| Description | Glutathione is a tripeptide containing a γ-amide bond and a sulfhydryl group, composed of glutamate, cysteine, and glycine. It is widely found in animal and plant tissues and microorganisms. In living organisms, it helps maintain normal immune system function and has antioxidant and Glutathione is a tripeptide containing a γ-amide bond and a sulfhydryl group, composed of glutamate, cysteine, and glycine. It is widely found in animal and plant tissues and microorganisms. In living organisms, it helps maintain normal immune system function and has antioxidant and detoxifying effects. Glutathione exists in two forms: reduced (GSH) and oxidized (GSSG). GSSG, also known as glutathione disulfide, is formed by the oxidation of two glutathione molecules. GSSG can be reduced back to GSH by glutathione reductase; therefore, it exists primarily in the reduced form in organisms. The ratio of reduced to oxidized glutathione (GSH/GSSG) serves as a key dynamic indicator for assessing the cellular redox state. Detection Principle: Endogenous GSH in the sample is masked by 2-vinylpyridine. Under the catalysis of glutathione reductase (GR), GSSG is reduced to GSH. The generated GSH then reacts with 5,5'-Dithiobis-(2-nitrobenzoic acid) (DTNB) to produce yellow-colored 5-thio-2-nitrobenzoic acid (TNB), which has a characteristic absorption peak at 412 nm. The GSSG content is quantified by measuring the change in absorbance. Detection Range: 1-20 µM Sensitivity: 1 µM Applicable Samples: Animal/plant tissues, blood cells, cells, bacteria, serum (plasma).O1492795Component96TStorageO1492795AExtraction Buffer70 mL×22-8℃O1492795BInhibitor210 µL-20℃. Store in the dark.O1492795CAssay Buffer20 mL2-8℃O1492795DGR14 µL2-8℃. Store in the dark.O1492795EGR Cofactor2 EA-20℃. Store in the dark.O1492795FChromogen2 EA2-8℃. Store in the dark.O1492795GStandard1 EA2-8℃. Store in the dark.User-Provided Instruments and ReagentsTypeNameNotesInstrumentMicroplate ReaderCapable of measuring absorbance at 412 nm.Consumables96-well MicroplateStandard transparent plate.ReagentsPBS / Deionized WaterFor washing samples / Preparing reagents.OthersHomogenizer (for tissue samples), water bath, ice bucket, low-temperature centrifuge, adjustable pipettes and tipsUsing a multichannel pipette for large-scale detection can improve efficiency.Experimental Procedure1. Reagent PreparationReagent NameReagent PreparationPrecautionsExtraction BufferReady-to-use; equilibrate to room temperature before use.Store at 4°C.Diluted Extraction BufferAdd 500 µL Extraction Buffer to 4.5 mL deionized water.Obtained by 10-fold dilution of Extraction Buffer.InhibitorReady-to-use; equilibrate to room temperature before use.Store at -20°C protected from light. Toxic and irritant; recommended to handle in a fume hood.Assay BufferReady-to-use; equilibrate to room temperature before use.Store at 4°C.GR DilutionBefore use, prepare by adding 1 µL GR to 20 µL deionized water per sample.Prepare freshly before use.GR Cofactor DilutionBefore use, add 1.5 mL deionized water to each vial; equilibrate to room temperature protected from light.After dissolution, store at -20°C protected from light for up to 1 month.Chromogen DilutionBefore use, add 1.5 mL deionized water to each vial; equilibrate to room temperature protected from light.After dissolution, store at 4°C protected from light for up to 1 month.GSSG StandardDissolve in 1 mL of Diluted Extraction Buffer.20 mM; After dissolution, aliquot and store at -20°C protected from light for up to 1 month.2. Standard PreparationTake 100 µL of the 20 mM GSSG standard and dilute with 900 µL Diluted Extraction Buffer to obtain a 2 mM GSSG standard solution.Take 10 µL of the 2 mM GSSG standard and dilute with 990 µL Diluted Extraction Buffer to obtain a 20 µM GSSG standard solution.Further dilute the standard as shown in the table below. A standard curve must be prepared for each experiment. Diluted standard solutions are unstable and must be used within 4 hours.Standard Working Solution20µM Standard (µL)Diluted Extraction Buffer (µL)Concentration (µM)110002028020163604012440608520804610902759513. Sample PreparationNote: Fresh samples are recommended. If not used immediately, samples can be stored at -80°C for up to 10 days. Because the Extraction Buffer contains a protein precipitant, the supernatant cannot be used for protein concentration determination. If protein content needs to be measured, prepare another identical sample using deionized water instead of Extraction Buffer.3.1 Animal/Plant Tissue Samples:Use fresh tissue samples whenever possible. Weigh 0.1 g of tissue, add 1 mL of pre-cooled Extraction Buffer, and homogenize quickly on ice (pre-cool the homogenizer on ice). Centrifuge the homogenate at 8000 g, 4°C for 10 min. Collect the supernatant and keep on ice for detection.3.2 Serum/Plasma Samples:Use fresh serum (plasma) whenever possible. Centrifuge the collected serum (plasma) at 600 g, 4°C for 10 min. Within 30 minutes, aspirate the supernatant into another tube. Add an equal volume of Extraction Buffer, mix, then centrifuge at 8000 g, 4°C for 10 min. Collect the supernatant and keep on ice for detection.3.3 Cell or Bacterial Samples:Use fresh cells (bacteria) whenever possible; avoid using frozen cells (bacteria). Collect 5×10⁶ cells (bacteria). Wash twice with 1 mL of pre-cooled PBS (resuspend in PBS, centrifuge at 600 g, 4°C for 10 min). Add 3 times the volume of Extraction Buffer relative to the cell (bacterial) pellet to resuspend the cells (bacteria). Disrupt by ultrasound on ice (power 20% or 200 W, ultrasonicate for 3 s, interval 7 s, repeat 30 times). Centrifuge at 8000 g, 4°C for 10 min. Collect the supernatant and keep on ice for detection.Note: Cells can also be extracted using a freeze-thaw method (not suitable for bacteria): Resuspend cells and subject to 2-3 rapid freeze-thaw cycles (freeze in liquid nitrogen, thaw in a 37°C water bath). Centrifuge at 8000 g, 4°C for 10 min. Collect the supernatant and keep on ice for detection.4. Assay Steps4.1 Microplate Reader Preparation: Preheat for at least 30 minutes, set wavelength to 412 nm.4.2 Assay System Setup (Step 1 - Pre-treatment): Perform the following operations in 1.5 mL EP tubes. This step must be done in EP tubes. Do not add Inhibitor directly to the 96-well plate as it may corrode the plate. Inhibitor is toxic and irritant; recommended to handle in a fume hood.ReagentBlank Tube (µL)Standard Tube (µL)Test Tube (µL)Sample003Deionized Water30027Standard0300Inhibitor1.51.51.54.3 Mix well and incubate at 37°C for 30 minutes. This becomes the "Mixture".4.4 Assay System Setup (Step 2 - Reaction): Perform the following operations in a 96-well plate.ReagentBlank Well (µL)Standard Well (µL)Test Well (µL)Mixture212121Assay Buffer140140140GR Dilution222GR Cofactor Dilution202020Chromogen Dilution2020204.5 Absorbance Measurement: Mix thoroughly after addition. Read the absorbance at 412 nm (A1), recorded as A1 blank, A1 standard, and A1 test. Then incubate at 37°C protected from light for 10 minutes. Quickly read the absorbance at 412 nm again (A2), recorded as A2 blank, A2 standard, and A2 test. 5. Result Calculation The following provides both the derived formula and the simplified calculation formula, which are completely equivalent. 5.1 Data Processing Calculate ΔA = A2 - A1 for each. Then calculate ΔΔA standard = ΔA standard - ΔA blank And ΔΔA test = ΔA test - ΔA blank 5.2 Standard Curve Plotting 5.2 Standard Curve Plotting Plot the standard curve with standard concentration as the y-axis and ΔΔA standard as the x-axis. Substitute ΔΔA test into the equation to obtain the y value (µM). 5.3 Sample GSSG Content Calculation (1) Based on sample mass: GSSG (nmol/g) = y × V standard ÷ V sample × V extract ÷ W × n = 10 × y ÷ W × n (2) Based on cell or bacterial count: GSSG (nmol/10⁴) = y × V standard ÷ V sample × V extract ÷ 500 × n = 0.02 × y × V extract × n (3) Based on liquid volume: GSSG (nmol/mL) = y × V standard ÷ V sample × 2 × n = 20 × y × n (4) Based on protein concentration: GSSG (nmol/mg prot) = y × V standard ÷ V sample ÷ Cpr × n = 10 × y ÷ Cpr × n Parameter Description: 1 µM = 1 nmol/mL; V standard : Volume of standard added, 30 µL; V sample : Volume of sample added, 3 µL; V extract : Volume of Extraction Buffer added, 1 mL (for cells/bacteria, use the actual volume used); W: Sample mass, g; n: Sample dilution factor; Cpr: Sample protein concentration, mg/mL; 500: Cell or bacterial count, in units of 10⁴; 2: Dilution factor for liquid samples (added equal volume of Extraction Buffer).6. Result PresentationTypical Standard Curve: y = 8.0042x + 0.212, R² = 0.9997Example-1: 0.1 g of rat liver tissue was processed and assayed according to the procedure using a 96-well plate. Measured: ΔA test = A2 test - A1 test = 0.386 - 0.120 = 0.266 ΔA blank = A2 blank - A1 blank = 0.132 - 0.097 = 0.035 ΔΔA test = ΔA test - ΔA blank = 0.266 - 0.035 = 0.231 Substituting ΔΔA test into the standard curve equation gives y = 2.061 µM. Calculated based on sample mass: GSSG (nmol/g) = y × V standard ÷ V sample × V extract ÷ W × n = 10 × y ÷ W × n = 206.1 nmol/g.Precautions1. It is recommended to perform preliminary experiments using 2-3 samples expected to have significant differences before formal testing.2. The samples extracted with this kit are suitable for the detection of oxidized glutathione (GSSG). Because the extraction buffer contains a protein precipitant, the supernatant cannot be used for protein concentration determination. If protein content needs to be measured, prepare another identical sample using deionized water instead of the extraction buffer. For protein concentration determination, Aladdin BCA Protein Quantification Kit (B665595) or Ready-to-Use BCA Protein Quantification Kit (R1491648) are recommended.3. This kit is compatible with spectrophotometer detection. Adjust the preparation volume of detection reagents proportionally according to the spectrophotometer's requirements.4. 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.5. 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.6. This product is for scientific research use only. Not intended for clinical diagnosis.Frequently Asked Questions Q: What should I do if the sample ΔA test is too high or too low? Frequently Asked Questions Q: What should I do if the sample ΔA test is too high or too low? A: If the sample ΔA test is greater than the ΔA standard of the 20 µM standard, the GSSG content in the sample is too high. Dilute the sample appropriately with deionized water (multiply by the dilution factor in the calculation). If the sample ΔA test is less than 0.005, increase the sample amount.Q: Can blood cell samples be detected?A: Yes, blood cell samples can be detected. Centrifuge the collected anticoagulated blood at 600 g, 4°C for 10 min. Discard the upper plasma and wash the pellet 2-3 times with 3 volumes of PBS (resuspend blood cells in PBS, centrifuge at 600 g, 4°C for 10 min). Add an equal volume of Extraction Buffer, mix, and let stand at 4°C for 10 min. Centrifuge at 8000 g, 4°C for 10 min. Collect the supernatant and keep on ice for detection... Read More | Product Descriptionalpha-L-fucoside fucohydrolase, alpha-L-fucosidase, alpha-(1-3,4) fucosidaseAlpha (1-3,4) Fucosidase The enzyme is very efficient and recognises α1-3,4 fucosylated glycans (e.g. Lewis X/A epitopes, including their sialylated counterparts) and hydrolyses terminal α1-3 andProduct Descriptionalpha-L-fucoside fucohydrolase, alpha-L-fucosidase, alpha-(1-3,4) fucosidaseAlpha (1-3,4) Fucosidase The enzyme is very efficient and recognises α1-3,4 fucosylated glycans (e.g. Lewis X/A epitopes, including their sialylated counterparts) and hydrolyses terminal α1-3 and α1-4 fucosyl linkages in these substrates without the need to remove sialic acid moieties.For removing core fucose linked α-(1-6) to the core GlcNAc of a GlcNAc-GlcNAc disaccharide structure we recommend our Alpha-(1-6) Fucosidase.• Non-sialidase dependant hydrolysis of antennary fucose moieties• Effective on both glycopeptides and free glycans• Highly specific (α1-3,4 fucosylated glycans)• Kit includes enzyme plus reaction buffer.• Sufficient for up to 50 samplesα(1-3,4) Fucosidase is useful for:nbsp;nbsp;Fucose linkage determinationnbsp;nbsp;Deglycosylating glycoproteins with Lewis structuresContentsAlpha-(1-3,4)-Fucosidase – 200 mM citrate buffer pH 6 containing 250 mM NaCl5x Reaction Buffer – 250 mM sodium phosphate pH 6... Read More | Product content:ComponentG665836100 rxnsG665836100 rxnsG665836100 rxns2×GoldStar Probe One Step Buffer1.4 ml1.4 ml1.4 mlGoldStar Probe One Step EnzymeMix100 µl100 µl100 µl50×Low ROX-50 µl-50×High ROX--50 µlRNase-Free Water1.5 ml1.5 ml1.5 mlProduct IntroductionProduct content:ComponentG665836100 rxnsG665836100 rxnsG665836100 rxns2×GoldStar Probe One Step Buffer1.4 ml1.4 ml1.4 mlGoldStar Probe One Step EnzymeMix100 µl100 µl100 µl50×Low ROX-50 µl-50×High ROX--50 µlRNase-Free Water1.5 ml1.5 ml1.5 mlProduct Introduction:This product is a specialized reagent kit for one-step Real Time RTqPCR using probe methods (TaqMan, Molecular Beacon, etc.). When using this product for Real Time RT qPCR reaction, reverse transcription and quantitative PCR are requiredConducted in the same reaction system, there is no need to add reagents or open the tube cap during the reaction process, avoiding contaminationThis has improved the efficiency of the experiment. This product has high detection sensitivity, strong fluorescence signal, and high signal-to-noise ratio, making it very suitable forDetection of RNA viruses and other trace amounts of RNA. The special buffering system it contains can enable reverse transcriptase to interact with DNA polymeraseMaximize the effectiveness and improve reaction efficiency. By using this product, a wider linear range can be obtained, which is beneficial for the target base Due to more accurate quantification, good repeatability, and high reliability.ROX dye is used to correct the fluorescence signal error generated between wells in quantitative PCR instruments, and is generally used for ABIReal Time PCR amplification equipment from companies such as Stratagene. The excitation optical systems of different instruments vary, thereforeThe concentration of ROX dye must be matched with the corresponding fluorescence quantitative PCR instrument.matters needing attention:1. Before using the reagents in this reagent kit, please gently mix them upside down to avoid foaming as much as possible, and use them after brief centrifugation. 2. This product uses RNA as a template for one-step RT-PCR experiments, and RNase contamination should be avoided during the operation process,2.It is recommended to perform RNA operations in a dedicated area, using specialized instruments and consumables. Operators should wear masks and disposable gloves and frequently change gloves. Experimental consumables should be treated with a 0.1% DEPC (diethyl pyrocarbonate) aqueous solution at 37 ℃ for 12 hours and sterilized under high pressure for 30 minutes before use.3. Each reagent in this kit should avoid repeated freezing and thawing as much as possible, as repeated freezing and thawing may lead to a decrease in product performance.4. This reagent kit must use specific primers, and the selection of primers can be based on specific experiments. The quality of primer design directly affects the results of RT qPCR reaction. When designing primers, GC content, primer length, and primer should be considered Due to factors such as location, secondary structure of PCR products, it is recommended to use professional primer design software for design.5. It is recommended to use specific probes in this reagent kit and use professional design software for design. Usage: The following examples are typical reaction systems and conditions. In practical operation, corresponding improvements and optimizations should be made based on the differences in template, primer structure, and target fragment size. (Please prepare the reaction solution on ice)1. Dissolve the RNA template, primers, 2xGoldStar Probe One Step Buffer, GoldStar Probe One Step EnzymeMix, and RNase Free Water and place them on ice for later use.2. PCR reaction system: reagent 25 µl Reaction system final concentration 2×GoldStar Probe One Step Buffer 12.5 µl 1× Forward Primer,10 µM 0.5 µl 0.2 µM 1) Reverse Primer,10 µM 0.5 µl 0.2 µM 1) Probe ,10 µM 0.5 µl 0.2 µM 2) GoldStar Probe One Step EnzymeMix 1.0 µl / RNA Template X µl 10 pg – 100 ng3) 50×Low ROX or High ROX (optional)4) 0.5 µl 1× RNase-Free Water up to 25 µl /Note: 1) Typically, the primer concentration is 0.2 µ M can achieve good results, ranging from 0.1 to 1.0 µ M serves as a reference for setting the range. 2) The concentration of the probe used is related to the fluorescent quantitative PCR instrument used, the type of probe, and the type of fluorescent labeling substance. Please refer to the instrument manual or the specific usage requirements of each fluorescent probe for concentration adjustment during actual use.3) The amount of RNA templates is usually based on 10 pg-100 ng as a reference. Due to the different copy numbers of target genes contained in templates of different species, gradient dilution can be applied to the templates to determine the optimal template usage.4) The excitation optical systems of different instruments vary, and depending on the instrument used for fluorescence quantification, 50 x Low ROX or 50 x High ROX can be added.3. Mix well, centrifuge briefly, and collect the solution to the bottom of the tube.4. RT-PCR reaction conditions steps temperature time / Reverse Transcription 45℃ 10 min / PCR pre denaturation 95℃ 10 min / denaturation 95℃ 15s 30-40cycle Annealing/Extension 60℃ 45s 30-40cycleAttention:1) The hot start enzyme used in this product must be activated under pre denaturation conditions of 95 ℃ and 5-10 minutes.2) It is recommended to use a two-step PCR reaction program. If good experimental results cannot be obtained due to the use of primers with lower Tm values, a three-step PCR amplification can be attempted. The annealing temperature should be set within the range of 56 ℃ -64 ℃ as a reference... Read More | DescriptionUse in combination with the KitAlysis Bench Top Inertion Box (Z742064) or a glove box/glove bag to provide inert atmosphere for kit set-up.Designed to be used with KitAlysis High-Throughput Screening Kits.Components:24-Well Reaction BlockTorque ScrewdriverSmall screwdriver to easily DescriptionUse in combination with the KitAlysis Bench Top Inertion Box (Z742064) or a glove box/glove bag to provide inert atmosphere for kit set-up.Designed to be used with KitAlysis High-Throughput Screening Kits.Components:24-Well Reaction BlockTorque ScrewdriverSmall screwdriver to easily remove torqued screws after reaction is complete.10 Reaction Block Replacement Screws... Read More | Product content: M665794Component125 TStorageM665794A2×miRNA qPCR Mixture (ROX)2×750 µL-20℃. Avoid freeze/thaw cycleM665794BReverse Primer, 10 µM60 µL-20℃. Avoid freeze/thaw cycleM665794CddH2O1.5 mL-20℃. Avoid freeze/thaw cycle Product Introduction:This kitProduct content: M665794Component125 TStorageM665794A2×miRNA qPCR Mixture (ROX)2×750 µL-20℃. Avoid freeze/thaw cycleM665794BReverse Primer, 10 µM60 µL-20℃. Avoid freeze/thaw cycleM665794CddH2O1.5 mL-20℃. Avoid freeze/thaw cycle Product Introduction:This kit uses the principle of SYBR Green I chimeric fluorescent dye method for miRNA fluorescence quantitative PCR detection. The kit includes 2 x miRNA qPCR Mixture and Reverse Primer required for detection. 2 x miRNA qPCR Mixture is a new generation pre mixed form of fluorescence quantitative PCR detection reagent specially developed for miRNA quantitative detection. The fluorescent dye SYBR Green I contained in it can bind to all double stranded DNA, making the product suitable for detecting different target sequences without the need to synthesize specific labeled probes. The GoldStar Taq DNA polymerase is a chemically modified and highly efficient thermal starter enzyme, coupled with a unique buffer system, which enhances reaction specificity, sensitivity, and enables accurate quantification of miRNA over a wider range. The 2x miRNA qPCR Mixture contains ROX dye and is suitable for fluorescence quantitative PCR instruments that require ROX as a calibration dye.Note: This kit must be used in conjunction with the miRNA cDNA first strand synthesis kit.Self prepared experimental materials: qPCR upstream primer.Forward Primer design principles:1. Follow the most common principles of primer design.2.Based on mature miRNA sequences, replacing U with T is the most basic and simplest design method.3.The Tm value of the downstream primer provided in the reagent kit is 63.6 ℃, and the Tm value of the upstream primer should be designed to be around 63.6 ℃ as much as possible.4. If the Tm value of the primer directly designed according to principle "2" is too low, several bases (preferably G or C bases) can be added to the 5 'end of the primer; One or several A bases can also be added at the 3 'end; Alternatively, both the 5 'and 3' ends can be modified simultaneously.5.If the Tm value of a primer designed directly according to principle "2" is too high, several bases can be removed from the 5 'or 3' end of the primer.Notes:1. Before using the reagent, please gently mix it upside down to avoid foaming, and use it after a brief centrifugation.2. The amount of miRNA first strand cDNA added should not exceed 10% of the volume of Real time PCR.3. For special detection systems, high content of cDNA templates can easily lead to non-specific amplification. Dilute cDNA appropriately (10 or 100 times dilution) based on the abundance of detected miRNAs.4. The 2x miRNA qPCR Mixture in this product contains SYBR Green I and ROX dyes. When storing this product or preparing PCR reaction solution, strong light exposure should be avoided.5. Avoid repeated freezing and thawing of this product. Repeated freezing and thawing may cause a decrease in product performance. This product can be stored at -20 ℃ for long-term storage. If frequent use is required in the short term, the 2xmiRNA qPCR Mixture can be stored at 2-8 ℃. However, the Reverse primer still needs to be stored at -20 ℃.Operation steps:1. Melt 2 x miRNA qPCR Mixture and Reverse Primer at room temperature (10 µ M). 2. When using, please gently mix the 2x miRNA qPCR Mixture upside down to avoid foaming, and use after brief centrifugation. If the reagent is not well mixed, its reaction performance will decrease.3. Place the reagent on ice and prepare the reaction system according to the following table: reagent volume final concentration 2×miRNA qPCR Mixture(ROX) 10 µl 1× Forward primer(10 µM) 0.4µl 0.2 µM Reverse primer(10 µM) 0.4µl 0.2 µM MiRNA first strand cDNA X µl — ddH2O up to 20 µl —4. The reaction program is set as follows:Attention!The pre denaturation reaction of this product must be completed at 95 ℃ for 10 minutes! Note: 1) The hot start enzyme used in this product must be activated under pre denaturation conditions of 95 ℃ and 10 minutes.2) The annealing temperature should be set at 60-64 ℃ as a reference range. When non-specific reactions occur, the annealing temperature can be increased... Read More |