Difference between revisions of "Team:UFMG Brazil/Protocols"
Andrebrait (Talk | contribs) |
Andrebrait (Talk | contribs) |
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<h4>PCR for IFN-β amplification</h4> | <h4>PCR for IFN-β amplification</h4> | ||
| − | <p><u>PCR reaction</u></p> | + | <p><u>PCR reaction</u><br/></p> |
<p class="indent"> | <p class="indent"> | ||
3 μl incubation buffer<br/> | 3 μl incubation buffer<br/> | ||
| Line 15: | Line 15: | ||
0.5 μl Taq DNA Polymerase<br/></p> | 0.5 μl Taq DNA Polymerase<br/></p> | ||
| − | <p><u>Thermocycler program:</u></p> | + | <p><u>Thermocycler program:</u><br/></p> |
<img class="centered-image" src="https://static.igem.org/mediawiki/2015/f/fc/UFMG-Brazil-Protocols-Table.png"/><br/> | <img class="centered-image" src="https://static.igem.org/mediawiki/2015/f/fc/UFMG-Brazil-Protocols-Table.png"/><br/> | ||
| Line 24: | Line 24: | ||
<ul class="disc"><li>0.36 g agarose</li> | <ul class="disc"><li>0.36 g agarose</li> | ||
<li>30 mL TAE Buffer (tris-acetate-EDTA)</li> | <li>30 mL TAE Buffer (tris-acetate-EDTA)</li> | ||
| − | <li>1.5 µL Sybr Safe</li></ul> | + | <li>1.5 µL Sybr Safe</li></ul><br/> |
| − | <p><u>TAE Buffer materials – 1L</ | + | <p><u>TAE Buffer materials – 1L</u><br/></p> |
<ul class="disc"><li>242 g Tris Base</li> | <ul class="disc"><li>242 g Tris Base</li> | ||
<li>57.1 mL Cold Acetic Acid</li> | <li>57.1 mL Cold Acetic Acid</li> | ||
<li>100 mL 0.5 M EDTA</li> | <li>100 mL 0.5 M EDTA</li> | ||
| − | <li>1 L distilled water</li></ul> | + | <li>1 L distilled water</li></ul><br/> |
| − | <p><u>Sample materials - 12 µL</ | + | <p><u>Sample materials - 12 µL</u><br/></p> |
<ul class="disc"><li>1 kb DNA ladder</li> | <ul class="disc"><li>1 kb DNA ladder</li> | ||
| Line 39: | Line 39: | ||
<li>8 µL nuclease-free water</li> | <li>8 µL nuclease-free water</li> | ||
<li>2 µL Miniprep DNA</li> | <li>2 µL Miniprep DNA</li> | ||
| − | <li>2 µL loading buffer</li></ul> | + | <li>2 µL loading buffer</li></ul><br/> |
| − | <p><u>Methodology</u></p> | + | <p><u>Methodology</u><br/></p> |
<p>Prepare the TAE buffer joining the materials in a volumetric flask, beaker or container at the stated order.<br/> | <p>Prepare the TAE buffer joining the materials in a volumetric flask, beaker or container at the stated order.<br/> | ||
| Line 52: | Line 52: | ||
In a microtube or paraplast tape, mix the loading buffer with the DNA and carefully apply it to the gel. Apply the 1 kb DNA Ladder to gel as well.<br/> | In a microtube or paraplast tape, mix the loading buffer with the DNA and carefully apply it to the gel. Apply the 1 kb DNA Ladder to gel as well.<br/> | ||
| − | Plug the electrodes and run gel for ~40 min.<br/></p> | + | Plug the electrodes and run gel for ~40 min.<br/></p><br/> |
<h4>Double digestion</h4> | <h4>Double digestion</h4> | ||
| − | <p><u>Double digestion reaction:</u></p> | + | <p><u>Double digestion reaction:</u><br/></p> |
| − | <p class="indent">Nuclease-free water | + | <p class="indent">4.8 μl Nuclease-free water<br/> |
| − | pLP-neo miniprep DNA | + | 12 μl pLP-neo miniprep DNA<br/> |
| − | + | 0.2 μl BSA<br/> | |
| − | Multicore 10x buffer | + | 2 μl Multicore 10x buffer<br/> |
| − | + | 0.5 μl XbaI enzyme<br/> | |
| − | + | 0.5 μl BamHI enzyme<br/></p> | |
<p>Final volume: 20 μl<br/> | <p>Final volume: 20 μl<br/> | ||
Quick spin<br/> | Quick spin<br/> | ||
| Line 69: | Line 69: | ||
<h4>Ligation</h4> | <h4>Ligation</h4> | ||
| − | <p>We used the IFN-β DNA amplified by PCR for ligation with pGEM-T Easy vector System I (Promega).</ | + | <p>We used the IFN-β DNA amplified by PCR for ligation with pGEM-T Easy vector System I (Promega).<br/></p> |
| − | <p><u>Reaction - total 10 μl</u></p> | + | <p><u>Reaction - total 10 μl</u><br/></p> |
| − | <p class="indent">2x Rapid Ligation Buffer, T4 DNA Ligase | + | <p class="indent">5 μl 2x Rapid Ligation Buffer, T4 DNA Ligase<br/> |
| − | pGEM-T Easy vector (50 ng) | + | 1 μl pGEM-T Easy vector (50 ng)<br/> |
| − | IFN-β PCR product from tube 1 | + | 3 μl IFN-β PCR product from tube 1<br/> |
| − | T4 DNA Ligase (3 Weiss units/μl) | + | 1 μl T4 DNA Ligase (3 Weiss units/μl)<br/></p> |
<p>Incubation for 1 h at room temperature. After, the ligation was incubated at 4° C, overnight.<br/></p><br/> | <p>Incubation for 1 h at room temperature. After, the ligation was incubated at 4° C, overnight.<br/></p><br/> | ||
| − | Bacteria mediums | + | <h4>Bacteria mediums</h4> |
| − | *LB (Luria-Bertani) liquid medium – 300 ml | + | <p><u>*LB (Luria-Bertani) liquid medium – 300 ml</u><br/></p> |
| − | 3 g tryptone | + | <ul class="disc"><li>3 g tryptone</li> |
| − | 1.5 g yeast extract | + | <li>1.5 g yeast extract</li> |
| − | 3 g NaCl | + | <li>3 g NaCl</li></ul> |
| − | Complete to 300 ml with distilled water | + | <p>Complete to 300 ml with distilled water<br/> |
| − | Autoclave in a 500 ml erlenmeyer | + | Autoclave in a 500 ml erlenmeyer<br/> |
| − | Prepare 2 erlenmeyers with 300 ml of medium each | + | Prepare 2 erlenmeyers with 300 ml of medium each<br/></p><br/> |
| − | LB (Luria-Bertani) Agar medium – 300 ml | + | <p><u>LB (Luria-Bertani) Agar medium – 300 ml</u><br/></p> |
| − | 3 g tryptone | + | <ul class="disc"><li>3 g tryptone</li> |
| − | 1.5 g yeast extract | + | <li>1.5 g yeast extract</li> |
| − | 3 g NaCl | + | <li>3 g NaCl</li> |
| − | 4.5 g Agar (weigh directly into the erlenmeyer) | + | <li>4.5 g Agar (weigh directly into the erlenmeyer)</li></ul> |
| − | Complete to 300 ml with distilled water | + | <p>Complete to 300 ml with distilled water<br/> |
| − | Autoclave in a 500 ml erlenmeyer | + | Autoclave in a 500 ml erlenmeyer<br/></p> |
| − | SOC medium – 100 ml | + | <p><u>SOC medium – 100 ml</u><br/></p> |
| − | 2 g tryptone | + | <ul class="disc"><li>2 g tryptone</li> |
| − | 0.5 g yeast extract | + | <li>0.5 g yeast extract</li> |
| − | 200 µl NaCl 5 M | + | <li>200 µl NaCl 5 M</li> |
| − | 1 ml MgCl2 1 M | + | <li>1 ml MgCl2 1 M</li> |
| − | 250 µl KCl 1 M | + | <li>250 µl KCl 1 M</li> |
| − | 10 ml MgSO4 1 M | + | <li>10 ml MgSO4 1 M</li></ul> |
| − | Complete to 100 ml with distilled water | + | <p>Complete to 100 ml with distilled water<br/> |
| − | Autoclave and store in bottle with lid | + | Autoclave and store in bottle with lid<br/></p><br/> |
| − | Preparing NaCl 5 M | + | <p><u>Preparing NaCl 5 M</u><br/></p> |
| − | NaCl MW: 58.44 g/mol | + | <p class="formula">NaCl MW: 58.44 g/mol<br/> |
| − | 58.44 g ---- 1 mol ---- 1000 ml | + | 58.44 g ---- 1 mol ---- 1000 ml<br/> |
| − | x ------------------------- 50 ml | + | x ------------------------- 50 ml<br/> |
| − | x = 2.92 g | + | x = 2.92 g<br/> |
| − | 2.92 g -------- 1 mol | + | 2.92 g -------- 1 mol<br/> |
| − | y --------------- 5 mol | + | y --------------- 5 mol<br/> |
| − | y = 14.6 g | + | y = 14.6 g<br/> |
| − | Put 14.6 g NaCl into a 50 ml falcon tube and complete to 50 ml with distilled water | + | Put 14.6 g NaCl into a 50 ml falcon tube and complete to 50 ml with distilled water<br/></p><br/> |
| − | + | ||
| − | Preparing MgCl2 1 M | + | <p><u>Preparing MgCl2 1 M</u><br/></p> |
| − | + | <p class="formula">MgCl2 MW: 95.211 g/mol<br/> | |
| − | + | 95.21 g ---- 1 mol ---- 1000 ml<br/> | |
| − | x ------------------------- 50 ml | + | x ------------------------- 50 ml<br/> |
| − | x = 4.7 g | + | x = 4.7 g<br/> |
| − | Put 4.7 g MgCl2 into a 50 ml falcon tube and complete to 50 ml with distilled water | + | Put 4.7 g MgCl2 into a 50 ml falcon tube and complete to 50 ml with distilled water<br/></p><br/> |
| − | + | ||
| − | Preparing KCl 1 M | + | <p><u>Preparing KCl 1 M</u><br/></p> |
| − | + | <p class="formula">KCl MW: 74.5513 g/mol<br/> | |
| − | + | 74.55 g ---- 1 mol ---- 1000 ml<br/> | |
| − | x ------------------------- 50 ml | + | x ------------------------- 50 ml<br/> |
| − | x = 3.72 g | + | x = 3.72 g<br/> |
| − | Put 3.72 g KCl into a 50 ml falcon tube and complete to 50 ml with distilled water | + | Put 3.72 g KCl into a 50 ml falcon tube and complete to 50 ml with distilled water<br/></p><br/> |
| − | TOP10 E.coli bacteria chemo competent transformation | + | <h4>TOP10 <i>E.coli</i> bacteria chemo competent transformation</h4> |
| − | 2 μl of pUCIDT gene 1-LAP-INFβ plasmid in 100 μl of TOP10 bacteria | + | <p>2 μl of pUCIDT gene 1-LAP-INFβ plasmid in 100 μl of TOP10 bacteria<br/> |
| − | 30 min ice incubation | + | 30 min ice incubation<br/> |
| − | 90 s incubation in 42º C water bath; | + | 90 s incubation in 42º C water bath;<br/> |
| − | 2 min ice incubation; | + | 2 min ice incubation;<br/> |
| − | Carefully add 0.9 ml of SOC medium; | + | Carefully add 0.9 ml of SOC medium;<br/> |
| − | 1 h incubation in 37° C and 120 rpm of rotation; | + | 1 h incubation in 37° C and 120 rpm of rotation;<br/> |
| − | 2 bacterial plating of 100 μl of transformation (37° C, 16 h) | + | 2 bacterial plating of 100 μl of transformation (37° C, 16 h)<br/> |
| − | Each plate was made with 30 ml of LB agar and 30 μl of ampicillin 100 mg/ml | + | Each plate was made with 30 ml of LB agar and 30 μl of ampicillin 100 mg/ml<br/></p><br/> |
| − | Bacterial plating | + | <h4>Bacterial plating</h4> |
| − | Materials used | + | <p><u>Materials used</u><br/></p> |
| − | Erlenmeyer flask and sterilized becker | + | <ul class="disc"><li>Erlenmeyer flask and sterilized becker</li> |
| − | LB Agar | + | <li>LB Agar</li> |
| − | Sterile petri dishes | + | <li>Sterile petri dishes</li> |
| − | Antibiotic | + | <li>Antibiotic</li> |
| − | Bunsen burner | + | <li>Bunsen burner</li> |
| − | 70% Ethanol | + | <li>70% Ethanol</li> |
| − | Platinum strap | + | <li>Platinum strap</li> |
| − | Clones | + | <li>Clones</li></ul><br/> |
| − | Methods | + | <p><u>Methods</u><br/></p> |
| − | Heat LB Agar in the microwave. Let it cool near the flame. | + | <p>Heat LB Agar in the microwave. Let it cool near the flame.<br/> |
| − | Pour between 15 mL and 30 mL of LB Agar in an Erlenmeyer. Add the antibiotic in the right proportion and mix. | + | Pour between 15 mL and 30 mL of LB Agar in an Erlenmeyer. Add the antibiotic in the right proportion and mix.<br/> |
| − | Pour the medium in the Petri dish and let it solidify near the flame. | + | Pour the medium in the Petri dish and let it solidify near the flame.<br/> |
| − | Pipet the desired volume of clone on the plate. Spread the bacterial suspension throughout the Petri dish homogeneously. | + | Pipet the desired volume of clone on the plate. Spread the bacterial suspension throughout the Petri dish homogeneously.<br/> |
| − | Cover the plate and incubate it at 37° C for 12-16 h | + | Cover the plate and incubate it at 37° C for 12-16 h<br/> |
| − | Standard antibiotics concentration used: | + | Standard antibiotics concentration used:<br/></p> |
| − | Ampicillin: 10 µl/ml | + | <ul class="disc"><li>Ampicillin: 10 µl/ml</li> |
| − | Chloramphenicol: 1.2 µL/mL | + | <li>Chloramphenicol: 1.2 µL/mL</li></ul><br/> |
| − | Pre-inoculum and inoculum | + | <h4>Pre-inoculum and inoculum</h4> |
| − | Materials used | + | <p><u>Materials used</u><br/></p> |
| − | + | <ul class="disc"><li>Sterilized tips</li> | |
| − | Pipettes | + | <li>Pipettes</li> |
| − | Antibiotic | + | <li>Antibiotic</li> |
| − | Petri dishes containing isolated bacterial colonies | + | <li>Petri dishes containing isolated bacterial colonies</li> |
| − | Sterilized test-tubes | + | <li>Sterilized test-tubes</li> |
| − | LB Liquid medium | + | <li>LB Liquid medium</li> |
| − | Bunsen burner | + | <li>Bunsen burner</li></ul><br/> |
| − | Methodology | + | <p><u>Methodology</u><br/></p> |
| − | Add 4 ml of LB liquid medium to each test-tube and the correspondent antibiotic ratio | + | <ul class="disc"><li>Add 4 ml of LB liquid medium to each test-tube and the correspondent antibiotic ratio</li> |
| − | With toothpick or sterilized tip, remove an isolated colony | + | <li>With toothpick or sterilized tip, remove an isolated colony</li> |
| − | Place the toothpick/tip inside the test-tube, without touching it sides | + | <li>Place the toothpick/tip inside the test-tube, without touching it sides</li> |
| − | Leave the tubes overnight at 37° C for 16 h in the shaker | + | <li>Leave the tubes overnight at 37° C for 16 h in the shaker</li> |
| − | After incubation, remove the tubes from the shaker. Medium must be turbid, indicating bacterial growth | + | <li>After incubation, remove the tubes from the shaker. Medium must be turbid, indicating bacterial growth</li> |
| − | Pour the contents of the test-tubes on a larger recipient and complete volume to 20 ml with liquid LB medium | + | <li>Pour the contents of the test-tubes on a larger recipient and complete volume to 20 ml with liquid LB medium</li> |
| − | Repeat the incubation as above and remove the inserted plasmid through miniprep or maxiprep | + | <li>Repeat the incubation as above and remove the inserted plasmid through miniprep or maxiprep</li></ul><br/> |
| − | Glycerol Clone Storage | + | <h4>Glycerol Clone Storage<h4> |
| − | Materials used | + | <p><u>Materials used</u><br/></p> |
| − | 50% Glycerol | + | <ul class="disc"><li>50% Glycerol</li> |
| − | Sterilized microtubes | + | <li>Sterilized microtubes</li> |
| − | Sterilized tips | + | <li>Sterilized tips</li> |
| − | Pipettes | + | <li>Pipettes</li> |
| − | Bacteria in liquid medium containing DNA clone | + | <li>Bacteria in liquid medium containing DNA clone</li></ul><br/> |
| − | Methods | + | <p><u>Methods</u><br/></p> |
| − | Homogenize bacteria medium by inversion. | + | <p>Homogenize bacteria medium by inversion.<br/> |
| − | Near the flame, transfer 170 µL of bacterial culture to a sterile microtube. | + | Near the flame, transfer 170 µL of bacterial culture to a sterile microtube.<br/> |
| − | Add 30 µl of 50% glycerol and homogenize. | + | Add 30 µl of 50% glycerol and homogenize.<br/> |
| − | Place the glycerol clones in a -20° C freezer for ~20 h and then transfer them to a - 80° C freezer. | + | Place the glycerol clones in a -20° C freezer for ~20 h and then transfer them to a - 80° C freezer.<br/></p> |
</html> | </html> | ||
{{UFMG_Brazil/contentbottom}} | {{UFMG_Brazil/contentbottom}} | ||
Revision as of 03:31, 19 September 2015
Project
Lab Work
Modeling
Practices
Synenergene
Team
Protocols
PCR for IFN-β amplification
PCR reaction
3 μl incubation buffer
3 μl primer F
3 μl primer R
1 μl INF-β plasmidial DNA (“pUCIDT gene 1-LAP-INFB”)
3 μl dNTP (10x diluted)
17 μl H2O
0.5 μl Taq DNA Polymerase
Thermocycler program:
Agarose DNA electrophoresis gel
Gel materials – 30 mL gel 1.2%
- 0.36 g agarose
- 30 mL TAE Buffer (tris-acetate-EDTA)
- 1.5 µL Sybr Safe
TAE Buffer materials – 1L
- 242 g Tris Base
- 57.1 mL Cold Acetic Acid
- 100 mL 0.5 M EDTA
- 1 L distilled water
Sample materials - 12 µL
- 1 kb DNA ladder
- 10 µL DNA samples:
- 8 µL nuclease-free water
- 2 µL Miniprep DNA
- 2 µL loading buffer
Methodology
Prepare the TAE buffer joining the materials in a volumetric flask, beaker or container at the stated order.
Add the agarose and TAE in Erlenmeyer. Mix and heat it carefully in the microwave until homogeneous and without crystals.
Wait the glass cooling until the temperature reaches ~60° C. Add Syber Safe and pour the solution in the appropriate gel-forming container. Insert the comb to form the wells and wait for gel solidification.
Remove the comb, place the gel on the running cube, and immerse gel in TAE.
In a microtube or paraplast tape, mix the loading buffer with the DNA and carefully apply it to the gel. Apply the 1 kb DNA Ladder to gel as well.
Plug the electrodes and run gel for ~40 min.
Double digestion
Double digestion reaction:
4.8 μl Nuclease-free water
12 μl pLP-neo miniprep DNA
0.2 μl BSA
2 μl Multicore 10x buffer
0.5 μl XbaI enzyme
0.5 μl BamHI enzyme
Final volume: 20 μl
Quick spin
Incubation at 37º C for 3 h
Inactivation at 56º C for 30 min
Ligation
We used the IFN-β DNA amplified by PCR for ligation with pGEM-T Easy vector System I (Promega).
Reaction - total 10 μl
5 μl 2x Rapid Ligation Buffer, T4 DNA Ligase
1 μl pGEM-T Easy vector (50 ng)
3 μl IFN-β PCR product from tube 1
1 μl T4 DNA Ligase (3 Weiss units/μl)
Incubation for 1 h at room temperature. After, the ligation was incubated at 4° C, overnight.
Bacteria mediums
*LB (Luria-Bertani) liquid medium – 300 ml
- 3 g tryptone
- 1.5 g yeast extract
- 3 g NaCl
Complete to 300 ml with distilled water
Autoclave in a 500 ml erlenmeyer
Prepare 2 erlenmeyers with 300 ml of medium each
LB (Luria-Bertani) Agar medium – 300 ml
- 3 g tryptone
- 1.5 g yeast extract
- 3 g NaCl
- 4.5 g Agar (weigh directly into the erlenmeyer)
Complete to 300 ml with distilled water
Autoclave in a 500 ml erlenmeyer
SOC medium – 100 ml
- 2 g tryptone
- 0.5 g yeast extract
- 200 µl NaCl 5 M
- 1 ml MgCl2 1 M
- 250 µl KCl 1 M
- 10 ml MgSO4 1 M
Complete to 100 ml with distilled water
Autoclave and store in bottle with lid
Preparing NaCl 5 M
NaCl MW: 58.44 g/mol
58.44 g ---- 1 mol ---- 1000 ml
x ------------------------- 50 ml
x = 2.92 g
2.92 g -------- 1 mol
y --------------- 5 mol
y = 14.6 g
Put 14.6 g NaCl into a 50 ml falcon tube and complete to 50 ml with distilled water
Preparing MgCl2 1 M
MgCl2 MW: 95.211 g/mol
95.21 g ---- 1 mol ---- 1000 ml
x ------------------------- 50 ml
x = 4.7 g
Put 4.7 g MgCl2 into a 50 ml falcon tube and complete to 50 ml with distilled water
Preparing KCl 1 M
KCl MW: 74.5513 g/mol
74.55 g ---- 1 mol ---- 1000 ml
x ------------------------- 50 ml
x = 3.72 g
Put 3.72 g KCl into a 50 ml falcon tube and complete to 50 ml with distilled water
TOP10 E.coli bacteria chemo competent transformation
2 μl of pUCIDT gene 1-LAP-INFβ plasmid in 100 μl of TOP10 bacteria
30 min ice incubation
90 s incubation in 42º C water bath;
2 min ice incubation;
Carefully add 0.9 ml of SOC medium;
1 h incubation in 37° C and 120 rpm of rotation;
2 bacterial plating of 100 μl of transformation (37° C, 16 h)
Each plate was made with 30 ml of LB agar and 30 μl of ampicillin 100 mg/ml
Bacterial plating
Materials used
- Erlenmeyer flask and sterilized becker
- LB Agar
- Sterile petri dishes
- Antibiotic
- Bunsen burner
- 70% Ethanol
- Platinum strap
- Clones
Methods
Heat LB Agar in the microwave. Let it cool near the flame.
Pour between 15 mL and 30 mL of LB Agar in an Erlenmeyer. Add the antibiotic in the right proportion and mix.
Pour the medium in the Petri dish and let it solidify near the flame.
Pipet the desired volume of clone on the plate. Spread the bacterial suspension throughout the Petri dish homogeneously.
Cover the plate and incubate it at 37° C for 12-16 h
Standard antibiotics concentration used:
- Ampicillin: 10 µl/ml
- Chloramphenicol: 1.2 µL/mL
Pre-inoculum and inoculum
Materials used
- Sterilized tips
- Pipettes
- Antibiotic
- Petri dishes containing isolated bacterial colonies
- Sterilized test-tubes
- LB Liquid medium
- Bunsen burner
Methodology
- Add 4 ml of LB liquid medium to each test-tube and the correspondent antibiotic ratio
- With toothpick or sterilized tip, remove an isolated colony
- Place the toothpick/tip inside the test-tube, without touching it sides
- Leave the tubes overnight at 37° C for 16 h in the shaker
- After incubation, remove the tubes from the shaker. Medium must be turbid, indicating bacterial growth
- Pour the contents of the test-tubes on a larger recipient and complete volume to 20 ml with liquid LB medium
- Repeat the incubation as above and remove the inserted plasmid through miniprep or maxiprep
Glycerol Clone Storage
Materials used
- 50% Glycerol
- Sterilized microtubes
- Sterilized tips
- Pipettes
- Bacteria in liquid medium containing DNA clone
Methods
Homogenize bacteria medium by inversion.
Near the flame, transfer 170 µL of bacterial culture to a sterile microtube.
Add 30 µl of 50% glycerol and homogenize.
Place the glycerol clones in a -20° C freezer for ~20 h and then transfer them to a - 80° C freezer.
