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	Gel Electrophoresis		Gel Electrophoresis
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-	<html><h3>2010-09-21</h3></html>
-	PCR
-	Because it didn’t come out vector PCR(gel electrophoresis),
-	we operated re-experiment to change template and template amounts.<br>
-	Using template
-	1. Biobrick 2010 1-3A(pSB1C3)
-	2. Biobrick 2010 pSB1C3
-	3. Biobrick 2010 2-9A(pSB1A3)
-	4. control<br>
-	Using primer
-	Fwd : pSB1C3 FASTR-F
-	Rev : pSB1C3 FASTR-R<br>
-	-------------------------
-	template      5㎕
-	primer Fwd    5㎕
-	primer Rev    5㎕
-	dNTP          5㎕
-	10xbuffer      5㎕
-	NFW            24㎕
-	VentP          1㎕
-	-------------------------
-	50㎕<br>
-	PCR(TAKARA)
-	94°C – 5min
-	94°C – 15sec    --
-	51°C – 30sec      │- 25 cycles
-	72°C – 1min    --
-	72°C – 10min
-
-	Vector PCR
-	Using template
-	1. Biobrick 2010 1-3A(pSB1C3)
-	2. Biobrick 2010 pSB1C3
-	3. Biobrick 2010 2-9A(pSB1A3)
-	4. control<br>
-	-------------------------
-	template      3㎕
-	primer Fwd    5㎕
-	primer Rev    5㎕
-	dNTP          5㎕
-	10xbuffer    5㎕
-	NFW          26㎕
-	VentP        1㎕
-	-------------------------
-	50㎕<br>
-	Using primer
-	Fwd : pSB1C3 FASTR-F
-	Rev : pSB1C3 FASTR-R<br>
-	PCR Condition
-	94°C – 5min
-	94°C – 30sec      --
-	51°C – 30sec        │-25 cycles
-	72°C – 2min      --
-	72°C – 10min
-
-	<html><h3>2010-09-22</h3></html>
-	Biobrick 2010 2-9A(pSB1A3) -> Gel extraction
-	Gel Electrophoresis
-	Biobrick 2010 2-9A(pSB1A3), Biobrick 2010 1-3A(pSB1C3), Biobrick 2010 pSB1C3, Biobrick 2010 2-9A(pSB1A3)
-	As a result, it didn’t come out band of 1-3A and pSB1C3.
-	We concluded re-experiment from liquid incubation to mini-prep. Must check gel electrophoresis band after mini-prep.
-	FASTR Cloning (Plasmid1)
-	Vector (about 2kbp)
-	-pSB1A3 (conservative solution 100ng/㎕)<br>
-	Insert (about 1kbp)
-	1. Pet-LuxR-PT7/cI(OR2)-GFP (conservative solution 25ng/㎕)
-	2. Pet-LuxR-PT7/cI(OR1)-GFP (conservative solution 25ng/㎕)
-	3. Prom-LuxR-PT7/cI(OR2)-GFP (conservative solution 25ng/㎕)
-	4. Prom-LuxR-PT7/cI(OR1)-GFP (conservative solution 25ng/㎕)<br>
-	master mix
-	---------------------------------------------------------------------
-	Vector(50ng)        0.5 2
-	Insert(75ng)           3    -
-	Tango buffer         0.5 2
-	T4 Ligase buffer 0.5 2
-	ATP                   1 4
-	LguI                 0.5 2
-	Ligase          0.5 2
-	DpnI                 0.5 2
-	NFW                   3 12
-	-----------------------------------------------------------------------
-	Total          10㎕ 28㎕
-	Room temperature 2h
-	Transformation
-	Using cell strain : BL21(DE3) 50㎕
-	Using plasmid
-	L1 : Pet-LuxR-PT7/cI(OR2)-GFP  5㎕
-	L2 : Pet-LuxR-PT7/cI(OR1)-GFP  5㎕
-	L3 : Prom-LuxR-PT7/cI(OR2)-GFP 5㎕
-	L4 : Prom-LuxR-PT7/cI(OR1)-GFP 5㎕
-	After transformation
-	We added IPTG(0μM / 100μM / 200μM) to each cell strain. It became 12 plates.
-	※A Reason of using DE3 cell strain
-	DE3 cell strain has T7 RNA Polymerase gene in genome, and under IPTG derivation T7RNAP is expressed.
-	Plasmid1 has  T7/cI hybrid promoter.
-	So if this promoter is accelerated by T7RNAP, GFP is expressed and shines green.
-	In other words, we used DE3 cell strain to check T7 accelerating function of PT7/cI.
-
-	<html><h3>2010-09-23</h3></html>
-	From yesterday, we did mini-prep liquid incubated sample 1-3A and pSB1C3.
-	And then it is eluted by 50㎕ Elution Solution.
-	↓
-	Gel Electrophoresis(1㎕)
-	L1 : Pet-LuxR-PT7/cI(OR2)-GFP  5㎕
-	L2 : Pet-LuxR-PT7/cI(OR1)-GFP  5㎕
-	L3 : Prom-LuxR-PT7/cI(OR2)-GFP 5㎕
-	L4 : Prom-LuxR-PT7/cI(OR1)-GFP 5㎕
-	Remaining of above sample is transformed and incubated.
-	cell strain : XL10G(50㎕/tube)
-	plasmid : L1~L4(total 4)
-	FASTR Cloning (Plasmid1)
-	Vector (about 2kbp)
-	-pSB1A3 (conservative solution 100ng/㎕)
-	Insert (about 1kbp)
-	1. Pet-LuxR-PT7/cI(OR2)-GFP (conservative solution 25ng/㎕)
-	2. Pet-LuxR-PT7/cI(OR1)-GFP (conservative solution 25ng/㎕)
-	3. Prom-LuxR-PT7/cI(OR2)-GFP (conservative solution 25ng/㎕)
-	4. Prom-LuxR-PT7/cI(OR1)-GFP (conservative solution 25ng/㎕)
-	master mix
-	---------------------------------------------------------------------
-	Vector(50ng)        0.5 2
-	Insert(75ng)           3 -
-	Tango buffer         0.5 2
-	T4 Ligase buffer 0.5 2
-	ATP                   1 4
-	LguI                 0.5 2
-	Ligase                 0.5 2
-	DpnI                 0.5 2
-	NFW                   3 12
-	-----------------------------------------------------------------------
-	Total               10㎕ 28㎕
-	Room temperature 2h
-	After ligation plasmid is transformed and incubated in LB broth.
-	cell strain : BL21(DE3), XL10G(each 50㎕/tube)
-	plasmid : L1~L4
-
-	<html><h3>2010-09-24</h3></html>
-
-	At 23th September
-	Remaining of above sample is transformed and incubated.
-	cell strain : XL10G(50㎕/tube)
-	plasmid : L1~L4(total 4)
-
-	We picked 4 colonies of each plate out from L1~L4 plates and operated colony PCR. Moreover, we did liquid incubation each colony.
-
-	Insert Check Colony PCR(Plasmid 1)
-	master mix
-	--------------------------------------------------------------------------
-	Template(picked colonies)
-	Primer VF 2㎕ 40㎕
-	Primer VR 2㎕ 40㎕
-	10x Buffer 2㎕ 40㎕
-	dNTP 2㎕ 40㎕
-	NFW 10㎕ 200㎕
-	Taq DNA Polymerase 0.5㎕ 5㎕
-	--------------------------------------------------------------------------
-	Total 20㎕ 400㎕
-
-	↓
-	PCR
-	94°C – 5min
-	94°C – 30sec
-	51°C – 30sec        20 cycles
-	72°C – 1min
-	72°C – 10min
-	↓
-	gel electrophoresis
-
-	<html><h3>2010-09-25</h3></html>
-	Mini-prep and gel electrophoresis of liquid culture medium at 24th September.
-	Gel Electrophoresis picture
-	↓
-	Transformation to BL21(DE3)
-	↓
-	Incubation in LB broth, IPTG(0, 10, 100 μM)
-	↓37°C
-	About total sample, it is shown GFP ON/OFF switching on eyes.
-	↓
-	For the purpose of measuring fluorescence level, we did liquid incubation from each plate.
-	IPTG(0, 10, 100 μM) x 6 samples = 18 test tubes
-	↓37°C
-	∙ measuring fluorescence level(liquid incubation)
-	∙ pelletization of cell
-	Digestion and ligation of BBa-J01011(Ptet-cI) and pSB3C5
-	(Digestion)
-	Insert(J01011)   Vector(pSB3C5)
-	DNA       10㎕                 10㎕
-	NFW       32.5㎕               32.5㎕
-	NEB Buffer 2 5㎕                 5㎕
-	BSA       0.5㎕               0.5㎕
-	EcoRI         1㎕               1㎕
-	PstI         1㎕               1㎕
-	------------------------------------------------------------------------
-	total                      50㎕                50㎕
-	↓37°C 15min incubator
-	↓65°C 20min (sterilization dryer)
-	※After digestion, we did gel electrophoresis<br>
-	(Ligation)
-	13㎕ NFW
-	2㎕ Insert(digested)
-	2㎕ Vector(digested)                  total 20㎕ in 0.2mL PCR tube
-	2㎕ 10x T4 DNA Ligase Buffer
-	1㎕ T4 DNA Ligase<br>
-	↓10min at room temperature
-	↓20min at 65°C (sterilization dryer)<br>
-	(Transformation)
-	Transformation XL10G 50㎕ to 10㎕ of ligation product
-	↓37°C
-	Insert check of living colonies(colony PCR)    /    liquid incubation
-	↓total 7 colonies                              ↓37°C
-	Insert Check Colony PCR(Plasmid 1)                     ↓We did mini-prep only No.4 sample checked insert.
-	--------------------------------------------
-	Template(picked colonies)                                  ↓
-	Primer VF 2㎕                                     Gel electrophoresis
-	Primer VR 2㎕
-	10x Buffer 2㎕
-	dNTP 2㎕
-	NFW 11.5㎕
-	Taq DNA Polymerase 0.5㎕
-	--------------------------------------------------------
-	Total 20㎕
-	↓
-	PCR
-	94°C 5min
-	94°C 30sec  --
-	51°C 30sec    │-30 cycle
-	72°C 1min    --
-	72°C 10min
-	↓
-	Gel electrophoresis
-
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	==Notebook==		==Notebook==

---

Revision as of 14:32, 21 October 2010

2010-08-31

Making plate with Broth

Amp x 13 
Kan x 1 
Amp + IPTG x 1

Transformation

R0010 B0030 B0032 B0033 K145270 I746903 R0051 C0051 K145001 C0012 K145001 C0012 P0312 I719015

2010-09-02

Mini-prep(DNA transformated in August 31th)

I13522 C0040 C0052 C0053 C0080 C0072 I0500 Q04510 Q04400 Q04121 R0040 B0014
B1101 I715038 K081012 K082034 K113007 I763011

2010-09-03

Preparing for experiment

We inserted plasmid with cI promoter + GFP to E.coli. And 

2010-09-04

Preparing for experiment

I746903

2010-09-05

K091107 R0065 K145150 Q01121 Q01511 Q03121 Q03400 Q03530 Q04511 J06800 J06801

2010-09-06

Co-transformation

Plux – gfp + Pc each 1㎕
SOC 200㎕

2010-09-07

E0240 R0061 I0500 C0080 C0072 Q04510 Q04400 Q04121

2010-09-08

Transformation

XL10GkanR 30㎕ DNA 1㎕ SOC 100㎕
K145269 K145205 R1062 I0462 P0440 K091204 J01101 P0140 K091204 J01101 P0140 P0340 B0034

2010-09-14

1) K091204(2-8J) Pc – luxR function check
  [Pc – luxR(pSB1A2) + Plux – GFP(pAC)] each 1㎕ + XL10GkanR 50㎕
  AHL : 30C8HSL(1/10000 of 1μM)
2) T9002 

2010-09-16

 PCR
  T7/cI(OR1/2) – GFP 
              (1)      (2)
  --------------------------------
   template   1㎕
   primer     5㎕
   F          5㎕
   R          5㎕
   10x buffer 5㎕
   dNTP       5㎕
   NFW        28㎕
   ventP      1㎕
  -------------------------------
             50㎕     50㎕
 Transformation of BBa_J04450(3A) -> incubation

2010-09-19

From 2010 Biobrick
 plasmid with Cm antibiotic   -------------
  1-3C 1-3A pSB1C3
 plasmid with Amp antibiotic  ------------- 
  1-1K pSB1A3
 ↓
To transformate total five types, we seeded to plates.
 ↓
PCR products
 ↓
Gel extraction
 ↓  ← ADB buffer
ZYMO purification

1. To prepare 2ml tube(for ZYMO purification) + column, add the solution and operate centrifuge in 1 minute. Throw away left solution.

2. Same to mini-prep

 * wash buffer 200㎕ -> centrifuge 30sec -> throwing away left solution.  X2
 * wash buffer 200㎕ -> centrifuge 1min -> throwing away left solution.  X1
 * operating centrifuge in 1min with empty tube -> throwing away left solution.  X1

3. NFW elution(10㎕) Add NFW and wait 1min. Operate centrifuge in 1min 4. Gel electrophoresis(each 1㎕)

SOEing PCR
 ①T7/cI(OR2)-F-R
 ②T7/cI(OR1)-F-R
 ③Ptet-luxR-(OR2)
 ④Ptet-luxR-(OR1)
 ⑤Prom-luxR-(OR2)
 ⑥Prom-luxR-(OR1)
1. ①1㎕, ③3㎕
2. ②1㎕, ④4㎕
3. ①1㎕, ⑤1㎕
4. ②1㎕, ⑥1㎕

1. ①-③
2. ②-④
 --------------------------
 template    1㎕-4㎕
 primer Fwd  -
 primer Rev  -
 dNTP        5㎕
 10xbuffer   5㎕
 NFW         34㎕
 VentP       1㎕
 -------------------------
             50㎕

3. ①-⑤
4. ②-⑥
 -------------------------
 template      1㎕-1㎕
 primer Fwd    -
 primer Rev    -
 dNTP          5㎕
 10xbuffer     5㎕
 NFW           37㎕
 VentP         1㎕
 -------------------------
               50㎕

5. control
 -------------------------
 template      1㎕
 primer Fwd    5㎕
 primer Rev    5㎕
 dNTP          5㎕
 10xbuffer     5㎕
 NFW           28㎕
 VentP         1㎕
 -------------------------
               50㎕

PCR
 94°C – 5min
 94°C – 15sec     --
 52°C – 30sec       │- 10cycles
 72°C – 1min      --
 72°C – 10min
 ----------------
 4°C   stop

2010-09-20

Transformation

BBa_P0453(B0034-C2P22-T-T) RBS_C2P22 for PCR template
2-1 P    pSB1AK3
11:30 ~   DNA : 1㎕    XL10GkanR : 30㎕    SOC : 100㎕

Cm              Amp
1-3C            1-1K
1-3A            pSB1A3
pSB1C3

liquid incubation(37°C) 7:15~
Mini-prep

ZYMO purification

From PCR product from SOEing PCR (09-19)
1. Add PCR products(50㎕) and DNA binding buffer(200㎕) into 1.5mL tube(Commonly adding DNA binding buffer for double
amount of PCR products, but it must be 200㎕ at least). After that, mix this tube for a second with vortex and move
to 2mL tube with column. After operating centrifuge, transfer remaining a little PCR product to 2mL tube with column.
2. centrifuge 1min → throwing away left solution
3. Same to mini-prep
 * wash buffer 200㎕ -> centrifuge 30sec -> throwing away left solution.  X2
 * wash buffer 200㎕ -> centrifuge 1min -> throwing away left solution.  X1
 * operating centrifuge in 1min with empty tube -> throwing away left solution.  X1
4. NFW elution(10㎕)

↓
PCR

PCR Condition
 94°C – 5min
 94°C – 15sec     --
 52°C – 30sec       │-10 cycles
 72°C – 1min      --
 72°C – 10min
 ----------------
 4°C   stop

After 10 cycles, we added primer to SOEing PCR product(completed ZYMO purification)
 -------------------------
 template      10㎕
 primer Fwd     5㎕
 primer Rev     5㎕
 dNTP           5㎕
 10xbuffer      5㎕
 NFW            19㎕
 VentP          1㎕
 -------------------------
                50㎕

Using primer
 1. ①-③ Fwd : Ptet-luxR∙FA-R  Rev : TcIg∙FA-R
 2. ②-④ Fwd : Ptet-luxR∙FA-R  Rev : TcIg∙FA-R
 3. ①-⑤ Fwd : PluxR∙FA-R     Rev : TcIg∙FA-R
 4. ②-⑥ Fwd : PluxR∙FA-R     Rev : TcIg∙FA-R
 5. control

Using template
 1. Ptet-LuxR-PT7/cI(OR2)-GFP
 2. Ptet-LuxR-PT7/cI(OR1)-GFP
 3. Prom-LuxR-Pt7/cI(OR2)-GFP
 4. Prom-LuxR-Pt7.cI(OR1)-GFP
 5. control

PCR condition(usingTAKARA PCR thermal cycler)
 94°C – 5min
 94°C – 15sec     --
 51°C – 30sec       │-25 cycles
 72°C – 1min      --
 72°C – 10min

↓
Gel Electrophoresis

Cm             Amp
1-3C            1-1K
1-3A            pSB1A3
pSB1C3

↓
Liquid Incubation(37°C) 7:15~

-------------------------
template       3㎕
primer Fwd     5㎕
primer Rev     5㎕
dNTP           5㎕
10xbuffer      5㎕
NFW            26㎕
VentP          1㎕
-------------------------
               50㎕

Using primer
 Fwd : pSB1C3FA-F
 Rev : pSB1C3FA-R

Using template
 1. 1-3C(J04450,pSB3C5)
 2. pSB1C3
 3. 1-3A(J04450,pSB1C3)
 4. 1-1K(J04450,J63010)
 5. control(pCI-GFP)   primer Fwd : PcI-GFP∙fwd Rev : PcI-GFP∙rev

PCR condition
 94°C – 5min
 94°C – 15sec    --
 51°C – 30sec      │-25 cycles
 72°C – 1min     --
 72°C – 10min

↓
Gel Electrophoresis

Notebook

8/31 We've started experiment. First, we researched the property of T7 promoter.

9/5 We are researching promoter and inverters.

10/7 We are on the bench!! Design primers, PCR and experimentsssssssssss :D