From 2012.igem.org

Revision as of 00:05, 22 September 2012 by JSchirmacher (Talk | contribs)

(diff) ← Older revision | Latest revision (diff) | Newer revision → (diff)

Generating eletrocompetent cells

Generating electrocompetent bacterial cells

(E.coli-[http://www.promega.com/products/cloning-and-dna-markers/cloning-tools-and-competent-cells/bacterial-strains-and-competent-cells/single-step-_krx_-competent-cells/ KRX], [http://www.genomics.agilent.com/files/Manual/200249.pdf XLI Blue] and [http://www.merckmillipore.com/is-bin/INTERSHOP.enfinity/WFS/Merck-DE-Site/de_DE/-/EUR/ViewPDF-Print.pdf;sid=MURSuevozHZ2ubuzCYY-7kMotsdASYFPCWpM71hFGa-SnWVmHaQxE-3WJh_fBJar5MJCpegxzHx7vmIhk8DOvz7AELBL_Sc4At7qmFPx-WwuKfv0Mp2vgcLv?RenderPageType=ProductDetail&CatalogCategoryID=&ProductUUID=6t.b.s1OalsAAAEY0BwK0D3I&PortalCatalogUUID=tUmb.s1O2d0AAAEXcutI1u8e Rosetta Gami] )

Materials:

550 mL LB-Medium
1 L cooled bidest. H₂O
150 mL cooled 10 % glycerine
10 pre-cooled 50 mL Falcons (-18°C)

Protocol:

Inoculate 2x3 mL LB with bacterial stock; incubate over night at 37 °C and 140 rpm
Inoculate 2x250 mL LB with the over night cultures in 1-litre-flask (with baffles) at 37 °C and 140 rpm
Incubate until OD₆₀₀ 0,4-0,6
Cool the culture 15-30 minutes on ice

Important: keep your cells at 2-4 °C during the following steps

Divide the cultures into cooled 50 mL Falcons and centrifugate for 15 minutes (4000 rpm, 4 °C) IMPORTANT: slowly accelerate and deccelerate
Discard supernatant
Resuspend cell pellet in 5 mL cooled bidest H₂O (and don't get frustrated while doing it, keep shaking gently)
Pool two suspensions each, add bidest H₂O up to 50 mL and centrifugate again (see centrifugation above)
Discard supernatant(Keep in mind: keep your cells at 2-4 °C)
Resuspend pellet in 5 mL cooled bidest H₂O
Add bidest H₂O up to 50 mL and centrifugate again (see centrifugation above)
Discard supernatant (Keep in mind: keep your cells at 2-4 °C)
Resuspend pellet in 5 mL cooled 10 % glycerine
Transfer suspensions in two 50 mL Falcons and centrifugate again (see centrifugation above)
Discard supernatant
Add volume of 10 % cooled glycerine (2-4°C) that is approximately equal to the volume of the pellet and resuspend
Divide cells in 100 μL aliquots and freeze in liquid N₂ immediately
Store at -80 °C

Generating electrocompetent yeast cells

This cell preparation describes an innovative and quick methode to generate competent yeast cells

Materials:

250 mL YPD medium
50 mL ice-cooled BEDS
5 mL ice-cooled dithiothreitol (DTT)-Solution
150 mL cooled 10 % glycerine
10 pre-cooled 50 mL Falcons (-18°C)

Protocol:

Cultivate a overnight culture of the yeast cells in 50-mL YPD medium at 30°C (120 rpm).
Ddilute the overnight culture an A600 of 0.15–0.20 in a volume of 50 mL YPD in a flask large enough to provide good aeration

Incubate 250 mL cells to desired OD₆₀₀ = 0.8-0.9
Centrifuge cells for 5 min (room temperature, 500g)
Resuspend in 9 mL ice-cooled (2-4°C))BEDS and 1 mL ice-cooled 1.0 M dithiothreitol (DTT)-Solution
Incubate for 5 min with gently shaking at 100 rpm at room temperatur
Centrifuge cells for 5 min (room temperature, 500g)
Resuspend cells in 1 mL BEDS
Divide the resuspended cells in 150 μL aliquots (now the cells are ready to use)
freeze cells slowly at -80°C (Don't freeze in liquid N₂)
Place in -80°C freezer until needed

Molecular genetical methods

Yeast: 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).

PCR for A.thaliana laccase ampflification

55px

About our Wiki

Fifteen students from different fields of study from the Bielefeld University aspired to complete a project called TOXIC COMPOUNDS IN NATURAL WATER - A CASE FOR LACCASE. In his Wiki we document our achievements and our approach.

Contact Us

Universität Bielefeld
Universitätsstraße 25
D-33615 Bielefeld

info(at)igem-bielefeld.de

Navigate our Wiki