INDEX KIT COMPONENTS 1 STORAGE AND STABILITY 1 INTRODUCTION 1 BENEFITS ERRORE. IL SEGNALIBRO NON È DEFINITO. IMPORTANT NOTES 1 METHOD FOR DNA EXTRACTION FROM AGAROSE GELS 2 METHOD FOR DNA EXTRACTION FROM PCR REACTION 4 QUANTIFICATION AND STORAGE OF DNA 4 SHORT PROTOCOL FOR EXPERIENCED USERS 5 TROUBLESHOOTING 6 Ed1/1209/EMR501/730 pag 1/6
KIT COMPONENTS EuroGOLD Gel Extraction Kit 5 Purifications 50 Purifications 200 Purifications Cat. EMR501005 EMR501050 EMR501200 Components PerfectBind DNA Columns 5 50 200 2 ml Collection Tubes 5 50 200 Binding Buffer 3 ml 30 ml 120 ml CG Wash Buffer 5 ml 20 ml 3 x 20 ml Elution Buffer (10 mm Tris-HCl, ph 1 ml 10 ml 30 ml 9.0) Instruction manual 1 1 1 STORAGE AND STABILITY All EuroGOLD Gel Extraction Kit components are stable for at least 12 months from the date of purchase when stored at room temperature (22 25 C). Ensure that the bottle of Binding Buffer is tightly capped when not in use. INTRODUCTION The EuroGOLD family of products is an innovative system that radically simplifies extraction and purification of nucleic acids from a variety of sources. Key to the system is the PerfectBind matrix that specifically, but reversibly, binds DNA or RNA under certain optimal conditions allowing proteins and other contaminants to be removed. Nucleic acids are easily eluted with deionized water or low salt buffer. Gel purification of DNA is a common technique for isolation of specific fragments from reaction mixtures. However, most methods either fail to completely remove agarose (which can lead to problems in downstream applications), shear the DNA, or result in very low yields. The EuroGOLD Gel Extraction Kit uses PerfectBind technology to recover DNA bands between 50 bp and 40 kb from all grades of agarose gel in yields reaching 90 95 %. Each PerfectBind DNA column can bind up to 30 µg DNA. The DNA band of interest is excised from the gel, dissolved in Binding Buffer, and applied to a PerfectBind DNA spin-column. Following a rapid wash step, DNA is eluted with deionized water (or low salt buffer) and ready for further applications. The purified DNA is suitable for ligations, PCR sequencing, restriction digestion, or various labeling reactions. IMPORTANT NOTES Briefly examine this booklet and become familiar with each step. Prepare all components and have the necessary materials ready before starting. Ed1/1209/EMR501/730 pag 1/6
CG Wash Buffer is concentrated and has to be diluted with absolute ethanol as follows: EMR501005 EMR501050 EMR501200 Add 20 ml 100 % Ethanol to 5 ml CG Wash Buffer Add 80 ml 100 % Ethanol to 20 ml CG Wash Buffer Add 3 x 80 ml 100 % Ethanol to 3 x 20 ml CG Wash Buffer Store diluted DNA Wash Buffer at room temperature. All steps must be carried out at room temperature. METHOD FOR DNA EXTRACTION FROM AGAROSE GELS Reagents required, but not supplied: 100 % Ethanol Sterile deionized water (optional) Sterile 1.5 ml centrifuge tubes 3M sodium-acetate if needed ph 5.2 1) DNA Separation Perform agarose gel/ethidium bromide electrophoresis to fractionate DNA fragments. Any type or grade of agarose may be used. It is strongly recommended to use fresh TAE buffer as running buffer. Do not reuse running buffer as its ph will increase and this will reduce yields. Fresh TBE-buffer may also be used, but usually gives lower yields. 2) Excision of DNA Band When adequate separation of bands has occurred, carefully excise the DNA fragment of interest using a UV light box ensuring not to take more agarose gel as necessary. Avoid more than 30 seconds exposure of UV light to the DNA. Transfer the gel slice to a fresh 1.5 ml microcentrifuge tube. Always use protective eye-ware or better a UV shield when working with UV light. 3) Dilution of Agarose Determine the approximate volume of the gel slice by weighing it in the 1.5 ml microfuge tube. Assuming a density of 1 g/ml of gel, the volume of gel is derived as follows: a gel slice of mass 0.2 g will have a volume of 0.2 ml. Add equal volume of Binding Buffer. Incubate the mixture at 55 C 65 C for 7 min or until the gel has completely melted. It could be useful to mix the sample every 2-3 minutes to improve melting. If agarose remains in the sample after 7 minutes, extend melting until agarose is completely melted. Be sure not to heat up over 65 C because this can lead to impairment. Ed1/1209/EMR501/730 pag 2/6
4) ph Value Monitor the ph value of the Gel/Binding buffer mixture after the gel is completely dissolved. DNA yield will be significantly decreased when ph value is > 8.0. If the color of the mixture becomes orange or red, add 5 µl of 5M sodium acetate (ph 5.2) to bring the ph down. After this adjustment, the color of the gel/binding buffer mixture should be light yellow. The binding efficiency of DNA to the silica matrix is strongly dependent on ph. The correct ph is shown by a yellow colour of the binding buffer after dissolving the agarose slice. If the ph is > 7.5 (orange or red color) the complete binding of DNA to the silica matrix is no more guaranteed and the final yield can be dramatically reduced. 5) Load and bind Place a fresh PerfectBind DNA column in a 2 ml collection tube and add 750 µl of the DNA/agarose solution. Centrifuge the PerfectBind DNA column / collection tube assembly for 1 min at 10.000 x g. Discard the flow-through and keep the collection tube for further steps. For volumes higher than 750 µl load the column again and centrifuge successively, 750 µl at a time. Each PerfectBind Binding column has a total capacity of approx. 30 µg DNA. If the expected yield is higher, divide the sample into the appropriate number of columns. 6) Wash I (optional) Discard liquid and add 300 µl Binding Buffer. Centrifuge at 10.000 x g for 1 min at room temperature. Discard flow-through liquid and reuse collection tubes in the following steps. This wash step improves the complete removal of remaining agarose from the column. It is especially necessary if the DNA needs to be used in sensitive downstream application like in-vitro transcription or micro injection. 7) Wash II Place the PerfectBind spin column in the collection tube used in step 5 and add 750 µl of CG Wash Buffer diluted with ethanol. Centrifuge at 10.000 x g for 1 min at room temperature. Discard the flow-through liquid and repeat step 7 with another 750 µl of CG Wash Buffer. Optional: The column can be incubated with the wash buffer for 2-3 minutes at RT before centrifugation. 8) Dry (Important! Do not skip this step!) Place the PerfectBind DNA column containing your DNA in the collection tube used in step 7 and centrifuge for 1 min at 10.000 x g to dry the column matrix. This step is essential to remove ethanol from the column. 9) Elution Place the PerfectBind DNA column into a fresh 1.5 ml microcentrifuge tube. Add 30-50 µl Elution Buffer (depending on the desired final concentration of DNA) directly to the binding matrix in the spin column and centrifuge for 1 min at 5.000 x g to elute DNA. Ed1/1209/EMR501/730 pag 3/6
This first elution represents approximately 80-90% of the bound DNA. An optional second elution will yield any residual DNA, though at a lower concentration. METHOD FOR DNA EXTRACTION FROM PCR REACTION 1) Agarose gel electrophoresis Perform agarose gel/ethidium bromide electrophoresis to verify success of the PCR reaction. 2) Load and Bind Transfer PCR reaction to a clean 1.5 ml microfuge tube, add an equal volume of Binding Buffer and vortex thoroughly. For PCR products <200 bp add up to 3 volumes of Binding Buffer; for fragments > 4 kb add 3 volumes Binding Buffer, followed by 1 volume aqua bidest. Apply the sample to a PerfectBind DNA column assembled in a clean 2 ml collection tube (provided) and centrifuge in a microcentrifuge at 10.000 x g for 1 min at room temperature. Discard the liquid. Continue the preparation as described under step 7 of protocol 'Extraction of DNA from Agrose gels'. QUANTIFICATION AND STORAGE OF DNA Determine the absorption of an appropriate dilution (20- to 50-fold) of the sample at 260 nm and 280 nm. One A 260 -unit corresponds to 50 µg DNA/ml. The DNA concentration is calculated as follows: DNA conc. (µg/ml) = Absorption 260 50 Dilution Factor The ratio of A 260/280 is an indicatior for nucleic acid purity. A value higher than 1.8 indicates a purity > 90 %. Typically, the majority of the DNA eluted is in monomeric supercoiled form, though concatamers may also be present. Alternatively, quantity (as well as quality) can sometimes best be determined by agarose gel/ethidium bromide electrophoresis by comparison to DNA samples of known concentrations. DNA purified with the EuroGOLD Gel Extraction Kit can be stored in TE Buffer or sterile, deionized water at 20 C for years. Ed1/1209/EMR501/730 pag 4/6
Short Protocol for experienced Users 1. Excise DNA fragment of interest. 2. Dissolve gel slice in - the same volume of Binding buffer at 55 65 C. Check ph value and adjust with sodium acetate if necessary. 3. Apply 750 µl of DNA/agarose solution onto the column and repeat step until complete volume is applied onto the column. Centrifuge at 10.000 x g for 1 minute. 4. Wash column twice with 600 µl CG Wash buffer. 5. Dry colum by centrifugation. 6. 6. Place column in a fresh 1.5 ml tube and elute DNA with 30 50 µl of Elution buffer. Ed1/1209/EMR501/730 pag 5/6
TROUBLESHOOTING Problem Likely cause Suggestion Low DNA yields. Too little Binding Buffer added to gel. Agarose gel not completely dissolved in Binding Buffer. TAE running buffer was not fresh. Inappropriate elution buffer Volume of agarose gel slice was determined incorrectly. Add enough Binding Buffer as instructed. Make sure water bath is set to 55 C to 65 C and allow gel to melt completely. With overuse, TAE loses its buffering capacity. This raises the ph of the agarose/ DNA/ Binding Buffer solution which interferes with DNA binding to PerfectBind matrix. Use freshly prepared TAE buffer for gel purification (and prevent contamination of isolated DNA in addition to improving yields). Check ph of water or use 10 mm Tris-HCl (ph 9.0) included in this kit to elute DNA. Column clogged. No DNA eluted Optical densities do not agree with DNA yield on agarose gel. DNA floats out of well while loading agarose gel. Agarose gel not completely dissolved in Binding Buffer. CG Wash Buffer concentrate not diluted with absolute ethanol. Ethanol not completely removed from column Inappropriate elution buffer Trace contaminants eluted from column increase A 260. Ethanol not completely removed from column following wash steps. Make sure water bath is set to 55 o C to 65 o C and allow gel to melt completely. For large agarose slices (>0.3 ml) it is recommended that the gel is diced into smaller fragments to aid melting. Prepare DNA Wash buffer concentrate with 100 % ethanol as instructed above. Centrifuge as instructed in step 8 of the protocol. Check ph of water or use the Elution Buffer included in this kit to elute DNA. Make sure to wash column as instructed in step 7 and perform optional wash step 6. Alternatively, rely on agarose gel/ethidium bromide electrophoresis for quantitation. Centrifuge column as instructed in step 8 to dry completely. Ed1/1209/EMR501/730 pag 6/6
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