP 70 ng/µl to be able to go by combination below and am composed follows at 1 µl.
I combined it in the ratio of follows afterwards.

pSB1C3:GFP=1:10

insert1.0 µl
vector1.0µl
10 x Buffer2.5 µl
F4 ligase0.5 µl
ddH2O1.0 µl
 total 6.0 µl

pSB1C3:GFP=1:20

insert1.0 µl
vector1.0 µl
10 x Buffer2.5 µl
F4 ligase0.5 µl
ddH2O1.0 µl
 total6.0µl

pSB1C3:GFP=1:40

insert1.0 µl
vector1.0 µl
10 x Buffer2.5 µl
F4 ligase0.5 µl
ddH2O1.0 µl
 total 6 µl
I incubated them in 16°C for 30 min.
After that, I transformed them, and I poured them into 300 µl of SOC medium and add them on the plate after culture for 30 minutes.


Results

There are some colonies on the plate.
However there aren’t any MLF colonies.



30th,September

Members

Yoshimura, Nakagawa


At first I dilute the density of vector to become 10 pg/µl
And I dilute it as I calculate one and MLF 60 ng/µl of GFP 70 ng/µl to be able to go by combination below and am composed follows at 1 µl
I combined it in the ratio of follows afterwards

pSB1C3:GFP=1:10

insert1.0 µl
vector1.0µl
10 x Buffer2.5 µl
F4 ligase0.5 µl
ddH2O1.0 µl
 total 6.0 µl

pSB1C3:GFP=1:20

insert1.0 µl
vector1.0 µl
10 x Buffer2.5 µl
F4 ligase0.5 µl
ddH2O1.0 µl
 total6.0µl

pSB1C3:GFP=1:40

insert1.0 µl
vector1.0 µl
10 x Buffer2.5 µl
F4 ligase0.5 µl
ddH2O1.0 µl
 total 6 µl
I incubated them in 16°C for 30 min.
After that, I transformed them, and I poured them into 300 µl of SOC medium and add them on the plate after culture for 30 minutes.
After that We did alkaline-lysis method restriction and enzymes processing with ligation products.


Results

After all MLF did not exist even if there was the BBa_E0240 in ligation products.
And the first turn of parts was completed today.







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