Revision as of 00:49, 3 October 2012

Glossary of Protocols

Making Competent Cells:

Plate DH5 alpha seed stock and grow overnight at 37C
Isolate colony from plate into LB broth tube and grow overnight
Inoculate 12.5 mL of SOB media with 150 uL of fresh overnight culture
Incubate SOB culture at 37C in shaking incubator for 2 hrs
Aliquot into 12 eppi tubes (1 mL per tube)
Put on ice for 10 minutes
Spin down for 10 minutes at 4000 rpm
Poor off all excess liquid (carefully pipette it out if needed)
Re-suspend pellet in 333 uL of TB per tube
Incubate on ice for 10 minutes
Spin down for 10 minutes at 4000 rpm
Poor off all excess liquid
Re-suspend pellet in 83 uL of TB per tube
A 5.83 uL of DMSO to each tube
Incubate on ice for 10 minutes

Prepare empty tubes by freezing at -20C before use
Keep cells on ice as much as possible
Divide into the required aliquots of 50 or 25 uL
Store finished cells in -80C freezer

Gel Electrophoresis

Measure 0.5 g agarose powder and add it to a flask
Add 50 mL of TAE buffer to flask
Microwave flask or incubate in hot water bath until agarose solution has become clear
Let the solution cool to about 50-55C occasionally swirling to mix
Add 2-5 uL of Ethidium Bromide to agarose solution and swirl to mix
Secure the rails on either side of the gel tray in the up position and carefully pour agarose solution into casting tray.
Place combs in casting tray
Allow solution to cool and solidify
Loosen and lower rails on either side of the casting tray
Gently place tray in gel box.
Add TAE buffer until it is just over the surface of the gel
Carefully pull out the comb

Notes:

To prepare samples, add 1 uL of Loading dye per 5 uL of sample
Add 10-20 uL of sample to a given well
Gel box is turned to 135 V and run until the darkest band reaches the center of the gel.

LB Agar plates

Add the following to an empty 1000 mL flask
7 g of tryptone
3.5 g yeast extract
3.5 g NaCl
10.5 g agar
Add Distilled H2O to final volume of 700 mL
Autoclave solution for 30-45 minutes on liquid cycle
Allow flask to cool in water bath
Add antibiotics when flask roughly 50-55C
Mix well by swirling
Label plates to be poured with media, antibiotic, and date poured
Pour plates, filling each with media until ~1/2-2/3 full flaming the mouth of the flask between each plate
Allow plates to cool at room temperature overnight
Put plates back into sleave, seal the sleave, and label it
Store plates in refrigerator

LB broth tubes

Add the following to a 1000 mL flask
10 g tryptone
5 g yeast extract
5 g NaCl
Add distilled H2O to final volume of 1000 mL
Adjust to final pH of 7.0 with NaOH
Distribute into tubes (5 mL per tube) or bottles
Autoclave for 30-45 minutes on liquid cycle

SOB Media

Add the following to a 1000 mL flask or beaker

20 g tryptone
5 g yeast extract
0.6 g NaCl
0.2 g KCl

Add distilled H2O to final volume of 1000 mL
Autoclave for 35-40 minutes on liquid cycle
Add the following sterile reagents
1. 10 mL of 1M MgSO4
2. 10 mL of 1M MgCl2

Notes:

It is recommended that SOB be made in smaller batches to prevent contamination of a large amount of it

SOC Media

To 1000 mL of SOB add the following:
20 mL of 1M sterile glucose

Notes:

See notes on SOB media

Thioglycolate Media

Reinforced Clostridial Media To a 1000 mL flask add the following:

10 g beef extract
10 g peptone
5 g NaCl
5 g dextrose
3 g yeast extract
3 g sodium acetate
1 g soluble starch
0.5 g L-Cysteine HCl
0.5 g agar
Adjust pH to 6.8+/-.2 at 25C

Addition of resazurin is optional.

This media was prepared anaerobically with nitrogen gas in an anaerobic hood.

Antibiotics

1000x ampicillin

10mg/mL in distilled water

1000x chloramphenicol

34mg/mL in 100% ethanol

1000x X-gal

20mg/mL in DMSO

Antibiotic Spread Plates

Dilute the antibiotic of interest (25 uL of antibiotic in 75 uL of appropriate solvent)
Pipette 100 uL of the solution onto the each plate and spread with beads
The plates must be allowed to dry and the antibiotic soak in (this usually takes at least an hour)

Phosphotase

Restriction Digest

Ligation

Chemical Transformation

Plasmid MiniPrep

Spin down LB broth cultures 1.5 mL at a time until most or all of the tube is gone.
Each LB tube will require at least one eppi tube
For each repetition of the previous step poor off the supernatant
Re-suspend the pellet in 200 uL of PD1 buffer
Add 200 uL of PD2 buffer and mix by inverting 10 times
Wait 2 minutes
Add 300 mL of PD3 buffer. Mix by inverting 10 times
Centrifuge for 3 minutes at 16xg
Place PD column into a 2 mL collection tube
Add supernatant from step 7 to the PD column and centrifuge at 16xg for 30 seconds
Discard flow-through and place the PD column back in the 2 mL collection tube
Add 400 uL of W1 buffer to PD column
Centrifuge at 16xg for 30 seconds
Discard flow-through and place PD column back in collection tube
Add 600 uL of Wash buffer to PD column
Centrifuge at 16xg for 30 seconds
Discard flow through and place PD column back in collection tube
Centrifuge again to dry at 16xg for 3 minutes
Transfer PD column to 1.5 mL eppi tube
Add 50 uL of MilliQ H2O for elution to the center of the PD column
Let stand for 2 minutes
Centrifuge at 16xg for 2 minutes
Discard PD column, close and label eppi tube.
Nano drop to determine concentration

Genomic MiniPrep

PCR The following protocol requires bulls eye Taq Polymerase Master Mix. For each pcr reaction add to a single pcr tube the following reagents:

12.5 uL Taq Master Mix (final concentration: 1x)
Forward Primer (final concentration: 0.1-1.0 uM)
Reverse Primer (final concentration: 0.1-1.0 uM)
Distilled or MilliQ water (to total final reaction volume of 25 uL)
Template DNA (4 uL of 1:50 diluted LB culture)
Total Volume of 25 uL Once the previous reagents have been mixed do the following:
Mix reaction gently by pipetting the solution up and down a few times
Run the PCR reaction using the following thermocycler program
- 95C for 5 minutes
- 95C for 30 seconds
- 68C for 30 seconds
- 72C for 45 seconds
- 72C for 5 minutes
Steps b, c, and d should be run 20-30 times

Gel Extraction TOPO TA cloning

@@ Line 113: / Line 113: @@
 </ol>
 Notes:
-•	It is recommended that SOB be made in smaller batches to prevent contamination of a large amount of it
+<ul style="margin-left:40px;">
+<li>It is recommended that SOB be made in smaller batches to prevent contamination of a large amount of it</li>
-SOC Media
+</ul>
-.	To 1000 mL of SOB add the following:
+<br></br>
-.	 20 mL of 1M sterile glucose
+<b>SOC Media</b>
+<ol style="margin-left:40px;">
+<li>To 1000 mL of SOB add the following:</li>
+<li> 20 mL of 1M sterile glucose</li>
+</ol>
 Notes:
-•	See notes on SOB media
+<ul style="margin-left:40px;">
+<li>See notes on SOB media</li>
+</ul>
+<br></br>
-Thioglycolate Media
+<b>Thioglycolate Media</b>
+<br></br>
-Reinforced Clostridial Media
+<b>Reinforced Clostridial Media</b>
 To a 1000 mL flask add the following:
-.	10 g beef extract
+<ol style="margin-left:40px;">
-.	10 g peptone
+<li>10 g beef extract</li>
-.	5 g NaCl
+<li>10 g peptone</li>
-.	5 g dextrose
+<li>5 g NaCl</li>
-.	3 g yeast extract
+<li>5 g dextrose</li>
-.	3 g sodium acetate
+<li>3 g yeast extract</li>
-.	1 g soluble starch
+<li>3 g sodium acetate</li>
-.	0.5 g L-Cysteine HCl
+<li>1 g soluble starch</li>
-.	0.5 g agar
+<li>0.5 g L-Cysteine HCl</li>
-.	Adjust pH to 6.8+/-.2 at 25C
+<li>0.5 g agar</li>
-Addition of resazurin is optional.
+<li>Adjust pH to 6.8+/-.2 at 25C</li>
+</ol>
+Addition of resazurin is optional. <br></br>
 This media was prepared anaerobically with nitrogen gas in an anaerobic hood.
+<br></br>
+<br></br>
+<b>Antibiotics</b><br></br>
+x ampicillin	<br></br><ul style="margin-left:40px;"><li>10mg/mL in distilled water</li></ul>
+x chloramphenicol	<br></br><ul style="margin-left:40px;"><li>34mg/mL in 100% ethanol</li></ul>
+x X-gal	<br></br><ul style="margin-left:40px;"><li>20mg/mL in DMSO</li></ul><br></br>
-Antibiotics Table
+<b>Antibiotic Spread Plates</b>
-x ampicillin	10mg/mL in distilled water
+<ol style="margin-left:40px;">
-x chloramphenicol	34mg/mL in 100% ethanol
+<li>Dilute the antibiotic of interest (25 uL of antibiotic in 75 uL of appropriate solvent)
-x X-gal	20mg/mL in DMSO
+<li>Pipette 100 uL of the solution onto the each plate and spread with beads
+<li>The plates must be allowed to dry and the antibiotic soak in (this usually takes at least an hour)</ol><br></br><br></br>
+<b>Phosphotase</b>
+<br></br>
+<b>Restriction Digest</b>
+<br></br>
+<b>Ligation</b>
+<br></br>
-Antibiotic Spread Plates
+<b>Chemical Transformation</b>
-.	Dilute the antibiotic of interest (25 uL of antibiotic in 75 uL of appropriate solvent)
+<br></br>
-.	Pipette 100 uL of the solution onto the each plate and spread with beads
+<b>Plasmid MiniPrep</b>
-.	The plates must be allowed to dry and the antibiotic soak in (this usually takes at least an hour)
+<ol style="margin-left: 40px;">
-Phosphotase
-Restriction Digest
-Ligation
-Chemical Transformation
-Plasmid MiniPrep
 The following protocol uses reagants from the IBM plasmid mini-prep kit
-.	Spin down LB broth cultures 1.5 mL at a time until most or all of the tube is gone.
+<li>Spin down LB broth cultures 1.5 mL at a time until most or all of the tube is gone.
-a.	Each LB tube will require at least one eppi tube
+<li>Each LB tube will require at least one eppi tube
-.	For each repetition of the previous step poor off the supernatant
+<li>For each repetition of the previous step poor off the supernatant
-.	Re-suspend the pellet in 200 uL of PD1 buffer
+<li>Re-suspend the pellet in 200 uL of PD1 buffer
-.	Add 200 uL of PD2 buffer and mix by inverting 10 times
+<li>Add 200 uL of PD2 buffer and mix by inverting 10 times
-.	Wait 2 minutes
+<li>Wait 2 minutes
-.	Add 300 mL of PD3 buffer. Mix by inverting 10 times
+<li>Add 300 mL of PD3 buffer. Mix by inverting 10 times
-.	Centrifuge for 3 minutes at 16xg
+<li>Centrifuge for 3 minutes at 16xg
-.	Place PD column into a 2 mL collection tube
+<li>Place PD column into a 2 mL collection tube
-.	Add supernatant  from step 7 to the PD column and centrifuge at 16xg for 30 seconds
+<li>Add supernatant  from step 7 to the PD column and centrifuge at 16xg for 30 seconds
-.	Discard flow-through and place the PD column back in the 2 mL collection tube
+<li>Discard flow-through and place the PD column back in the 2 mL collection tube
-.	Add 400 uL of W1 buffer to PD column
+<li>Add 400 uL of W1 buffer to PD column
-.	Centrifuge at 16xg for 30 seconds
+<li>Centrifuge at 16xg for 30 seconds
-.	Discard flow-through and place PD column  back in collection tube
+<li>Discard flow-through and place PD column  back in collection tube
-.	Add 600 uL of Wash buffer to PD column
+<li>Add 600 uL of Wash buffer to PD column
-.	Centrifuge at 16xg for 30 seconds
+<li>Centrifuge at 16xg for 30 seconds
-.	Discard flow through and place PD column back in collection tube
+<li>Discard flow through and place PD column back in collection tube
-.	Centrifuge again to dry at 16xg for 3 minutes
+<li>Centrifuge again to dry at 16xg for 3 minutes
-.	Transfer PD column to 1.5 mL eppi tube
+<li>Transfer PD column to 1.5 mL eppi tube
-.	Add 50 uL of MilliQ H2O for elution to the center of the PD column
+<li>Add 50 uL of MilliQ H2O for elution to the center of the PD column
-.	Let stand for 2 minutes
+<li>Let stand for 2 minutes
-.	Centrifuge at 16xg for 2 minutes
+<li>Centrifuge at 16xg for 2 minutes
-.	Discard PD column, close and label eppi tube.
+<li>Discard PD column, close and label eppi tube.
-.	Nano drop to determine concentration
+<li>Nano drop to determine concentration
+</ol>
+<br></br>
-Genomic MiniPrep
+<b>Genomic MiniPrep</b>
+<br></br>
-PCR
+<b>PCR</b>
 The following protocol requires bulls eye Taq Polymerase Master Mix. For each pcr reaction add to a single pcr tube the following reagents:
-.	12.5 uL Taq Master Mix (final concentration: 1x)
+<ol style="margin-left: 40px;">
-.	Forward Primer (final concentration: 0.1-1.0 uM)
+<li>12.5 uL Taq Master Mix (final concentration: 1x)
-.	Reverse Primer (final concentration: 0.1-1.0 uM)
+<li>Forward Primer (final concentration: 0.1-1.0 uM)
-.	Distilled or MilliQ water (to total final reaction volume of 25 uL)
+<li>Reverse Primer (final concentration: 0.1-1.0 uM)
-.	Template DNA (4 uL of 1:50 diluted LB culture)
+<li>Distilled or MilliQ water (to total final reaction volume of 25 uL)
-.	Total Volume of 25 uL
+<li>Template DNA (4 uL of 1:50 diluted LB culture)
+<li>Total Volume of 25 uL
 Once the previous reagents have been mixed do the following:
-.	Mix reaction gently by pipetting the solution up and down a few times
+<li>Mix reaction gently by pipetting the solution up and down a few times
-.	Run the PCR reaction using the following thermocycler program
+<li>Run the PCR reaction using the following thermocycler program<ul style="margin-left: 40px;">
-a.	95C for 5 minutes
+<li>95C for 5 minutes
-b.	95C for 30 seconds
+<li>95C for 30 seconds
-c.	68C for 30 seconds
+<li>68C for 30 seconds
-d.	72C for 45 seconds
+<li>72C for 45 seconds
-e.	72C for 5 minutes
+<li>72C for 5 minutes
-.	Steps b, c, and d should be run 20-30 times
+</ul>
+<li>Steps b, c, and d should be run 20-30 times
+</ol>
+<br></br>
-Gel Extraction
+<b>Gel Extraction</b>
-TOPO TA cloning
+<b>TOPO TA cloning</b>

Team:Missouri Miners/Notebook

From 2012.igem.org

Revision as of 00:49, 3 October 2012

Glossary of Protocols