| Description | Hydrogen peroxide (H₂O₂) is the most common reactive oxygen species (ROS) in living organisms. It is a by-product of active oxygen metabolism, primarily produced by enzymes like SOD and XOD, and degraded by enzymes such as CAT and POD. H₂O₂ is not only a significant ROS but Hydrogen peroxide (H₂O₂) is the most common reactive oxygen species (ROS) in living organisms. It is a by-product of active oxygen metabolism, primarily produced by enzymes like SOD and XOD, and degraded by enzymes such as CAT and POD. H₂O₂ is not only a significant ROS but also a hub for the interconversion of reactive oxygen species. On one hand, H₂O₂ can directly or indirectly oxidize biological macromolecules like nucleic acids and proteins within cells, damaging cell membranes and thereby accelerating cellular aging and disintegration. On the other hand, H₂O₂ is also a key regulatory factor in many oxidative stress responses. It can activate factors like NF-κB, and these H₂O₂-related signaling pathways are associated with many diseases such as asthma, inflammatory arthritis, arteriosclerosis, and neurodegenerative diseases. H₂O₂ is also closely related to processes like cell apoptosis and proliferation.Detection Principle: H₂O₂ oxidizes ferrous ions (Fe²⁺) to ferric ions (Fe³⁺). The Fe³⁺ then forms a purple complex with xylenol orange in a specific solution. The absorbance at 580 nm is directly proportional to the H₂O₂ concentration, allowing for the quantification of H₂O₂ levels.Detection Range: 1-100 µMSensitivity: 1 µMApplicable Samples: Animal/plant tissues, cells, bacteria, serum (plasma), urine.H1492752Component96T480TStorageH1492752AReaction Buffer5 mL25 mL-20℃. Store in the dark.H1492752BH₂O₂ Standard (1M)0.1 mL0.1 mL-20℃. Store in the dark.H1492752CAssay Buffer (10×)13 mL65 mL2-8℃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 580 nm.Consumables96-well Microplate / Ultrafiltration tubesStandard transparent plate / 10 kDa MWCOReagentsPBS (pH 7.4) / Deionized Water / 30% ZnSO₄ solutionFor washing cells/bacteria / Reagent preparation / Protein removalOthersHomogenizer (for tissue samples), incubator, ice bucket, low-temperature centrifuge, adjustable pipettes and tipsUsing a multichannel pipette for large-scale detection can improve efficiency.Experimental Procedure1. Reagent PreparationReagent NameReagent PreparationPrecautionsReaction BufferReady-to-use; equilibrate to room temperature before use.Protect from light during the experiment; aliquot and store at -20°C in the dark.H₂O₂ Standard (1M)Ready-to-use; equilibrate to room temperature before use.Protect from light during the experiment; aliquot and store at -20°C in the dark.Assay Buffer (1×)Dilute the 10× Assay Buffer 1:10 with deionized water before use; equilibrate to room temperature.The diluted buffer can be stored at 4°C for at least 2 months. Used for diluting H₂O₂ standard and samples.2. Standard PreparationStandard Curve Setup:First, prepare a 2 mM H₂O₂ Standard: Dilute 2 µL of the 1M H₂O₂ Standard with 998 µL of Assay Buffer (1×).Then, prepare a 100 µM H₂O₂ Standard: Dilute 50 µL of the 2 mM H₂O₂ Standard with 950 µL of Assay Buffer (1×).Using the 100 µM H₂O₂ Standard, prepare further dilutions as shown in the table below.Prepare fresh standard solutions for each experiment.Prepared standards must be used within 4 hours.If the sample is a cell suspension, it is recommended to prepare the H₂O₂ standards using the culture medium.Standard Working Solution100µM Standard (µL)Assay Buffer (1×) (µL)Concentration (µM)1200010021001005034016020420180105101905641962721981Blank020003. Sample PreparationNote: Fresh samples are recommended. If not used immediately, samples can be stored at -80°C for up to 1 month. When ready for the experiment, thaw samples on ice. Note that this may affect sample stability, and results might be lower than expected. The following substances interfere with detection and should be avoided in samples: Ferric salts, iron salts, sucrose, glucose, ascorbic acid, SDS (>0.2%), sodium azide.3.1 Animal Tissues:Wash the tissue with cold PBS to remove as much blood as possible. Blot dry, weigh 0.1 g, and add 1 mL of pre-cooled Assay Buffer (1×). Homogenize the sample on ice. Centrifuge at 10000 g, 4°C for 5 min. Collect the supernatant and keep on ice for detection.3.2 Plant Tissues:Weigh approximately 0.1 g of sample, add 1 mL of pre-cooled Assay Buffer (1×), and grind. Disrupt by ultrasound on ice (power 20% or 200 W, ultrasonicate for 3 s, interval 7 s, repeat 30 times). Centrifuge at 10000 g, 4°C for 5 min. Collect the supernatant and keep on ice for detection.3.3 Cells/Bacteria:Collect 5×10⁶ cells or bacteria. Wash with cold PBS, then add 1 mL of pre-cooled Assay Buffer (1×). Homogenize on ice or disrupt by ultrasound on ice (power 20% or 200 W, ultrasonicate for 3 s, interval 7 s, repeat 30 times). Centrifuge at 10000 g, 4°C for 5 min. Collect the supernatant and keep on ice for detection.3.4 Plasma, Serum, and Urine (and other biological fluids):Remove proteins and use the supernatant. Protein removal methods:Use a 10 kDa ultrafiltration tube: filter and collect the filtrate.Mix sample : 30% ZnSO₄ solution = 20 : 1, vortex, then centrifuge at 10000 g, room temperature for 5 min, and collect the supernatant.4. Assay Steps4.1 Microplate Reader Preparation: Preheat for at least 30 minutes, set wavelength to 580 nm.4.2 Assay System Setup:ReagentStandard Well (µL)Test Well (µL)Standard (various conc.)600Sample060Reaction Buffer40404.3 Mix the reaction system thoroughly and incubate at 37°C for 10 minutes.4.4 Absorbance Measurement: Read the absorbance at 580 nm, recorded as A blank, A standard, and A test. 5. Result CalculationThe following provides both the derived formula and the simplified calculation formula, which are completely equivalent.5.1 Data ProcessingCalculate ΔA standard = A standard - A blank, ΔA test = A test - A blank. 5.2 Standard Curve PlottingPlot the standard curve with standard concentration as the y-axis and ΔA <sub> standard </sub> as the x-axis. Substitute ΔA <sub> test </sub> into the equation to obtain the y value (µM).5.3 Sample H₂O₂ Concentration Calculation(1) Based on sample mass:H₂O₂ Content (nmol/g fresh weight) = y × V sample ÷ (W × V sample ÷ V total ) × n = y ÷ W × n(2) Based on cell or bacterial count:H₂O₂ Content (nmol/10⁴ cells) = y × V sample ÷ (500 × V sample ÷ V total ) × n = y ÷ 500 × n(3) Based on liquid volume:H₂O₂ Content (nmol/mL) = y × V sample ÷ V sample × n = y × nParameter Description:1 µM = 1 nmol/mL;V sample : Volume of sample added;V total : Volume of Assay Buffer (1×) added, 1 mL;n: Sample dilution factor;W: Sample mass, g;500: Cell or bacterial count, in units of 10⁴.6. Result PresentationTypical Standard Curve: y = 207.21x + 1.4921, R² = 0.9988Example-1: 0.1 g of corn tissue was processed and assayed according to the procedure using a 96-well plate.Measured: ΔA test = A test - A blank = 0.278 - 0.048 = 0.230Substituting into the standard curve gives y = 49.15 µM.Calculated based on sample mass:H₂O₂ Content (nmol/g) = y ÷ W × n = 491.5 nmol/g.Precautions1. It is recommended to perform preliminary experiments using 2-3 samples expected to have significant differences before formal testing.2. This kit is compatible with spectrophotometer detection. Adjust the preparation volume of detection reagents proportionally according to the spectrophotometer's requirements.3. 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.4. 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.5. This product is for scientific research use only. Not intended for clinical diagnosis.Frequently Asked QuestionsQ: What should I do if the sample ΔA <sub> test </sub> is too high or too low?A: If the sample ΔA test is greater than the ΔA standard of the 100 µM standard, the H₂O₂ content in the sample is too high. Dilute the sample appropriately with Assay Buffer (1×) (multiply by the dilution factor in the calculation). If the sample ΔA test is less than 0.005, increase the sample amount... Read More | N665917 Component 1 mL 5 mL Storage N665917A 2×SYBR qPCR MasterMix 1 mL 5×1 mL -20℃. Avoid freeze/ Thaw cycle. N665917B qPCR Primer Mix 100 µL 500 µL -20℃. Avoid freeze/ Thaw cycle. N665917C DNA Standard A 100 µL 500 µL -20℃. Avoid freeze/ Thaw cycle. N665917 Component 1 mL 5 mL Storage N665917A 2×SYBR qPCR MasterMix 1 mL 5×1 mL -20℃. Avoid freeze/ Thaw cycle. N665917B qPCR Primer Mix 100 µL 500 µL -20℃. Avoid freeze/ Thaw cycle. N665917C DNA Standard A 100 µL 500 µL -20℃. Avoid freeze/ Thaw cycle. N665917D DNA Standard B 100 µL 500 µL -20℃. Avoid freeze/ Thaw cycle. N665917E DNA Standard C 100 µL 500 µL -20℃. Avoid freeze/ Thaw cycle. N665917F DNA Standard D 100 µL 500 µL -20℃. Avoid freeze/ Thaw cycle. N665917G DNA Standard E 100 µL 500 µL -20℃. Avoid freeze/ Thaw cycle. N665917H 50×High ROX 40 µL 200 µL -20℃. Avoid freeze/ Thaw cycle.Product IntroductionThis is a dye-based (SYBR Green I) qPCR NGS library quantification kit for cfDNA, which provides the reaction mixture, DNA primer mixture, standards, and sample dilutions required for the qPCR process, making it a complete reagent system that is easy and convenient to use. The fluorescent dye SYBR Green I contained in the reaction mixture binds to all double-stranded DNA. The kit uses a new chemically modified high-efficiency hot-start polymerase, the activation of the enzyme needs to be incubated at 95 ℃ for 10 min. the product is highly specific, high amplification efficiency, the length of the standard in the kit (about 270bp) is comparable to the average length of the cfDNA NGS libraries (250-300bp), which is able to quickly and accurately quantitate the concentration of the constructed cfDNA libraries. quantification.ROX dye is used to correct the fluorescence signal error generated between wells of a quantitative PCR instrument, and is generally used in Real Time PCR amplifiers from ABI, Stratagene, and other companies. The excitation optics vary from instrument to instrument, so the concentration of ROX dye must be matched to the corresponding fluorescence quantitative PCR instrument.Instruments that do not require ROX calibration: Roche LightCycler 480, Roche LightCyler 96, Bio-rad iCyler iQ, iQ5, CFX96, etc.Instruments requiring Low ROX calibration: ABI Prism7500/7500 Fast, QuantStudio®3 System, QuantStudio®5 System, QuantStudio®6 Flex System, QuantStudio®7 Flex System, ViiA7 System, Stratagene Mx3000/Mx3005P, Corbett Rotor Gene 3000, and others.Instruments requiring High ROX calibration: ABI Prism7000/7300/7700/7900, Eppendorf, ABI Step One/Step One Plus, etc.NOTE: High Rox and Low Rox are formulated as described in Method of Use 2.Applicable scopeThis product is designed for the absolute quantification of the concentration of Illumina platform second generation sequencing libraries. The end of the library contains Illumina P5 and P7 microarray binding sequences, the length of which does not exceed 1kb, and the concentration is not less than 0.02pM can be used for quantitative experiments. The qPCR Primer Mix provided in the kit contains the following two primer sequences:Primer 1:5'-AAT GAT ACG GCG ACC ACC GA-3' Primer 2: 5'-CAA GCA GAA GAC GGC ATA CGA-3'The primer sequence can be used in advance to confirm whether the library can be amplified by that primer pair.UsageAmplification template preparationThe library samples to be detected were diluted with TE (10 mM Tris-Cl, pH 8.0, 1 mM EDTA), and the concentration after dilution was as close as possible to the range of 0.01-60 pM. 4°C on ice was set aside.qPCR reaction system preparationThe desired cryopreservation reagent is pre-melted completely and mixed by inverting several times before preparation, then centrifuged briefly and set aside.The base reaction system for 20 µl was as follows:Reagent20 µl Reaction system2×SYBR qPCR MasterMix10 µlqPCR Primer Mix0.8 µlTemplate4 µlddH₂O5.2 µlDescription: High Rox model: 1 µl High Rox per 50 µl of reaction system; Low Rox model: 1 µl High Rox per 500 µl of reaction system.Prepare a sufficient amount of reaction system mixture according to the need, mix well and add to the reaction wells in a volume of 16 µl per well, add the same volume of TE to the blank control, and then add the prepared standards and diluted samples to the corresponding reaction wells in a volume of 4 µl/well. It is recommended to use 20 µl reaction system, if you need to carry out a smaller system reaction, the system components can be reduced in equal proportion.3.qPCR reaction programIf the average length of the library is greater than 700bp, the annealing/extension time should be increased appropriately.Refer to the specific instrument setup program for dissolution curves.data analysisStandard curve productionThe standard curve was plotted according to the data processing Excel sheet. The correlation coefficient R2 of the standard curve should be not less than 0.99, and the slope should be located between -3.1 and -3.6 when the Ct value is the longitudinal coordinate. If the parameters of the standard curve are unreasonable, it is recommended to repeat the experiment.DNA Standard NameDNA Standard ConcentrationDNA Standard A60 pMDNA Standard B6 pMDNA Standard C0.6 pMDNA Standard D0.06 pMDNA Standard E0.006 pMLibrary Concentration CalculationsThe difference in Ct between the three replicate wells of the experiment should be no more than 0.2, otherwise the invalid data should be deleted or the experiment should be repeated. Do not use the Ct outside the valid Ct range of the standard curve to calculate the concentration of the diluted libraries. Please refer to the data processing Excel of this product for the specific library concentration calculation method.matters needing attentionThese instructions should be read in detail before testing. It should be carried out by personnel with specialized experience or qualified by training.Mix gently by turning up and down, avoid foaming as much as possible, and centrifuge for a short time before use.Avoid repeated freezing and thawing of this product; repeated freezing and thawing may degrade product performance.When preparing reaction solutions, use new or non-contaminated tips and centrifuge tubes to prevent contamination as much as possible... Read More | The content of this cell is too long for an XLSX file (more than 32767 characters). Please use the CSV format for this export | N665925 Component 1 mL 5 mL Storage N665925A 2×SYBR qPCR Master Mix 1 1 mL 5 mL -20℃. Avoid freeze/ Thaw cycle. N665925B qPCR Primer Mix 1 100 µL 500 µL -20℃. Avoid freeze/ Thaw cycle. N665925C DNA Standard I 100 µL 500 µL -20℃. Avoid freeze/ Thaw cycle. N665925 Component 1 mL 5 mL Storage N665925A 2×SYBR qPCR Master Mix 1 1 mL 5 mL -20℃. Avoid freeze/ Thaw cycle. N665925B qPCR Primer Mix 1 100 µL 500 µL -20℃. Avoid freeze/ Thaw cycle. N665925C DNA Standard I 100 µL 500 µL -20℃. Avoid freeze/ Thaw cycle. N665925D DNA Standard II 100 µL 500 µL -20℃. Avoid freeze/ Thaw cycle. N665925E DNA Standard III 100 µL 500 µL -20℃. Avoid freeze/ Thaw cycle. N665925F DNA Standard IV 100 µL 500 µL -20℃. Avoid freeze/ Thaw cycle. N665925G DNA Standard V 100 µL 500 µL -20℃. Avoid freeze/ Thaw cycle. N665925H 50×High ROX 40 µL 200 µL -20℃. Avoid freeze/ Thaw cycle.Product IntroductionThis product is a real-time fluorescence quantitative PCR of the products after NGS library construction using a dye method (SYBR Green I).(qPCR). The kit provides the reaction mixes, DNA primer mixtures, standards and sample dilutions required for the qPCR process, making the reagent system complete and easy to use. The fluorescent dye SYBR Green I contained in the reaction mixture can bind to all double-stranded DNA; the GoldStar Taq DNA Polymerase used is a chemically modified new high-efficiency hot-start polymerase, and the activation of the enzyme needs to be incubated at 95℃ for 10 minutes. the product has high specificity, high amplification efficiency, and is able to quickly and accurately quantify the concentration of the constructed libraries. The product is highly specific and efficient in amplification, and can quickly and accurately quantify the concentration of the constructed library.ROX dye is used to correct the fluorescence signal error generated between wells of a quantitative PCR instrument, and is generally used in Real Time PCR amplifiers from ABI, Stratagene, and other companies. The excitation optics vary from instrument to instrument, so the concentration of ROX dye must be matched to the corresponding fluorescence quantitative PCR instrument.Instruments that do not require ROX calibration: Roche LightCycler 480, Roche LightCyler 96, Bio-rad iCyler iQ, iQ5, CFX96, etc.Instruments requiring Low ROX calibration: ABI Prism7500/7500 Fast, QuantStudio®3 System, QuantStudio®5 System, QuantStudio®6 Flex System, QuantStudio®7 Flex System, ViiA 7 System, Stratagene Mx3000/Mx3005P, Corbett Rotor Gene 3000, and others.Instruments requiring High ROX calibration: ABI Prism7000/7300/7700/7900, Eppendorf, ABI Step One/Step One Plus, etc.Note: High Rox and Low Rox are formulated as described in Use 2.Scope of applicationThis product is designed for absolute quantification of the concentration of Ion torrent platform second generation sequencing libraries. The end of the library contains Ion torrent P5 and P7 microarray binding sequences, the length of which does not exceed 1kb, and the concentration is not less than 0.005pM can be used to perform quantitative experiments with this product. The qPCR Primer Mix provided in the kit contains the following two primer sequences:Primer 1:5'-CCA TCT CAT CCC TGC GTG TC - 3' Primer 2: 5'-CCT CTC TAT GGG CAG TCG GTG AT-3'The primer sequence can be used in advance to confirm whether the library can be amplified by that primer pair.Usage1. Amplification template preparationThe library samples to be detected were diluted with TE (10 mM Tris-Cl, pH 8.0, 1 mM EDTA), and the concentration after dilution was as close as possible to the range of 0.05-50 pM. 4°C on ice was set aside.2. qPCR reaction system preparationThe desired cryopreservation reagent is pre-melted completely and mixed by inverting several times before preparation, then centrifuged briefly and set aside.The base reaction system for 20 µl was as follows:Reagent20 µl Reaction system2×SYBR qPCR MasterMix10 µlqPCR Primer Mix 10.8 µlTemplate4 µlddH₂O5.2 µlDescription: High Rox model: add 1 µl High Rox per 50 µl of reaction system;Low Rox model: 1 µl High Rox per 500 µl of reaction system.Prepare a sufficient amount of reaction system mixture according to the need, mix well and add to the reaction wells in a volume of 16 µl per well, add the same volume of TE to the blank control, and then add the prepared standards and diluted samples to the corresponding reaction wells in a volume of 4 µl/well. It is recommended to use 20 µl reaction system, if you need to carry out a smaller system reaction, the system components can be reduced in equal proportion.3. qPCR reaction program1) Please use 60-64℃ as a reference for setting range of annealing temperature, and increase the annealing temperature when non-specific reaction occurs.2) If the average length of the library is greater than 700bp, the annealing/extension time should be increased appropriately.data analysis1. Standard curve productionThe standard curve was plotted using Ct values in the valid range. The standard curve correlation coefficient R2 should not be less than 0.99 and the slope should lie between -3.1 and -3.6. If the standard curve parameters are not reasonable, it is recommended to repeat the experiment.DNA Standard NameDNA Standard ConcentrationDNA Standard I50 pMDNA Standard II5 pMDNA Standard III0.5 pMDNA Standard IV0.05 pMDNA Standard V0.005 pM2. Library concentration calculationThe difference in Ct between the three replicate wells of the experiment should be no more than 0.2, otherwise the invalid data should be deleted or the experiment should be repeated. Do not use the Ct outside the valid Ct range of the standard curve to calculate the concentration of the diluted libraries. Please refer to the data processing Excel of this product for the specific library concentration calculation method.matters needing attention1. Before testing, these instructions should be read in detail. It should be operated by personnel with professional experience or qualified by training.2. For use, please mix gently by turning up and down, avoid foaming as much as possible, and use it after centrifugation for a short period of time.3. Avoid repeated freezing and thawing of the product, repeated freezing and thawing may degrade the performance of the product.4. When preparing the reaction solution, please use new or non-contaminated tips and centrifuge tubes to prevent contamination as much as possible... Read More | The commonly used method of eukarYOtic gene expression regulation research is the detection of reporter genes, and bioluminescence is the most commonly used and effective means of reporter gene detection. Luciferase can catalyze the conversion of the substrate luciferin and emit photons. This The commonly used method of eukarYOtic gene expression regulation research is the detection of reporter genes, and bioluminescence is the most commonly used and effective means of reporter gene detection. Luciferase can catalyze the conversion of the substrate luciferin and emit photons. This product provides a rapid, sensitive and stable detection method for the expression of Renilla luciferase reporter gene in mammalian cells. Product characteristic:1.Rapid : Cell lysis was completed within 10-15 min ;2.Convenience : The reagent is easy to prepare, and the sample detection steps are simple;Instruction:1. Cell lysis ( 1 ) Remove the culture medium and gently wash with PBS ( adherent cells can be directly performed this operation, suspension cells should be centrifuged to collect cells ). Add 1 × Lysis Buffer ( diluted component A with sterile water at 4 : 1 ) according to the following scheme, and then place the culture plate on a micro-oscillator at room temperature for 15 min to fully lyse the cells. Note : The pyrolysis products can be stored at room temperature for 6 h, and can be stored at − 70 °C for a long time ( the pyrolysis products cannot be repeatedly frozen and thawed ). ( 2 ) The pyrolysis products after full pyrolysis were centrifuged at 10000-15000 rpm for 3-5 min. After centrifugation, the supernatant was moved into a new EP tube for subsequent detection. 2. Preparation of working fluid ( 1 ) Restore all components to room temperature. ( 2 ) Dilute component C into renilla luciferase working solution with component B, and the dilution method is to add 1 µL C component to 49 µL B component. 3.chemiluminescence value detection ( 1 ) According to the operation instructions of the instrument, the instrument with chemiluminescence detection function was opened, such as multifunctional microplate reader. The parameters were set, the determination time was 10 s, and the determination interval was 2 s. ( 2 ) The cell lysis products were added to the measuring tube according to the volume of 20 ~ 100 µL ( keep the same amount of samples each time ). 1 × Lysis Buffer was blank control. ( 3 ) 100 µL renilla luciferase working solution was added to determine the RLU ( Relative light unit ) value ( Shaking mixing function is recommended for microplate reader ). Note : The renilla luciferase working solution cannot be stored for a long time. It is now ready for use and is used once. Component:RenillaLuciferase Lysis Buffer;RenillaLuciferase Assay Buffer;CoelenterazineMatters needing attention:Scope of application: Matters needing attention:1.Please instantaneously centrifuge the product to the bottom of the tube before use, and then carry out subsequent experiments ; 2.Due to the influence of temperature on the enzyme reaction, the sample and reagent should be measured after reaching room temperature. 3.The strongest wavelength of bioluminescence catalyzed by renilla luciferase is 480 nm, in order to prevent interference between holes, it is recommended to use white opaque orifice plate ;4. B component is recommended to carry out small batch packing according to the experimental requirements ; 5.It is recommended to use it now to avoid repeated freezing and thawing ; 6.For your safety and health, please wear experimental clothes and wear disposable gloves. Scope of application:Study on gene expression regulation and promoter... Read More |