Team:Bielefeld-Germany/Protocols
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| his4_gi537483_r || 41 || ctgcagcggccgctactagtaGATCTATCGAATCTAAATGT | | his4_gi537483_r || 41 || ctgcagcggccgctactagtaGATCTATCGAATCTAAATGT | ||
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+ | | Xcc_LAC_FW_T7 || || ACGTGAATTCGCGGCCGCTTCTAGAGtaatacgactcactatagggagagaggagaaaaATGTCATTCGATCCCTTGTC | ||
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+ | |Xcc_LAC_RV_HIS || || CTGCAGCGGCCGCTACTAGTATTATTAGTGATGGTGATGGTGATGTGCCTCCACCCGCACTT | ||
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=This page lists all molecular genetics protocols we use in our project= | =This page lists all molecular genetics protocols we use in our project= | ||
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Revision as of 16:22, 4 September 2012
Contents |
Protocols - Overview
In this section we are going to note all protocols that the teams have used for their work.
General Protocols | Team Cloning | Team Cultivation |
Team Activity Test | Team Immobilization | Team Substrate |
Team Yeast | Team Sequencing | Team Modelling |
Materials
This is where we are going to list all our materials, devices and equipment that we have used.
Media, buffer and other solutions
Ampicillin stock solution
- Solubilize 100 mg mL-1 Ampicillin
- Store at -20 °C
Chloramphenicol stock solution
- Solubilize 20 mg mL-1 Chloramphenicol in 100 % Ethanol
- Store at -20 °C
TAE buffer
For 1 L of 50 x TAE buffer you need:
- 242.48 g Tris
- 41.02 g Sodiumacetate
- 18.612 g EDTA
- Adjust pH to 7.8 with acetic acid
- Solve in dH2O
10 mL of the stock is diluted in 1 L dH2O for the gel electrophoresis (0.5 x TAE buffer).
DNA loading buffer
- 50 % (v/v) glycerol
- 1 mM EDTA
- 0.1 % (w/v) bromphenol blue
- Solve in ddH2O
LB media
For 1 L of LB media:
- 10 g Trypton
- 5 g Yeast extract
- 10 g NaCl
- 12 g Agar-Agar (for plates)
- Adjust pH to 7.4
YPD media
For 1 L of YPD media:
- 20 g Peptone
- 10 g Yeast extract
- 20 g Dextrose (add 50 mL sterile stock solution (40% dextrose))
- Adjust pH to 6.5
Primers
This is a list of primers we have used.
primer name | length | sequence | |
---|---|---|---|
pSB1C3-5aox1-f | 60 | CGCTAAGGATGATTTCTGGAATTCGCGGCCGCTTCTAGAGAGATCTAACATCCAAAGACG | |
pSB1C3-5aox1-r | 30 | GGTGGCGGCGGGCGTTTCGAATAATTAGTT | |
5aox1-mfalpha1-f | 68 | AGAAGATCAAAAAACAACTAATTATTCGAAACGCCCGCCGCCACCATGAGATTTCCTTCAATTTTTAC | |
5aox1-mfalpha1-r | 20 | AGCTTCAGCCTCTCTTTTCT | |
mfalpha1-aarI-taox1-f | 80 | GTATCTCTCGAGAAAAGAGAGGCTGAAGCTACACGCAGGTGGTATGTATCACCTGCGTGTCTTGCTAGATTCTAATCAAG | |
mfalpha1-aarI-taox1-r | 20 | TAAGCTTGCACAAACGAACT | |
taox1-phis4-f | 60 | GTACAGAAGATTAAGTGAGAAGTTCGTTTGTGCAAGCTTATCATGCCATGGACAAGATTC | |
taox1-phis4-r | 20 | GGCCGCTCGAGTATTCAGAA | |
phis4-kozak-his4-f | 72 | AATAGTTTACAAAATTTTTTTTCTGAATACTCGAGCGGCCCCCGCCGCCACCATGACATTTCCCTTGCTACC | |
phis4-kozak-his4-r | 30 | TTATTATTTCTCCATACGAACCTTAACAGC | |
his4-3aox1-f | 60 | TCACCGCAATGCTGTTAAGGTTCGTATGGAGAAATAATAACGAGTATCTATGATTGGAAG | |
his4-3aox1-r | 20 | AAAACAAGATAGTGCCCCTC | |
3aox1-pSB1C3-f | 60 | AGTCTGATCCTCATCAACTTGAGGGGCACTATCTTGTTTTTACTAGTAGCGGCCGCTGCA | |
3aox1-pSB1C3-r | 20 | CTCTAGAAGCGGCCGCGAAT | |
taox-his4-f | 61 | GTACAGAAGATTAAGTGAGAAGTTCGTTTGTGCAAGCTTAAGATCTCCTGATGACTGACTC | |
taox-his4-r | 27 | CTCGGATCTATCGAATCTAAATGTAAG | |
his4-3aox1-f02 | 60 | TTATTTAGAGATTTTAACTTACATTTAGATTCGATAGATCCGAGTATCTATGATTGGAAG | |
his4_gi537483_f | 46 | ACGTgaattcgcggccgcttctagagAGATCTCCTGATGACTGACT | |
his4_gi537483_r | 41 | ctgcagcggccgctactagtaGATCTATCGAATCTAAATGT | |
Xcc_LAC_FW_T7 | ACGTGAATTCGCGGCCGCTTCTAGAGtaatacgactcactatagggagagaggagaaaaATGTCATTCGATCCCTTGTC | ||
Xcc_LAC_RV_HIS | CTGCAGCGGCCGCTACTAGTATTATTAGTGATGGTGATGGTGATGTGCCTCCACCCGCACTT |
This page lists all molecular genetics protocols we use in our project
Yeat: Complete genome isolation
The complete genome isolation was done with the [http://www.promega.com/resources/protocols/technical-manuals/0/wizard-genomic-dna-purification-kit-protocol/ Promega Wizard genomic DNA purification system kit].
- Pellet 10 mL of over-night liquid culture grown in YPD broth in a 1.5 mL tube by centrifugation at 14,000 x g for 2 minutes.
- Remove the supernatant.
- Resuspend the cells in 90 μL of 50 mM EDTA.
- Add 10 μL of 1000u lyticase and pipet 4 times to mix.
- Incubate the sample at 37°C for 60 minutes to digest the cell wall.
- Centrifuge the sample at 14,000 × g for 2 minutes and then remove the supernatant.
- Add 300 μl of Nuclei Lysis Solution to the cell pellet and pipet to mix.
- Add 100 μl of Protein Precipitation Solution and vortex at high speed for 20 seconds.
- Let the sample sit on ice for 5 minutes.
- Centrifuge at 14,000 × g for 3 minutes.
- Transfer the supernatant containing the DNA to a clean 1.5 ml tube containing 300 μl of room temperature isopropanol.
- Gently mix by inversion until the DNA is visible.
- Centrifuge at 14,000 × g for 2 minutes.
- Carefully decant the supernatant and drain the tube on clean absorbent paper.
- Add 300 μl of room temperature 70% ethanol and invert the tube several times to wash the DNA pellet.
- Centrifuge at 14,000 × g for 2 minutes.
- Drain the tube on clean absorbent paper and allow the pellet to air-dry for 15 minutes.
- Add 50 μl of DNA Rehydration Solution.
- Add 1.5μl of RNase Solution to the purified DNA sample. Vortex the sample for 1 second and incubate at 37°C for 15 minutes.
- Rehydrate the DNA by incubating at 65°C for 1 hour. Periodically mix the solution by gently tapping the tube.
- Store the DNA at 2–8°C.
Arabidopsis thaliana: Growth Conditions and Plant Material
Six weeks old A. thaliana plants, ecotype Columbia 0 (wildtype), have been gratefully offered by Patrick Treffon and Thorsten Seidel. They have been cultivated under normal day conditions (14 hours light [100 µmol ⁄ quanta m-2s-1] at 21°C, 10 hours darkness at 18°C). For induction of the formation of siliques the plants were shifted into long day conditions (16 hours light [100 µmol ⁄ quanta m-2s-1] at 21°C, 18 hours darkness at 18°C). After two weeks in long day conditions the plants have developed 2 cm long siliques. The siliques were harvested and frozen in liquid nitrogen for further use.
Arabidopsis thaliana: Total RNA Isolation
The frozen plant material has to be grinded in a precooled mortar in liquid nitrogen. About 120 mg of pulverized plant material are transfered into a precooled 2 ml Eppendorf tube and kept frozen until the following steps:
- Add 0.5 ml lysis buffer and immediately homogenize through rough shaking.
- Add 0.5 ml of saturated phenol and mix strongly.
- Add 0.5 ml of chloroform isoamyl alcohol (24:1) and vortex again at high speed for at least 30 seconds.
- Centrifugate for 5 min at 13,000 rpm.
- The lower phase contains now lipids and lipophilic compounds. The upper phase contains nucleic acids (~ 550 µl) and has to be carefully transferred into a new 2 ml Eppendorf tube. This tube has to be filled with 0.5 ml saturated phenol and 0.5 ml chloroform isoamyl alcohol (24:1). Mix immediately.
- Centrifugate at 13,000 rpm for 3 minutes.
- Prepare a new 2 ml Eppendorf tube with 1 ml of chloroform isoamyl alcohol (24:1). Transfer the upper aqueous phase (~ 540 µl) containing the protein purified nucelic acids into the new tube and vortex strongly.
- Centrifugate at 13,000 rpm for 3 minutes.
- Prepare a new 1.5 ml Eppendorf tube with 0.5 ml of pure isopropanol. For the last time transfer the upper phase (~ 400 µl) into the new tube and mix gently.
- Incubate the mixture over night at -20°C. The nucleic acids will precipitate.
- Centrifugate the samples at 13,000 rpm for 15 minutes at 4°C.
- Discard the supernatant and resuspend the pellet in 375 µl sterile H2O.
- Add 125 µl 8 M lithium chloride and incubate for 2 hours on ice at 4°C. At this point most of the RNA is going to be precipitated.
- Centrifugate at 13,000 rpm at 4°C and discard the supernatant.
- Wash the pellet with 100 µl 70% (v/v) ethanol and discard it after centrifugation.
- Dry the pellet at room temperature.
- Dissolve the pellet in sterile H2O (~ 25 µl, depending on the size of the pellet).
- Check the quantity and quality of the RNA with a Nanodrop spectrophotometer before starting with a cDNA synthesis.
Arabidopsis thaliana: cDNA Synthesis
After a successful total RNA isolation the RNA has to be translated in cDNA through RT-PCR:
- Take 3 µg/µl of total RNA and add sterile H2 to 8 µl.
Additionally add
1,1 mM | Oligo-d(T)-Primer |
0,83 mM | dNTPs |
3,5 µl | H2O |
- Vortex and centrifugate shortly.
- Incubate the samples for 10 minutes at 70°C.
- Immediately transfer the samples into ice water for 5 minutes.
- After cooling the samples centrifugate shortly.
- To start the synthesis add
6 µl | 5xMMLV-Puffer |
4,5 µl | H2O |
1 µl | MMLV-reverse Transkriptase [200 U/µl] |
0,5 µl | RNasin RNase-Inhibitor [40 U/µl] |
- Mix the samples and centrifugate shortly.
- Incubate for 1 hour at 42°C to translate the RNA into cDNA.
- Transfer the samples to 70°C for 15 minutes to stop the reaction.
- The new synthesized cDNA can be used for PCR after diluting 1:10 with water. Store the cDNA at -20°C.
Ethanol precipitation to clean DNA
To get rid of distracting salts the DNA has to be cleaned. For this we used the following protocol:
- If the volume of the sample containing the DNA is less than 200 µl bring the volume up to 200 µl.
- Add 1/10th volume of 3M sodium acetate and mix.
- Now add 2 volumes of -20°C cold 100% ethanol and vortex for 10 seconds.
- The sample can now be placed in a -20°C freezer overnight or incubated for 30 minutes at -80°C.
- Centrifugate for 10 minutes at 4°C.
- Discard the supernatant containing the ethanol.
- Wash the pellet with 500 µl 4°C cold 70% ethanol by rolling the sample gently.
- Discard the supernatant.
- Let the pellet dry at room temperature or speedvac the pellet.
- Resuspend the Pellet in water (amount is depending on the size of the pellet).