From 2013.igem.org

(Difference between revisions)

Latest revision as of 02:42, 19 October 2013

HOME
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- Abstract
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NOTEBOOK
- July
- August
- September
SAFETY
HUMAN PRACTICES
ATTRIBUTIONS

August

August 5th

Performing PCR gradient for alpha fragment and omega fragment with and without linker

Temperatures used for the PCR are 510C, 54.50C, 60.20C, 63.90C, 670C and 69.50C

Running electrophoresis to check the result

The bands were very thin, so we decided to re-PCR the alpha and omega fragment

August 6th

Linearizing LacZ full from 3rd coloni in the replica (third transformation)

PCR alpha and omega fragment with and without linker

Temperatures used for the PCR are 500C, 53.20C, 55.50C, 61.00C, 66.80C, and 68.40C

Running electrophoresis

The thickest band was shown at 53.20C for alpha fragment and at 500C for omega fragment. Hence the temperatures said above will be used for PCR using Taq HiFi

August 12th

Running

We got bands with correct length, however we got thin bands on well containing omega fragment of beta galactosidase. We decided to do large scale PCR using PFx the next day.

August 13th

Large scale PCR (50μL) using PFx enzyme with annealing temperature at 53.20C for alpha fragment, 500C for omega fragment and omega fragment+linker

We got the correct length for all fragments

August 14th

Large scale PCR (50μL) using PFx enzyme with annealing temperature at 53.20C for alpha fragment, 500C for omega fragment and omega fragment+linker

Correct length for all fragments

We use three tubes, each of them containing PstI with different volume: 0.5 μL, 5 μL, and without any enzyme added for negative control.

§ This step was done in order to check the enzyme, because we are using PstI that had past its expiration date.

The result shows that the PstI is no longer in a good condition. For 1 hr incubation period, the restriction using 0.5μL PstI does not produce the correct length of pQE 80L (4751 bp)

This step was done in order to check the activity of the enzyme in extended period.

August 15th

Moving the pQE 80L + PstI into -400C freezer

Purifying the fragments (alpha+linker, omega, omega+llinker)from the PCR products using Low Melting Point Agarose (LMA) method.

August 16th

Running the incubated pQE 80L + PstI

The enzyme works with extended time of incubation. However, star activity is also observed. Hence, we look up on the internet and found that PstI can still works for extender period of incubation up to 4 hours.

August 17th

Checking the isolated fragments' concentration using Nanodrop 2000

Alpha fragment concentration: 17.1 ng/μL

Omega fragment concentration: 18.8 ng/μL

Omega+linker fragment concentration: 17.1 ng/μL

Ligating pSB1C3 and omega fragment

August 18th

Running purified plasmid in agarose

Linearizing alpha fragment using PstI

Ligating pcDNA 3.1 + omega fragment

Ligating pcDNA 3.1 + alpha fragment

Cutting the ligated psB1C3 + omega fragment using EcoRI to verify he length of fragment inserted

Running

August 19th

Re-ligating psB1C3+ω

Cut pCDNA+α and pCDNA+ω with BamHI

Running

August 20th

Running the ligated parts

Making new competent cells

Transforming the ligated parts

Spread the transformed cells into agar plates

August 22nd

Making agar plates

Re-PCR alpha and omega fragments using PFX HiFi

Running electrophoresis

August 23rd

Ligating gBlocks to pBluescript and pSB1C3

Ligating alpha and omega fragment to pBluescript

Purify PCR products using LMA

Ligating alpha and omega fragments from PCR products to pcDNA 3.1

August 24th

Nanodrop the LMA product

Nanodrop the previously isolated alpha fragment

Restricting LMA with omega fragments using EcoRI

Restricting pCDNA 3.1 using EcoRI and XhoI

Restricting the previously purified alpha fragment using EcoRI

Running

August 25th

Restricting:

LMA omega fragmetns

Lox511 gBlock

(G4S)4 gBlock

Purifying the restricted plasmid from the preious day

Ligating

Omega fragment-pCDNA 3.1

Alpha fragment-pCDNA 3.1

Omega fragment-pSB1C3

Lox511-pSB1C3

(G4S)4- pSB1C3

Purifying the following:

Omega fragment restricted with EcoRI and PstI

Lox511

(G4S)4

August 26th

Transforming

Lox511

(G4S)4

pQE 80-L

pQE 82-L

Positive control for ampicillin and chloramphenicol antibiotics

Spread

Streak E.coli top10

Ligation using T4 DNA Ligase Promega + T4 NEBuffer

August 27th

Making replica on LB agar plate

Running the previously ligated plasmids

Restriction using BamHI and PstI

Purification of DNA

Making new agar plates

Making overnight top10

Inoculating bacteria in LB Broth for mall scale isolation

August 28th

PCR omega fragments

Small scale isolation

Restriction using EcoRI to check the length

Running

August 30th

Inoculating bacteria with pBluescript KS in 4 mL LB broth

PCR omega fragment

Making LB Agar

Making LB Broth

Making pBluescript KS replica

August 31st

Small scale isolaiton

Running PCR products August 30th

Inoculating bacteria with pBluescript KS in 4 mL LB broth

PCR omega fragment

Making LB Agar

Making LB Broth

Making pBluescript KS replica

August 31st

Small scale isolaiton

Running PCR products

Team:UI-Indonesia/August

From 2013.igem.org

Latest revision as of 02:42, 19 October 2013

August

August 5th

August 6th

August 12th

August 13th

August 14th

August 15th

August 16th

August 17th

August 18th

August 19th

August 20th

August 22nd

August 23rd

August 24th

August 25th

August 26th

August 27th

August 28th

August 30th

August 31st

Running PCR products August 30th

August 31st

Supported by

@@ Line 5: / Line 5: @@
 <br>
 <br>
-<h1><span id= "The_Great_Team"; style="color:white";>July</span></h1>
+<h1><span id= "The_Great_Team"; style="color:white";>August</span></h1>
-<div style="background-color:white";>
+<div style="background-color:white ; border:2px solid; border-radius:15px; padding:15px 15px;">
-August 5th
+<h1>August 5th</h1>
-	- Performing PCR gradient for alpha fragment and omega fragment with and without linker
+	<li>Performing PCR gradient for alpha fragment and omega fragment with and without linker
-		○ Temperatures used for the PCR are 510C, 54.50C, 60.20C, 63.90C, 670C and 69.50C
+		<ul> Temperatures used for the PCR are 510C, 54.50C, 60.20C, 63.90C, 670C and 69.50C</ul></li>
-	- Running electrophoresis to check the result
+	<li>Running electrophoresis to check the result
-		○ The bands were very thin, so we decided to re-PCR the alpha and omega fragment
+		<ul> The bands were very thin, so we decided to re-PCR the alpha and omega fragment</ul></li>
-August 6th
+<h1>August 6th</h1>
-	- Linearizing LacZ full from 3rd coloni in the replica (third transformation)
+	<li>Linearizing LacZ full from 3rd coloni in the replica (third transformation)
-	- PCR alpha and omega fragment with and without linker
+	<li>PCR alpha and omega fragment with and without linker
-		○ Temperatures used for the PCR are 500C, 53.20C, 55.50C, 61.00C, 66.80C, and 68.40C
+		<ul>Temperatures used for the PCR are 500C, 53.20C, 55.50C, 61.00C, 66.80C, and 68.40C</ul><li>
-	- Running electrophoresis
+	<li>Running electrophoresis
-		○ The thickest band was shown at 53.20C for alpha fragment and at 500C for omega fragment. Hence the temperatures said above will be used for PCR using Taq HiFi
+		<ul>The thickest band was shown at 53.20C for alpha fragment and at 500C for omega fragment. Hence the temperatures said above will be used for PCR using Taq HiFi</ul></li>
-August 12th
+<h1>August 12th</h1>
-	- Running
+	<li>Running
-		○ We got bands with correct length, however we got thin bands on well containing omega fragment of beta galactosidase. We decided to do large scale PCR using PFx the next day.
+		<ul>We got bands with correct length, however we got thin bands on well containing omega fragment of beta galactosidase. We decided to do large scale PCR using PFx the next day.</ul></li>
-August 13th
+<h1>August 13th</h1>
-	- Large scale PCR (50μL) using PFx enzyme with annealing temperature at 53.20C for alpha fragment, 500C for omega fragment and omega fragment+linker
+	<li>Large scale PCR (50μL) using PFx enzyme with annealing temperature at 53.20C for alpha fragment, 500C for omega fragment and omega fragment+linker
-	- Running electrophoresis
+	<ul>Running electrophoresis
-		○ We got the correct length for all fragments
+		<ul>We got the correct length for all fragments</ul></ul></li>
-August 14th
+<h1>August 14th</h1>
-	- Large scale PCR (50μL) using PFx enzyme with annealing temperature at 53.20C for alpha fragment, 500C for omega fragment and omega fragment+linker
+	<li>Large scale PCR (50μL) using PFx enzyme with annealing temperature at 53.20C for alpha fragment, 500C for omega fragment and omega fragment+linker
-	- Running electrophoresis:
+	<ul>Running electrophoresis:
-		○ Correct length for all fragments
+		<ul>Correct length for all fragments</ul></ul>
-	- Restricting pQE80L using PstI
+	<ul>Restricting pQE80L using PstI
-		○ We use three tubes, each of them containing PstI with different volume: 0.5 μL, 5 μL, and without any enzyme added for negative control.
+		<ul>We use three tubes, each of them containing PstI with different volume: 0.5 μL, 5 μL, and without any enzyme added for negative control.</ul></ul>
 			§ This step was done in order to check the enzyme, because we are using PstI that had past its expiration date.
-	- Running the restricted PCR
+	<ul>Running the restricted PCR
-		○ The result shows that the PstI is no longer in a good condition. For 1 hr incubation period, the restriction using 0.5μL PstI does not produce the correct length of pQE 80L (4751 bp)
+		<ul>The result shows that the PstI is no longer in a good condition. For 1 hr incubation period, the restriction using 0.5μL PstI does not produce the correct length of pQE 80L (4751 bp)</ul></ul>
-	- Incubating the restricted pQE80L overnight
+	<ul>Incubating the restricted pQE80L overnight
-		○ This step was done in order to check the activity of the enzyme in extended period.
+		<ul>This step was done in order to check the activity of the enzyme in extended period.</ul></ul></li>
-August 15th
+<h1>August 15th</h1>
-	- Moving the pQE 80L + PstI into -400C freezer
+	<li>Moving the pQE 80L + PstI into -400C freezer</li>
-	- Purifying the fragments (alpha+linker, omega, omega+llinker)from the PCR products using Low Melting Point Agarose (LMA) method.
+	<li>Purifying the fragments (alpha+linker, omega, omega+llinker)from the PCR products using Low Melting Point Agarose (LMA) method.</li>
-August 16th
+<h1>August 16th</h1>
-	-  Running the incubated pQE 80L + PstI
+	<li>Running the incubated pQE 80L + PstI</li>
 The enzyme works with extended time of incubation. However, star activity is also observed. Hence, we look up on the internet and found that PstI can still works for extender period of incubation up to 4 hours.
-August 17th
+<h1>August 17th</h1>
-	- Checking the isolated fragments' concentration using Nanodrop 2000
+	<li>Checking the isolated fragments' concentration using Nanodrop 2000
-		○ Alpha fragment concentration: 17.1 ng/μL
+		<ul>Alpha fragment concentration: 17.1 ng/μL</ul>
-		○ Omega fragment concentration: 18.8 ng/μL
+		<ul>Omega fragment concentration: 18.8 ng/μL</ul>
-		○ Omega+linker fragment concentration: 17.1 ng/μL
+<ul>Omega+linker fragment concentration: 17.1 ng/μL</ul></li>
-	- Ligating pSB1C3 and omega fragment
+	<li>Ligating pSB1C3 and omega fragment</li>
-August 18th
+<h1>August 18th</h1>
-	-  Running purified plasmid in agarose
+	<li>Running purified plasmid in agarose</li>
-	- Linearizing alpha fragment using PstI
+	<li>Linearizing alpha fragment using PstI</li>
-	- Ligating pcDNA 3.1 + omega fragment
+	 <li>Ligating pcDNA 3.1 + omega fragment</li>
-	- Ligating pcDNA 3.1 + alpha fragment
+	 <li>Ligating pcDNA 3.1 + alpha fragment</li>
-	- Cutting the ligated psB1C3 + omega fragment using EcoRI to verify he length of fragment inserted
+	 <li>Cutting the ligated psB1C3 + omega fragment using EcoRI to verify he length of fragment inserted</li>
-	- Running
+	 <li>Running</li>
-August 19th
+<h1>August 19th</h1>
-	- Re-ligating psB1C3+ω
+	<li>Re-ligating psB1C3+ω</li>
-	- Cut pCDNA+α and pCDNA+ω with BamHI
+	<li>Cut pCDNA+α and pCDNA+ω with BamHI</li>
-	- Running
+	<li>Running</li>
-August 20th
+<h1>August 20th</h1>
-	- Running the ligated parts
+	<li>Running the ligated parts</li>
-	- Making new competent cells
+	<li>Making new competent cells</li>
-	- Transforming the ligated parts
+	<li>Transforming the ligated parts</li>
-	- Spread the transformed cells into agar plates
+	<li>Spread the transformed cells into agar plates</li>
-August 22nd
+<h1>August 22nd</h1>
-	- Making agar plates
+	<li>Making agar plates</li>
-	- Re-PCR alpha and omega fragments using PFX HiFi
+	<li>Re-PCR alpha and omega fragments using PFX HiFi</li>
-	- Running electrophoresis
+	<li>Running electrophoresis</li>
-August 23rd
+<h1>August 23rd</h1>
-	- Ligating gBlocks to pBluescript and pSB1C3
+	<li>Ligating gBlocks to pBluescript and pSB1C3</li>
-	- -Ligating alpha and omega fragment to pBluescript
+	<li>Ligating alpha and omega fragment to pBluescript</li>
-	- Purify PCR products using LMA
+	<li>Purify PCR products using LMA</li>
-	- Ligating alpha and omega fragments from PCR products to pcDNA 3.1
+	<li>Ligating alpha and omega fragments from PCR products to pcDNA 3.1</li>
-August 24th
+<h1>August 24th</h1>
-	- Nanodrop the LMA product
+	<li>Nanodrop the LMA product</li>
-	- Nanodrop the previously isolated alpha fragment
+<li>Nanodrop the previously isolated alpha fragment</li>
-	- Restricting LMA with omega fragments using EcoRI
+	<li>Restricting LMA with omega fragments using EcoRI</li>
-	- Restricting pCDNA 3.1 using EcoRI and XhoI
+	<li>Restricting pCDNA 3.1 using EcoRI and XhoI</li>
-	- Restricting the previously purified alpha fragment using EcoRI
+	<li>Restricting the previously purified alpha fragment using EcoRI</li>
-	- Running
+	<li>Running</li>
-August 25th
+<h1>August 25th</h1>
-	- Restricting:
+        <li>Restricting:
-		○ LMA omega fragmetns
+		<ul>LMA omega fragmetns</ul>
-		○ Lox511 gBlock
+		<ul>Lox511 gBlock</ul>
-		○ (G4S)4 gBlock
+		<ul>(G4S)4 gBlock</ul></li>
-	- Purifying the restricted plasmid from the preious day
+	<li>Purifying the restricted plasmid from the preious day</li>
-	- Ligating
+	<li>Ligating
-		○ Omega fragment-pCDNA 3.1
+		<ul>Omega fragment-pCDNA 3.1</ul>
-		○ Alpha fragment-pCDNA 3.1
+		<ul>Alpha fragment-pCDNA 3.1</ul>
-		○ Omega fragment-pSB1C3
+		<ul>Omega fragment-pSB1C3</ul>
-		○ Lox511-pSB1C3
+		<ul>Lox511-pSB1C3</ul>
-		○ (G4S)4- pSB1C3
+		<ul>(G4S)4- pSB1C3</ul></li>
-	- Purifying the following:
+	<li>Purifying the following:
-		○ Omega fragment restricted with EcoRI and PstI
+		<ul>Omega fragment restricted with EcoRI and PstI</ul>
-		○ Lox511
+		<ul>Lox511</ul>
-		○ (G4S)4
+		<ul>(G4S)4</ul></li>
-August 26th
+<h1>August 26th</h1>
-	- Transforming
+	<li>Transforming
-		○ Lox511
+		<ul>Lox511</ul>
-		○ (G4S)4
+		<ul>(G4S)4</ul>
-		○ pQE 80-L
+		<ul>pQE 80-L</ul>
-		○ pQE 82-L
+		<ul>pQE 82-L</ul>
-		○ Positive control for ampicillin and chloramphenicol antibiotics
+		<ul>Positive control for ampicillin and chloramphenicol antibiotics</ul></li>
-	- Spread
+	<li>Spread</li>
-	- Streak E.coli top10
+	<li>Streak E.coli top10</li>
-	- Ligation using T4 DNA Ligase Promega + T4 NEBuffer
+	<li>Ligation using T4 DNA Ligase Promega + T4 NEBuffer</li>
-August 27th
+<h1>August 27th</h1>
-	- Making replica on LB agar plate
+	<li>Making replica on LB agar plate</li>
-	- Running the previously ligated plasmids
+	<li>Running the previously ligated plasmids</li>
-	- Restriction using BamHI and PstI
+	<li>Restriction using BamHI and PstI</li>
-	- Purification of DNA
+	<li>Purification of DNA</li>
-	- Making new agar plates
+	<li>Making new agar plates</li>
-	- Making overnight top10
+	<li>Making overnight top10</li>
-	- Inoculating bacteria in LB Broth for mall scale isolation
+	<li>Inoculating bacteria in LB Broth for mall scale isolation</li>
-August 28th
+<h1>August 28th</h1>
-	- PCR omega fragments
+	<li>PCR omega fragments</li>
-	- Small scale isolation
+	<li>Small scale isolation</li>
-	- Restriction using EcoRI to check the length
+	<li>Restriction using EcoRI to check the length</li>
-	- Running
+	<li>Running</li>
-August 30th
+<h1>August 30th</h1>
-	- Inoculating bacteria with pBluescript KS in 4 mL LB broth
+	<li>Inoculating bacteria with pBluescript KS in 4 mL LB broth</li>
-	- PCR omega fragment
+	<li>PCR omega fragment</li>
-	- Making LB Agar
+	<li>Making LB Agar</li>
-	- Making LB Broth
+	<li>Making LB Broth</li>
-	- Making pBluescript KS replica
+	<li>Making pBluescript KS replica</li>
-August 31st
+<h1>August 31st</h1>
-	- Small scale isolaiton
+	<li>Small scale isolaiton</li>
-Running PCR productsAugust 30th
+<h1>Running PCR products August 30th</h1>
-	- Inoculating bacteria with pBluescript KS in 4 mL LB broth
+	<li>Inoculating bacteria with pBluescript KS in 4 mL LB broth</li>
-	- PCR omega fragment
+	<li>PCR omega fragment</li>
-	- Making LB Agar
+	<li>Making LB Agar</li>
-	- Making LB Broth
+	<li>Making LB Broth</li>
-	- Making pBluescript KS replica
+	<li>Making pBluescript KS replica</li>
-August 31st
+<h1>August 31st</h1>
-	- Small scale isolaiton
+	<li>Small scale isolaiton</li>
-	- Running PCR products
+	<li>Running PCR products</li>
-September 1st
-	- Purification of PCR omega fragment
-	- Making gene ruler
-	- Running the purified product
-	- Nanodrop the purified product : 110 ng/μL
-	- Inoculating bacteria with pBluescript KS and pSB1C3 containg alpha fragment
-	- Spreading BL21 and Top10 on agar plates with chloramphenicol antibiotic to check the optimum chloramphenicol concentration.
-September 3rd
-	- Nanodrop the large scale isolation product:
-		○ pBluesript KS: 69.5 ng/μL
-		○ Alpha fragment : 179.5 ng/μL
-	- Restricting pBluescript KS using EcoRv
-	- Nanodrop the restricted plasmid
-	- Making competent cells
-September 4th
-	- Testing te chloramphenicol concentration
-	- Testing the enzymatic activity from PstI
-	- Making agar plates with different concentration of chloramphenicol
-	- Running the result of enzymatic activity test
-September 5th
-	- Re-testing the enzymatic activity using different buffers
-	- Running
-	- Checking the chloramphenicol test result
-	- Transforming:
-		○ Omeg fragment-pBluescript KS
-		○ (G4S)4 -pSB1C3 (ligated 3/9)
-		○ Lox511-psB1C3 (ligated 3/9)
-		○ Lox511-psB1C3 (ligated 25/8)
-		○ Lox511-psB1C3 (ligated 25/8)
-		○ (G4S)4 -pSB1C3 (ligated 25/8)
-		○ pQE80L
-		○ Re-ligating omega  fragment-pSB1C3
-September 6th
-	- Restricting:
-		○ Omega fragment + EcoRI
-		○ pSB1C3
-		○ Omega fragmetn +XbaI
-		○ pBluscript KS + XbaI
-		○ Alpha fragment + XbaI
-	- Running
-	- Nanodrop the purified digested plasmid
-		○ Omega fragment + EcoRI = 7.2 ng/μL
-		○ pSB1C3 = 3.8 ng/μL
-		○ Omega fragment + XbaI = 7.7 ng/μL
-		○ pBluescript KS + XbaI = 9.8 ng/μL
-		○ Alpha fragment + Xba I =  0.35 ng/μL
-        - Running
-        - Inoculating bacteria with pSB1C3-alpha fragment in 100mL broth
-September 9th
-	- Large scale pSB1C3-alpha fragment isolation
-	- Restricting pBluescript KS using EcoRV
-	- Digesting linearized pSB1C3 and linearized omega fragment using PstI
-	- Making 750mL LB Broth
-	- Making agar plates
-	- Digesting pSB1C3-alpha fragment
-	- Purifying the digested using LMA
-	- Blunting Lox511 and (G4S)4 linker
-	- Running
-September 11th
-	- Small scale isolation
-	- Running the small scale isolation product
-September 13th
-	- Re-run the small scale iolation product
- 	- Inoculate the bacteria containing pSB1C3=omega fragment
-September 14th
-	- Running small scale isolation product
-	- PCR Colony
-	- Large scale isolation
-	- Re-ligating omega fragment with pSB1C3
-September 15th
-	- Running
-		○ Digested pQE+PstI
-		○ PQE
-		○ Digested alpha fragment+PstI
-		○ Alpha fragment
-		○ Marker
-		○ 5
-		○ 8
-		○ 9
-		○ 15
-		○ Large scale isolation pBluescript KS-omega
 </div>
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