Difference between revisions of "Team:Linkoping Sweden/Protocols"
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| − | + | Agarose gelelectrophoresis | |
| + | |||
| + | Material | ||
| + | |||
| + | * Agarose | ||
| + | * 10x TBE buffer | ||
| + | * Loading dye | ||
| + | * Molecular weight marker | ||
| + | |||
| + | |||
| + | Procedure | ||
| + | |||
| + | Agarose gel | ||
| + | |||
| + | 1. Dilute 10 ml 10x TBE buffer with water to an final volume of 100 ml. | ||
| + | 2. Add 0,5-2,0 g agarose depending on the size of your fragment. | ||
| + | 3. Heat the agarose in microwave until completely liquid. Let mixture cool until approximately 60℃ and pour agarose gel. Let cool for at least 30 minutes. | ||
| + | |||
| + | DNA separation | ||
| + | |||
| + | 1. Mix 4 μl loading dye with 5 μl DNA and 11 μl H2O (and conntrol without DNA). | ||
| + | 2. Add agarose gel in electrophoresis apparature and fill with 1x TBE buffer to cover the gel. | ||
| + | 3. Add 5 μl premixed molecular weight marker and 20 μl of DNA mixture or control to separate wells. | ||
| + | 4. Separate the DNA fragments by applying 150 Volts | ||
| + | 5. Stain DNA fragments with ethidium bromide (15 ul in approximately 400 1x TBE) for 20 minutes. | ||
| + | 6. Wash in dH2O for 5 minutes | ||
| + | 7. Illuminate with 300-360 nm, photograph gel and estimate size or amount of DNA | ||
| + | |||
| + | |||
| + | |||
| + | |||
| + | CULTIVATION OF ALGAE | ||
| + | |||
| + | Material | ||
| + | * 100 ml TAP – medium | ||
| + | * 1ml Alg suspension | ||
| + | |||
| + | Procedure | ||
| + | 1. Mix 100 ml TAP – medium with 1 ml alg suspension | ||
| + | 2. Incubate the culture on a shaker (or pump if available) (100 - 150 rpm, LED light 14 hours/day, temperature constant 22 °C) | ||
| + | 3. Measure the growth using a spectrometer (750 nm) every day about the same time. Incubate until the growth curve reaches 0.5. | ||
| + | |||
| + | |||
| + | |||
| + | CULTIVATION OF ALGAE IN THE DARK | ||
| + | |||
| + | Material | ||
| + | * 100 ml TAP – medium | ||
| + | * 1 ml Alg suspension | ||
| + | |||
| + | Procedure | ||
| + | 1. Make a new TAP - medium with 3.4 g/l acetate instead of 3.2 ml/l acetic acid | ||
| + | 2. Mix 100 ml of the new TAP – medium with 1 ml alg suspension | ||
| + | 3. Incubate the culture on a shaker (or pump if available) (100 - 150 rpm, completely in the dark, temperature constant 22 °C) | ||
| + | 4. Measure the growth using a spectrometer (750 nm) every day about the same time. Incubate until the growth curve reaches 0.5. | ||
| + | |||
| + | |||
| + | |||
| + | DIGESTION | ||
| + | |||
| + | Material | ||
| + | * 1 μl Restriction enzyme | ||
| + | * DNA | ||
| + | * 1 μl 10 X CutSmart buffer | ||
| + | * Autoclaved H2O To a final volume of 10 μl | ||
| + | |||
| + | Procedure | ||
| + | 1. Mix restriction enzyme, DNA, Cutsmart buffer and autoclaved H2O. | ||
| + | 2. Incubate the restriction digest at 37 °C for 1 h | ||
| + | 3. Incubate at 80 °C for 20 min for heat inactivation | ||
| + | |||
| + | |||
| + | LIGATION | ||
| + | |||
| + | Material | ||
| + | * 50 ng Linearized Vector | ||
| + | * 3X molar excess Gene Fragment | ||
| + | * 10 μl 2X Quick Ligase Buffer | ||
| + | * 1 μl Quick DNA Ligase | ||
| + | * Autoclaved H2O To a final volume of 21 μl | ||
| + | |||
| + | Procedure | ||
| + | 1. Combine 50 ng of vector with a 3-fold molar excess of insert. Use NeBioCalculator to calculate molar ratios. Adjust volume to 10 μl with autoclaved H2O. | ||
| + | 2. Add 10 μl of 2X Quick Ligation Buffer and mix. | ||
| + | 3. Add 1 μl of Quick T4 DNA Ligase and mix thoroughly. | ||
| + | 4. Centrifuge briefly and incubate at room temperature (25 °C) for 5 min. | ||
| + | 5. Chill on ice, then transform or store at -20 °C. | ||
| + | |||
| + | Note: | ||
| + | Do not heat inactivate the ligase. Heat inactivation dramatically reduces the transformation efficiency. | ||
| + | |||
| + | |||
| + | |||
| + | E. coli Calcium Chloride competent cell | ||
| + | |||
| + | 1. Inoculate a single colony into 5ml LB in a 50ml Falcon tube. Grow overnight at 37°C. | ||
| + | 2. Use 1ml to inoculate 100ml of LB in 250ml bottle the next morning. | ||
| + | 3. Shake at 37°C for 1.5-3hrs. OR Inoculate a single colony into 25ml LB in a 250 ml bottle in the morning. and then shake at 37°C for 4-6 hrs. | ||
| + | 4. Put the cells on ice for 10 mins (keep cold form now on). | ||
| + | 5. Collect the cells by centrifugation for 3 mins at 6000 rpm. | ||
| + | 6. Decant the supernatant and gently resuspend on 10 ml cold 0.1M CaCl (cells are susceptible to mechanical disruption, so treat them nicely). | ||
| + | 7. Incubate on ice for 20 mins | ||
| + | 8. Centrifuge for 3 minutes at 6000 rpm. | ||
| + | 9. Discard supernatant and gently resuspend on 5ml cold 0.1 M CaCl2/15% Glycerol | ||
| + | 10. Dispense in microtubes (300μl/tube). Freeze in - 80°C. | ||
| + | |||
| + | Transformation of Ca2+ competent cells | ||
| + | 1. Put 1μl of circular plasmid or all of a ligation reaction of plasmid DNA in a microtube. Gently add ~100μl of competent cells. Do NO DNA control tube with cells and no DNA. | ||
| + | 2. Incubate for 30 mins on ice. | ||
| + | 3. Heat shock for 2 mins at 42°C. Put back on ice. | ||
| + | 4. Add 900 μl of LB to tubes. Incubate at 37°C for 30 mins. | ||
| + | 5. Plate 100-1000 μL of the cells in LB-Amp or LB-Carb (100μg/ml) plates. Plate 100 μl of the NO DNA control in a blood plate (to check for quality of cells). Grow overnight. You can save the rest in -80°C with 15% of Gly in case there would not be any colonies. | ||
| + | 6. If you need a lot of colonies or the ligation is of low efficiency, centrifuge the transformation for 1 min at 8000 rpm, discard 900 μL of supernatant, resuspend on the 100 μL left and plate the whole lot. | ||
| + | |||
| + | CaCl2/15% Glycerol – solutions for competent cells | ||
| + | Material | ||
| + | * 0.1 M CaCl2 | ||
| + | * 15 % glycerol solution | ||
| + | Procedure | ||
| + | 1. Mix 1 ml 1 M CaCl2 solution with 1.5 ml 100 % glycerol and 7.5 ml dH2O. | ||
{{Linkoping_Sweden/Footer}} | {{Linkoping_Sweden/Footer}} | ||
Revision as of 19:26, 5 October 2016
Agarose gelelectrophoresis
Material
- Agarose
- 10x TBE buffer
- Loading dye
- Molecular weight marker
Procedure
Agarose gel
1. Dilute 10 ml 10x TBE buffer with water to an final volume of 100 ml. 2. Add 0,5-2,0 g agarose depending on the size of your fragment. 3. Heat the agarose in microwave until completely liquid. Let mixture cool until approximately 60℃ and pour agarose gel. Let cool for at least 30 minutes.
DNA separation
1. Mix 4 μl loading dye with 5 μl DNA and 11 μl H2O (and conntrol without DNA). 2. Add agarose gel in electrophoresis apparature and fill with 1x TBE buffer to cover the gel. 3. Add 5 μl premixed molecular weight marker and 20 μl of DNA mixture or control to separate wells. 4. Separate the DNA fragments by applying 150 Volts 5. Stain DNA fragments with ethidium bromide (15 ul in approximately 400 1x TBE) for 20 minutes. 6. Wash in dH2O for 5 minutes 7. Illuminate with 300-360 nm, photograph gel and estimate size or amount of DNA
CULTIVATION OF ALGAE
Material
- 100 ml TAP – medium
- 1ml Alg suspension
Procedure 1. Mix 100 ml TAP – medium with 1 ml alg suspension 2. Incubate the culture on a shaker (or pump if available) (100 - 150 rpm, LED light 14 hours/day, temperature constant 22 °C) 3. Measure the growth using a spectrometer (750 nm) every day about the same time. Incubate until the growth curve reaches 0.5.
CULTIVATION OF ALGAE IN THE DARK
Material
- 100 ml TAP – medium
- 1 ml Alg suspension
Procedure 1. Make a new TAP - medium with 3.4 g/l acetate instead of 3.2 ml/l acetic acid 2. Mix 100 ml of the new TAP – medium with 1 ml alg suspension 3. Incubate the culture on a shaker (or pump if available) (100 - 150 rpm, completely in the dark, temperature constant 22 °C) 4. Measure the growth using a spectrometer (750 nm) every day about the same time. Incubate until the growth curve reaches 0.5.
DIGESTION
Material
- 1 μl Restriction enzyme
- DNA
- 1 μl 10 X CutSmart buffer
- Autoclaved H2O To a final volume of 10 μl
Procedure 1. Mix restriction enzyme, DNA, Cutsmart buffer and autoclaved H2O. 2. Incubate the restriction digest at 37 °C for 1 h 3. Incubate at 80 °C for 20 min for heat inactivation
LIGATION
Material
- 50 ng Linearized Vector
- 3X molar excess Gene Fragment
- 10 μl 2X Quick Ligase Buffer
- 1 μl Quick DNA Ligase
- Autoclaved H2O To a final volume of 21 μl
Procedure 1. Combine 50 ng of vector with a 3-fold molar excess of insert. Use NeBioCalculator to calculate molar ratios. Adjust volume to 10 μl with autoclaved H2O. 2. Add 10 μl of 2X Quick Ligation Buffer and mix. 3. Add 1 μl of Quick T4 DNA Ligase and mix thoroughly. 4. Centrifuge briefly and incubate at room temperature (25 °C) for 5 min. 5. Chill on ice, then transform or store at -20 °C.
Note: Do not heat inactivate the ligase. Heat inactivation dramatically reduces the transformation efficiency.
E. coli Calcium Chloride competent cell
1. Inoculate a single colony into 5ml LB in a 50ml Falcon tube. Grow overnight at 37°C. 2. Use 1ml to inoculate 100ml of LB in 250ml bottle the next morning. 3. Shake at 37°C for 1.5-3hrs. OR Inoculate a single colony into 25ml LB in a 250 ml bottle in the morning. and then shake at 37°C for 4-6 hrs. 4. Put the cells on ice for 10 mins (keep cold form now on). 5. Collect the cells by centrifugation for 3 mins at 6000 rpm. 6. Decant the supernatant and gently resuspend on 10 ml cold 0.1M CaCl (cells are susceptible to mechanical disruption, so treat them nicely). 7. Incubate on ice for 20 mins 8. Centrifuge for 3 minutes at 6000 rpm. 9. Discard supernatant and gently resuspend on 5ml cold 0.1 M CaCl2/15% Glycerol 10. Dispense in microtubes (300μl/tube). Freeze in - 80°C.
Transformation of Ca2+ competent cells 1. Put 1μl of circular plasmid or all of a ligation reaction of plasmid DNA in a microtube. Gently add ~100μl of competent cells. Do NO DNA control tube with cells and no DNA. 2. Incubate for 30 mins on ice. 3. Heat shock for 2 mins at 42°C. Put back on ice. 4. Add 900 μl of LB to tubes. Incubate at 37°C for 30 mins. 5. Plate 100-1000 μL of the cells in LB-Amp or LB-Carb (100μg/ml) plates. Plate 100 μl of the NO DNA control in a blood plate (to check for quality of cells). Grow overnight. You can save the rest in -80°C with 15% of Gly in case there would not be any colonies. 6. If you need a lot of colonies or the ligation is of low efficiency, centrifuge the transformation for 1 min at 8000 rpm, discard 900 μL of supernatant, resuspend on the 100 μL left and plate the whole lot.
CaCl2/15% Glycerol – solutions for competent cells Material
- 0.1 M CaCl2
- 15 % glycerol solution
Procedure 1. Mix 1 ml 1 M CaCl2 solution with 1.5 ml 100 % glycerol and 7.5 ml dH2O.
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