| Description | Lactic acid is an important intermediate product in the metabolic processes of organisms, closely related to carbohydrate metabolism, lipid metabolism, protein metabolism, and intracellular energy metabolism. Lactic acid concentration is a key indicator for evaluating glycogen metabolism and aerobicLactic acid is an important intermediate product in the metabolic processes of organisms, closely related to carbohydrate metabolism, lipid metabolism, protein metabolism, and intracellular energy metabolism. Lactic acid concentration is a key indicator for evaluating glycogen metabolism and aerobic metabolism. Abnormally high concentrations of lactic acid are associated with pathological conditions such as cancer, diabetes, and lactic acidosis.The detection principle of this kit is as follows: Lactate dehydrogenase catalyzes the conversion of L-lactate to pyruvate, simultaneously reducing NAD+ to NADH and H+. Further, through the hydrogen transfer action of 1-mPMS, WST-8 reacts to form a yellow, soluble formazan. The absorbance at 450 nm is measured to calculate the L-lactate content in the sample.Detection Range: 0.03-2 mMSensitivity: 0.03 mMApplicable Samples: Animal and plant tissues, cells, bacteria, serum (plasma), or other liquids.L1501211Component48T96TStorageL1501211ALactate Assay Buffer70 mL70 mL×22-8℃L1501211BLactate Dehydrogenase0.7 mL1.4 mL-20℃L1501211CLactate Dehydrogenase Cofactor0.5 mL1 mL-20℃L1501211DWST-8350 µL700 µL-20℃. Store in the dark.L1501211EEnhancer70 µL140 µL-20℃. Store in the dark.L1501211FL(+)-Lactate Standard (100 mM)50 µL100 µL-20℃Please check the quantity of each component before the experiment.An additional 10% of each component is provided beyond the specified volume for standard curve preparation or preliminary experiments.User-Provided Instruments and ReagentsTypeNameNotesInstrumentMicroplate ReaderCapable of measuring absorbance at 450 nm.Consumables96-well MicroplateStandard transparent plate.ReagentsPBS (pH 7.4)For washing samples.OthersHomogenizer (for tissue samples), incubator, ice machine, low-temperature centrifuge, adjustable pipettes and tipsUsing a multichannel pipette for large-scale detection can improve efficiency.Experimental Procedure1. Reagent PreparationReagent NameReagent PreparationPrecautionsLactate Assay BufferReady-to-use; equilibrate to room temperature before use.4℃保存 Store at 4°C.Lactate DehydrogenaseReady-to-use;Keep on ice during the experiment; store aliquots at -20°C.Lactate Dehydrogenase CofactorReady-to-use;Keep on ice during the experiment; store aliquots at -20°C.WST-8Ready-to-use;Keep on ice during the experiment; store aliquots at -20°C.EnhancerReady-to-use;Keep on ice protected from light during the experiment; store aliquots at -20°C protected from light.L(+)-Lactate Standard (100 mM)Equilibrate to room temperature before use.100 mM, store aliquots at -20°C.2. Standard PreparationAdd 20 µL of the 100 mM standard to 980 µL of Lactate Assay Buffer to prepare a 2 mM standard stock solution. Aliquot and store at -20°C for up to 6 months. Dilute the 2 mM standard stock solution sequentially with Lactate Assay Buffer to prepare standard working solutions with final concentrations of 1 mM, 0.5 mM, 0.25 mM, 0.125 mM, 0.0625 mM, and 0.03125 mM. Use Lactate Assay Buffer as the blank.Standard Working SolutionStandard (µL)Lactate Assay Buffer (µL)Concentration (mM)1200 µL of 2 mM022200 µL of 2 mM20013200 µL of 1 mM2000.54200 µL of 0.5 mM2000.255200 µL of 0.25 mM2000.1256200 µL of 0.125 mM2000.06257200 µL of 0.0625 mM2000.03125Blank020003. Sample PreparationNote: Fresh samples are recommended. If not used immediately, samples can be stored at -80°C for up to 1 month. NADH or NADPH present in cell or tissue extracts can create background for lactate assay. To remove NADH or NADPH background, an equal amount of sample can be assayed without lactate dehydrogenase, and the background reading should be subtracted from the lactate reading. Endogenous lactate dehydrogenase (LDH) can degrade lactate. Samples containing LDH (e.g., cell culture medium, cell or tissue lysates) should be processed using a 10 kDa MW cutoff ultrafiltration tube (centrifuge at 12,000 g, 4°C for 10 min; follow the filter instructions) to remove all proteins. Use the filtrate for detection, then store at -80°C.3.1 Animal/Plant Tissues: Weigh approximately 0.1 g of tissue sample, add 1 mL of Lactate Assay Buffer, and homogenize on ice. Centrifuge at 12,000 g, 4°C for 5 min. Transfer the supernatant to a new tube and keep on ice for detection.3.2 Cells or Bacteria: Collect 5×10^6 cells. Wash the cells or bacteria with pre-cooled PBS. Centrifuge at 800 g for 2 min, discard the supernatant. Add 1 mL of Lactate Assay Buffer, and disrupt using an ultrasonic homogenizer on ice for 5 min (power 20% or 200 W, ultrasonic 3 s, interval 7 s, repeat 30 times). Centrifuge at 12,000 g, 4°C for 5 min. Collect the supernatant and keep on ice for detection.3.3 Plasma and Serum (Other Biological Fluids): Detect directly.4. Experimental Steps4.1 Microplate Reader Preparation: Preheat for at least 30 minutes, set wavelength to 450 nm.4.2 Working Reagent Preparation: 50 µL of Working Reagent is required per well. To avoid loss, prepare for 55 µL per single well system: Pipette 31 µL Lactate Assay Buffer, 8 µL Lactate Dehydrogenase Cofactor, 5 µL WST-8, 1 µL Enhancer, and 10 µL Lactate Dehydrogenase. Mix well. The Working Reagent must be prepared freshly and used immediately.4.3 Assay System Setup: Set up the detection system in the microplate according to the table below. The standard curve generally needs to be performed only once.ReagentStandard Well (µL)Test Well (µL)Sample050Standard Working Solution500Working Reagent50504.4 Absorbance Measurement: Mix well and incubate at 37°C protected from light for 30 min. Read the absorbance at 450 nm, recorded as Ablank, Astandard, and Atest. 5. Result CalculationThe following provides both the derived formula and the simplified calculation formula, which are completely equivalent.5.1 Data ProcessingCalculate ΔAstandard= Astandard- Ablank, ΔAtest = Atest - Ablank.5.2 Standard Curve PlottingPlot the standard curve with standard concentration as the y-axis and ΔAstandard as the x-axis. Substitute ΔAstandard into the equation to obtain the y value (mM).5.3 Sample L-Lactate Content Calculation① Calculated based on sample weight:L-Lactate (µmol/g) = y × Vsample ÷ (W × Vsample ÷ Vtotal) × n = y ÷ W × n② Calculated based on cell or bacterial count:L-Lactate (µmol/10⁴ cells) = y × Vsample ÷ (500 × Vsample ÷ Vtotal) × n = y ÷ 500 × n③ Calculated based on liquid volume:L-Lactate (mM) = y × Vsample ÷ Vsample × n = y × n④ Calculated based on protein concentration:L-Lactate (µmol/mg prot) = y × Vsample ÷ (Vsample × Cpr) × n = y ÷ Cpr × nParameter Description:1 mM = 1 mmol/L;Vsample : Volume of sample added, 0.05 mL;n: Sample dilution factor;Cpr: Sample protein concentration, mg/mL;W: Sample weight, g;Vtotal: Total volume of sample extract, 1 mL;500: Cell or bacterial count, 5×10⁶, converted to units of 10⁴.Result Presentation Using Previous Standard CurveTypical Standard Curve: y = 2.2613x - 0.0531Example-1: 50 µL of chicken serum was taken and processed according to the assay steps using a 96-well plate. The measured ΔAtest = Atest - Ablank= 0.435 - 0.096 = 0.339. Substituting into the standard curve, y = 0.713 mM. Calculated based on liquid volume: Lactate content (mM) = y × n = 0.713 × 5 = 3.565 mM.PrecautionsIt is recommended to perform preliminary experiments using 2-3 samples expected to have significant differences before formal testing.For tissue and cell samples, results can be normalized by measuring the protein concentration.This kit is compatible with spectrophotometer detection. Adjust the preparation volume of detection reagents proportionally according to the spectrophotometer's requirements.It is recommended to establish your own standard curve for improved accuracy. If not, you may refer to the typical standard curve formula provided in the results section for calculation.Biochemical reagents are generally irritating and biologically toxic. For your safety and health, please wear appropriate personal protective equipment (lab coat, mask, gloves, hair cap, etc.) throughout the experiment and perform experiments in a fume hood or biosafety cabinet.This product is for scientific research use only. Not intended for clinical diagnosis.Frequently Asked QuestionsWhat should I do if the sample ΔAtest is too high or too low?If the sample ΔAtest is >1.0, the lactate content in the sample is too high. Dilute the sample appropriately with Lactate Assay Buffer (multiply by the dilution factor in the calculation). If the sample ΔAtest is <0.13, increase the sample amount... Read More | When apoptosis occurs, some DNA endonucleases will be activated. These endonucleases will cut off genomic DNA between nucleosomes and produce 180 bp-200 BP DNA fragments, which appear as a specific ladder pattern in agarose gel electrophoresis. When double strand or single strand breaks occur in When apoptosis occurs, some DNA endonucleases will be activated. These endonucleases will cut off genomic DNA between nucleosomes and produce 180 bp-200 BP DNA fragments, which appear as a specific ladder pattern in agarose gel electrophoresis. When double strand or single strand breaks occur in genomic DNA, a large number of sticky 3'-oh ends will be generated, which can interact with YF under the catalysis of deoxyribonucleotide terminal transferase (TDT) ®/ CY dUTP binding can directly detect apoptotic cells by fluorescence microscopy or flow cytometry. This kind of method is called terminal deoxynucleotidyl transferase mediated nick end labeling (TUNEL). Because normal or proliferating cells have almost no DNA breaks, there is no 3'-oh formation and they can rarely be stained. TUNEL method can stain intact single apoptotic nuclei or apoptotic bodies in situ, can accurately reflect the typical biochemical and morphological characteristics of apoptosis, and can detect a very small number of apoptotic cells, so it is widely used in the study of apoptosis. This kit has a wide range of applications and can be used to detect apoptosis in frozen or paraffin sections, as well as cultured adherent cells or suspended cells. It can selectively detect apoptotic cells, but not necrotic cells or cells with DNA strand breaks caused by irradiation and drug treatment. This kit detects cell apoptosis with a short time-consuming, one-step staining reaction and can be detected after washing.Composition: Composition 20T 50T A. aladdin®640 TUNEL Reaction Buffer 1 mL 2 ×1.25 mL B. TdT Enzyme 20 µL 50 µL C. Proteinase K (2 mg/mL) 40 µL 100 µL D. DNase I (2 U/µL) 5 µL 13 µL E. 10 ×DNase I Buffer 100 µL 260 µL Product parameters:642/662 nm; Instruction: Experimental materials (self provided)PBS buffer (1 x, pH~7.4). 0.2% Triton X -100 (PBS formulation). 0.1% Triton X -100 (PBS formulation, containing 5 mg/mLBSA)4% paraformaldehyde (prepared with PBS)Immunohistochemical penDewaxing solvent (paraffin section sample)Related reagents for paraffin section processingAnti fluorescence quenching and sealing agent. ddH2Oexperimental design. A. Positive control:Prepare positive control slides using DNaseI treatment. DNaseI can digest single or double stranded DNA and expose the 3 '- OH end, artificially causing cell apoptosis. One experiment per time is sufficient. (To verify if there are any issues with the experimental operation and reagent kit)B. Negative control:Use TUNEL Reaction Buffer without TdT Enzyme and replace TdT Enzyme with ddH2O. (Mainly to exclude non-specific staining caused by cell apoptosis, operational processes, and other reasons; and to adjust the exposure intensity of the shooting.)C. Experimental processing group.The experimental group operated normally according to the instructions.D. Experimental control group.The experimental group operated normally according to the instructions.Experimental steps1. Sample preparation:(1) For adherent cells or cell smearsa. Clean once with PBS.Note: If you are concerned that the cells on the cell smear may not adhere firmly, you can dry the sample to make the cells adhere more firmly.b. Fixation: Add an appropriate amount of 4% paraformaldehyde (prepared with PBS) and fix at 4 ℃ for 30 minutes. Clean twice with PBS.c. Translucency: Add an appropriate amount of 0.2% Triton X -100 (prepared with PBS) and let it penetrate at room temperature for 20 minutes. Clean twice with PBS.d. Step 2: TUNEL reaction.(2) For suspended cells or cell suspensionsa. Collect cells (3-5 x 106 cells), centrifuge at 1000 rpm for 5 minutes, and wash twice with PBS.b. Fixation: Add an appropriate amount of 4% paraformaldehyde (prepared with PBS) and resuspend the cells thoroughly. Fix at 4 ℃ for 30 minutes. Centrifuge at 2000 rpm for 5 minutes and clean twice with PBS.c. Translucency: Add an appropriate amount of 0.2% Triton X -100 (prepared with PBS) and let it penetrate at room temperature for 20 minutes. Centrifuge at 2000 rpm for 5 minutes and clean twice with PBS.d. Step 2: TUNEL reaction.(3) Paraffin tissue sectioninga. Dewaxing and hydration: Place the sliced samples sequentially in xylene I (10 min) → xylene II (10 min) → 100% ethanol I (5 min) → 100% ethanol II (5 min) → 95% ethanol (5 min) → 90% ethanol (5 min) → 80% ethanol (5 min) → 70% ethanol (5 min) → ddH2O rinse for 5 min, rinse twice.Note: Xylene is toxic and volatile. Please perform this operation in a fume hood.b. Use filter paper to dry the liquid around the sliced sample, and circle the sample contour with an immunohistochemical pen for downstream transparency and labeling.Note: If it is found that the contour circle of immunohistochemistry strokes is damaged in subsequent experimental operations, it needs to be redrawn in a timely manner.c. Transparency: Dilute 2 mg/mL of ProteinaseK solution with PBS in a ratio of 1:100 to a final concentration of 20 µ g/mL. Add 100 µ L dropwise to each sample to cover all sample areas. Incubate at 20-37 ℃ for 20 minutes.Note: Protein K can penetrate the cell membrane and nuclear membrane, allowing subsequent staining reagents to fully enter the nucleus for reaction and improve labeling efficiency. An excessively long incubation time increases the risk of tissue slices falling off the carrier film during subsequent washing steps, while a too short incubation time may result in insufficient permeability treatment and affect labeling efficiency. To obtain better results, the concentration, incubation time, and temperature of Protein K need to be optimized according to different types of tissue samples.d. Wash the slices twice with PBS, each time for 5 minutes. Use filter paper to remove excess liquid, and place the processed sample in a wet box to keep it moist.Note: Protein K must be washed thoroughly in this step, otherwise it will seriously interfere with subsequent labeling reactions.e. Step 2: TUNEL reaction.(4) Frozen tissue sectionsa. Fixation: Take out frozen sections and warm them back to room temperature. Add an appropriate amount of 4% paraformaldehyde (prepared with PBS) and fix at room temperature for 30 minutes. Wash twice with PBS for 10 minutes each time.Note: If you are concerned that formaldehyde cleaning may not be clean enough, it may affect the final dyeing effect. After formaldehyde fixation is completed, an appropriate amount of 2 mg/mL glycine can be added and washed for 10 minutes to neutralize the residual fixing solution, and then PBS cleaning can be carried out.b. Use filter paper to dry the liquid around the sliced sample, and circle the sample contour with an immunohistochemical pen for downstream transparency and labeling.Note: If it is found that the contour circle of immunohistochemistry strokes is damaged in subsequent experimental operations, it needs to be redrawn in a timely manner.c. Transparency: Dilute 2 mg/mL of ProteinaseK solution with PBS in a ratio of 1:100 to a final concentration of 20 µ g/mL. Add 100 µ L dropwise to each sample to cover all sample areas. Incubate at 20-37 ℃ for 20 minutes.Note: Protein K can penetrate the cell membrane and nuclear membrane, allowing subsequent staining reagents to fully enter the nucleus for reaction and improve labeling efficiency. An excessively long incubation time increases the risk of tissue slices falling off the carrier film during subsequent washing steps, while a too short incubation time may result in insufficient permeability treatment and affect labeling efficiency. To obtain better results, the concentration, incubation time, and temperature of Protein K need to be optimized according to different types of tissue samples.d. Wash the slices twice with PBS, each time for 5 minutes. Use filter paper to remove excess liquid, and place the processed sample in a wet box to keep it moist.Note: Protein K must be washed thoroughly in this step, otherwise it will seriously interfere with subsequent labeling reactions.e. Step 2: TUNEL reaction.(5) Positive treatment (only the positive control is subjected to this step, and other samples are directly subjected to the TUNEL reaction step)a. Dilute 10 x DNase I Buffer with ddH2O in a ratio of 1:10 to 1 x DNase I Buffer for later use.b. Drip 100 µ L of 1xDNase I Buffer onto the processed sample, covering all sample areas, and equilibrate at room temperature for 5 minutes.c. Dilute DNase I (2 U) with 1 x DNase I Buffer at a ratio of 1:100/ µ L) A working solution with a final concentration of 20 U/mL.d. Discard the buffer and add 100 µ Incubate DNase I working solution with a concentration of 20 U/mL at room temperature for 10 minutes.e. Discard DNase I working solution and clean twice with PBS.f. Step 2: TUNEL reaction.2. TUNEL reaction(1) Prepare TUNEL reaction solution (ready to use): / 1 sample 5 sample 10 sample TdT enzyme 1 µL 5 µL 10 µL YF®488/555/594/640 TUNEL Reaction Buffer 49 µL 245 µL 490 µL TUNEL Total volume of reaction solution 50 µL 250 µL 500 µL (2) For adherent cells, cell smears, or tissue sectionsa. Add 50 to each sample µ L TUNEL reaction solution, evenly cover the sample with the reaction solution. The appropriate time for dark incubation at 37 ℃ (recommended staining time for cells is 30 minutes to 1 hour, and tissue staining time is 2 hours).Note: 50 µ L TUNEL reaction solution is suitable for smear, slicing, or 96 well plates (other different well plates can adjust the volume of TUNEL reaction solution appropriately to cover cells). If the sample to be tested is a smear, slice, or in a 24 well plate, 12 well plate, or 6 well plate, anti evaporation film can be used, or self sealing bags or other appropriate materials can be used to cut circular plastic sheets slightly smaller than the holes. After adding TUNEL reaction solution dropwise, cover the sample to prevent the evaporation of TUNEL reaction solution and make the TUNEL reaction solution evenly cover the sample.b. Discard the TUNEL reaction solution, wash twice with PBS, and then wash three times with 0.1% Triton X -100 (PBS preparation, containing 5 mg/mL BSA) for 5 minutes each time. This way, free unreacted markers can be removed cleanly.c. (Optional) Add an appropriate concentration of 5 to each sample µ DAPI staining solution with a concentration of g/mL, incubated at room temperature in dark for 5 minutes. After staining, discard DAPI staining solution and wash twice with PBS for 5 minutes each time.d. (Optional) Slice sealing: Add 50 drops to each sample µ L anti fluorescence quenching sealing agent (anti fluorescence quenching sealing agent may not be suitable for certain dyes, it is recommended to conduct pre experimental testing for compatibility before the experiment), cover the cover glass, gently tap the cover glass with the blunt end of tweezers to remove bubbles and ensure complete sealing.e. Use filter paper to remove excess liquid and add 100 to the sample area µ Keep the sample moist with PBS and immediately observe under a fluorescence microscope.(3) For suspended cells or cell suspensionsa. Add 50 to each sample tube µ Gently resuspend cells in LTUNEL reaction solution and incubate at 37 ℃ in the dark for 30-1 hour. Gently resuspend cells with a micropipette every 15 minutes.b. Centrifuge at 2000 rpm for 5 minutes, discard TUNEL reaction solution, and wash twice with 0.1% Triton X -100 (PBS preparation, containing 5 mg/mLBSA) for 5 minutes each time. This way, free unreacted markers can be removed cleanly.c. Add 100 to each sample tube µ L concentration is 5 µ DAPI staining solution with a concentration of g/mL, incubated at room temperature in dark for 5 minutes.d. Join 400 µ L PBS resuspended cells and immediately detected with a flow cytometer or observed under a fluorescence microscope after smearing.Matters needing attention:1. please centrifuge the product to the bottom of the tube immediately before use, and then conduct subsequent experiments. 2. when the staining background is heavy or non-specific staining is obvious, the staining time can be appropriately reduced. 3. it is recommended to add negative control and positive control groups during the experiment. 4. please wear mask and gloves when using component A. if it contacts the skin, please wash it with plenty of water immediately. 5. fluorescent dyes have quenching problems. Please try to avoid light to slow down fluorescence quenching. 6. for your safety and health, please wear experimental clothes and disposable gloves.Scope of application:Late apoptosis detection, TUNEL Kit... Read More | Inquire | The content of this cell is too long for an XLSX file (more than 32767 characters). Please use the CSV format for this export | Product contentS665868Component50 TStorageS665868ABuffer GL25 mLRTS665868BBuffer GW1 (concentrate)13 mLRTS665868CBuffer GW2 (concentrate)15 mLRTS665868DBuffer GE15 mLRTS665868EProteinase K2×1.25 mLRTS665868FSpin Columns DM with Collection Tubes50 setsRTProduct IntroductionThis kit is suitable Product contentS665868Component50 TStorageS665868ABuffer GL25 mLRTS665868BBuffer GW1 (concentrate)13 mLRTS665868CBuffer GW2 (concentrate)15 mLRTS665868DBuffer GE15 mLRTS665868EProteinase K2×1.25 mLRTS665868FSpin Columns DM with Collection Tubes50 setsRTProduct IntroductionThis kit is suitable for the extraction of genomic DNA from fresh saliva or saliva/preservation solution mixture.The purification process of this product does not require the use of toxic solvents such as phenol or chloroform, and ethanol precipitation is not necessary. The optimized buffer system enables DNA to bind heterogeneously to the silica matrix centrifugal adsorption column, and the inhibitors of PCR and other enzymatic reactions can be effectively removed by a two-step washing step, and finally eluted with a low-salt buffer or water to obtain high-purity DNA.The purified obtained can be directly used for enzyme digestion, PCR, Real-Time PCR, library construction, Southern Blot, molecular labeling and other downstream experiments.Self-contained reagent: anhydrous ethanolPre-experiment Preparation and Important Notes1. Repeated freezing and thawing of the sample should be avoided, as this may result in smaller fragments of extracted DNA and a decrease in the amount extracted.2. Anhydrous ethanol should be added to Buffer GW1 and Buffer GW2 according to the instructions on the label of the reagent bottle before first use.3. Before use, please check whether Buffer GL appears to be crystallized or precipitated.Redissolve in a 56°C water bath.4. If the downstream experiments are sensitive to RNA contamination, 4 µL DNase-Free RNase A can be added in step 3(100 mg/mL).5. For prolonged storage of salivary DNA at room temperature, our Salivary DNA Preservation Tubes are recommended.Operation steps1. Add 400 µL of saliva sample or saliva/preservation solution mixture.Note: 1) Saliva mixtures added to the preservation solution require a 50°C water bath for 1 hour or an empty 50°C temperature chamber for 2 hours prior to extraction.2) If an increase in sample volume is required, multiply the volumes of Proteinase K, Buffer GL, and anhydrous ethanol in Steps 2-4, and the liquid can be transferred in multiple times in Step 5.2. Add 40 µL of Proteinase K.3. Add 400µL Buffer GL, vortex and shake to mix thoroughly, and water bath at 56℃ for 15-30 minutes.Note: If RNA removal is required, add 4 µL of RNase A solution at a concentration of 100 mg/mL after the above steps are completed, vortex for 15 seconds, and leave at room temperature for 2 minutes.4. Centrifuge briefly to remove water droplets from the inside of the tube cap. Add 400 µL of anhydrous ethanol and mix well by vortexing and shaking. Centrifuge briefly.Note: 1) Vortex and shake to mix immediately after adding Buffer GL and anhydrous ethanol.The addition of Buffer GL and anhydrous ethanol may produce a white precipitate that will not affect subsequent experiments.2) A sol-gel product may be formed after GL and anhydrous ethanol, in which case vigorous shaking or vortexing is recommended.3) The solution obtained in the previous step is added to the adsorption column in the Collection Tube.5. (Spin Column DM) in the collection tube, and if the solution cannot be added all at once, it can be transferred in several times. centrifuge at 12,000 rpm (∼13,400 × g) for 1 min, pour off the waste solution in the collection tube, and put the adsorption column back into the collection tube.6. Add 500 µL of Buffer GW1 to the adsorption column (check that anhydrous ethanol has been added before use), centrifuge at 12,000 rpm for 1 minute, pour off the waste liquid in the collection tube, and put the adsorption column back into the collection tube.7. Add 500 µL of Buffer GW2 to the adsorption column (check that anhydrous ethanol has been added before use), centrifuge at 12,000 rpm for 1 minute, pour off the waste liquid in the collection tube, and put the adsorption column back into the collection tube.Note: Step 7 can be repeated if further DNA purity is required.8. Centrifuge at 12,000 rpm for 2 minutes and pour off the waste liquid in the collection tube. Leave the adsorption column at room temperature for several minutes to dry thoroughly.Note: The purpose of this step is to remove residual ethanol from the adsorption column, which can interfere with subsequent enzymatic reactions (digestion, PCR, etc.).9. Place the adsorption column in a new centrifuge tube (supplied), add 50-200 µL of Buffer GE or sterilized water to the middle of the adsorption column overhanging the column, let it stand at room temperature for 2-5 minutes, and centrifuge at 12,000 rpm for 1 minute to collect the DNA solution.-20°C to preserve DNA.Note: 1) If the downstream experiment is sensitive to pH or EDTA, you can use sterilized water for elution. The pH of the eluent has a great influence on the elution efficiency, if water is used as the eluent should ensure that its pH is 7.0-8.5 (you can use NaOH to adjust the pH of the water to this range), and the elution efficiency is not high when the pH is lower than 7.0.2) Buffer GE preheated in a 65-70°C water bath and incubated at room temperature for 5 min before centrifugation can increase the yield.3) Because DNA preserved in water is subject to acidic hydrolysis, for long-term storage, elution with Buffer GE and storage at -20°C is recommended... Read More |