| Description | IntroductionHexokinase (HK, EC 2.7.1.1) is widely present in animals, plants, microorganisms, and cultured cells. It is the first key enzyme in the glucose degradation pathway, catalyzing the conversion of glucose to glucose-6-phosphate, which serves as the intersection point of glycolysis and the IntroductionHexokinase (HK, EC 2.7.1.1) is widely present in animals, plants, microorganisms, and cultured cells. It is the first key enzyme in the glucose degradation pathway, catalyzing the conversion of glucose to glucose-6-phosphate, which serves as the intersection point of glycolysis and the pentose phosphate pathway.Assay PrincipleHK catalyzes the synthesis of Glucose-6-Phosphate (G6P) from Glucose. Glucose-6-Phosphate Dehydrogenase (G6PDH) then further catalyzes the dehydrogenation of G6P, generating NADPH. NADPH has a characteristic absorption peak at 340 nm.Component48T96TStorageExtraction Buffer60 mL60 mL×22-8℃Reagent Ⅰ14 mL28 mL2-8℃Reagent Ⅱ1EA1EA-20℃. Store in the dark.Reagent Ⅲ1EA1EA-20℃. Store in the dark.Note: Please check the quantity of all components before starting the experiment. An additional 10% of each component is provided for standard curve preparation or pilot experiments.Required Materials and Equipment (Not Provided)TypeNameNotesInstrumentMicroplate ReaderMust be capable of measuring absorbance at 340 nmConsumables96-well UV PlateUV-transparent plateReagentsPhysiological SalineFor sample washingOtherHomogenizer (for tissue samples), Incubator, Ice box, Refrigerated centrifuge, Adjustable pipettes and tipsUsing a multichannel pipette is recommended for high-throughput experiments to improve efficiencyInstructions for Use1. Reagent Preparation试剂名称 Reagent NamePreparationNotesExtraction BufferReady-to-use; equilibrate to room temperature (RT) before use.Store at 4°CReagent ⅠReady-to-use; equilibrate to room temperature (RT) before use.Store at 4°CWorking Reagent ⅡPrepare immediately before use:• For 48T: Dissolve contents of Reagent Ⅱ in 10.8 mL Reagent Ⅰ• For 96T: Dissolve contents of Reagent Ⅱ in 21.6 mL Reagent ⅠKeep protected from light on ice during the experiment. Aliquot and store unused portions at -20°C protected from light for up to one month. Avoid repeated freeze-thaw cycles.Working Reagent ⅢPrepare immediately before use:1. Dissolve Reagent Ⅲ: • For 48T: in 0.5 mL Reagent Ⅰ • For 96T: in 1 mL Reagent Ⅰ2. Dilute the dissolved Reagent Ⅲ 10-fold with Reagent Ⅰ to make the Working Reagent Ⅲ.Keep protected from light on ice during the experiment. Aliquot and store unused portions at -20°C protected from light for up to one month. Avoid repeated freeze-thaw cycles.2. Sample PreparationNote: The use of fresh samples is highly recommended. HK activity decreases significantly upon sample freezing.2.1 Animal/Plant TissuesWeigh approximately 0.1 g of tissue. Add 1 mL of Extraction Buffer and homogenize on ice. Centrifuge the homogenate at 8000 g, 4°C for 10 min. Collect the supernatant and keep it on ice for assay.2.2 Cells, Bacteria, or FungiCollect 5×10⁶ cells/bacteria/fungi. Wash with pre-cooled physiological saline and centrifuge at 800 g for 2 min. Discard the supernatant. Add 1 mL of Extraction Buffer and disrupt the cells by sonication on ice (5 min total, 20% power or 200 W, pulse 3s on/7s off, repeat 30 times). Centrifuge the lysate at 8000 g, 4°C for 10 min. Collect the supernatant and keep it on ice for assay.2.3 Serum (or Plasma)Assay directly.3. Assay Procedure3.1 Microplate Reader Preparation: Preheat for at least 30 min. Set the wavelength to 340 nm.3.2 Working Solution Preparation: Prepare immediately before use. Each well requires 190 µL of Working Solution. It is recommended to prepare enough for 2 extra wells to account for pipetting loss.For a single well: Mix 180 µL of Working Reagent Ⅱ with 10 µL of Working Reagent Ⅲ.The Working Solution must be prepared fresh. Incubate it at 37°C for 10 min before the assay.3.3 Assay Setup: Pipette into wells of the 96-well UV plate as follows:ReagentTest Well (µL)Sample10Working Solution1903.4 Absorbance Measurement: Immediately after adding the Working Solution, mix thoroughly and measure the absorbance at 340 nm at 10 seconds (A₁) and again after exactly 10 minutes of incubation at 37°C (at 10 min 10 sec, A₂).4. Result CalculationThe following derived and simplified calculation formulas are provided and are equivalent.4.1 Data ProcessingCalculate ΔA = A₂ - A₁.4.2 Sample HK Activity Calculation① Based on Sample Mass (U/g)Definition: One unit of activity is defined as the amount of enzyme that generates 1 nmol of NADPH per minute per gram of sample.Calculation:HK (U/g) = [ΔA × Vₜₒₜₐₗ ÷ (ε × d) × 10⁹] ÷ (Vₛₐₘₚₗₑ / Vₛₐₘₚₗₑₜₒₜₐₗ × W) ÷ T × nSimplified Formula: HK (U/g) = 643.09 × ΔA ÷ W × n② Based on Cell/Bacteria/Fungi Count (U/10⁴)Definition: One unit of activity is defined as the amount of enzyme that generates 1 nmol of NADPH per minute per 10⁴ cells/bacteria/fungi.Calculation:HK (U/10⁴) = [ΔA × Vₜₒₜₐₗ ÷ (ε × d) × 10⁹] ÷ (Vₛₐₘₚₗₑ / Vₛₐₘₚₗₑₜₒₜₐₗ × 500) ÷ T × nSimplified Formula: HK (U/10⁴) = 643.09 × ΔA ÷ 500 × n③ Based on Liquid Volume (U/mL)Definition: One unit of activity is defined as the amount of enzyme that generates 1 nmol of NADPH per minute per milliliter of liquid.Calculation:HK (U/mL) = [ΔA × Vₜₒₜₐₗ ÷ (ε × d) × 10⁹] ÷ (Vₛₐₘₚₗₑ / Vₛₐₘₚₗₑₜₒₜₐₗ) ÷ T × nSimplified Formula: HK (U/mL) = 643.09 × ΔA × n④ Based on Protein Concentration (U/mg prot)Definition: One unit of activity is defined as the amount of enzyme that generates 1 nmol of NADPH per minute per milligram of protein.Calculation:HK (U/mg prot) = [ΔA × Vₜₒₜₐₗ ÷ (ε × d) × 10⁹] ÷ (Vₛₐₘₚₗₑ × Cpr) ÷ T × nSimplified Formula: HK (U/mg prot) = 643.09 × ΔA ÷ Cpr × nParameter Description:ε: NADPH molar extinction coefficient = 6.22 × 10³ L/mol/cmd: Light path of the 96-well UV plate = 0.5 cm10⁹: Conversion factor (1 mol = 1 × 10⁹ nmol)Vₜₒₜₐₗ: Total reaction volume = 200 µL = 2 × 10⁻⁴ LVₛₐₘₚₗₑ: Volume of supernatant added to the reaction = 10 µL = 1 × 10⁻⁵ LVₛₐₘₚₗₑₜₒₜₐₗ: Volume of Extraction Buffer added = 1 mLCpr: Sample protein concentration (mg/mL)W: Sample mass (g)T: Reaction time = 10 min500: Cell/Bacteria/Fungi count = 5 × 10⁶, expressed in units of 10⁴n: Sample dilution factorPrecautionsBefore formal testing, it is recommended to perform a pilot experiment using 2-3 samples expected to have significant activity differences.For tissue and cell samples, protein concentration measurement can be used to normalize results between samples.This kit is compatible with spectrophotometer detection. Adjust the preparation volumes of detection reagents proportionally according to the spectrophotometer's requirements.Biochemical reagents are generally irritating and biologically toxic. For your safety and health, please implement appropriate biosafety precautions throughout the experiment. Wear a lab coat, mask, gloves, head cover, and other protective equipment. Perform experiments in a fume hood or biosafety cabinet.This product is for scientific research use only. It is not intended for clinical diagnosis.Frequently Asked Questions (FAQ)1. What should I do if the measured ΔA is too high or too low?If ΔA > 0.5, the sample HK activity is too high. Dilute the supernatant appropriately with Extraction Buffer (include the dilution factor *n* in the calculation) or shorten the reaction time to 5 min.If ΔA < 0.005, the sample HK activity is too low. Increase the sample volume (keep the Working Solution volume constant and adjust the variable in the formula accordingly) or extend the reaction time (e.g., to 15 or 30 min).2. Can multiple samples be assayed simultaneously for high-throughput detection?The initial reaction rate is fast. It is not recommended to run a large number of samples simultaneously. If a multichannel pipette is unavailable, it is best for two individuals to perform the experiment together—one person timing and the other measuring the absorbance—to ensure the accuracy of the results... 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 | Product introduction:Product introduction:Cell Cycle Assay Kit Plus ( Cell Cycle Assay Kit Plus ) has certain applicability for live cells and fixed cell cycle detection. For different types of cells, whether it is applicable or not needs to be determined after testing. Cell Cycle Product introduction:Product introduction:Cell Cycle Assay Kit Plus ( Cell Cycle Assay Kit Plus ) has certain applicability for live cells and fixed cell cycle detection. For different types of cells, whether it is applicable or not needs to be determined after testing. Cell Cycle Assay Kit Plus ( Cell Cycle Assay Kit Plus ) uses RedNucleus I staining to detect cell cycle. RedNucleus I is a far-infrared nucleic acid dye with cell membrane permeability, which can quickly enter living cells, specifically bind to DNA, and perform cell cycle detection on living cells without RNase digestion. Compared with the traditional PI staining method, the cells do not need to be broken or fixed, and the operation is simpler. RedNucleus I is a fluorescent dye of double-stranded DNA, and the fluorescence intensity after binding to double-stranded DNA is proportional to the content of double-stranded DNA. The intracellular DNA content can be measured by flow cytometry, and then the cell cycle analysis can be carried out according to the distribution of DNA content. After RedNucleus I staining, assuming that the fluorescence intensity of G0 / G1 phase cells is 1, the theoretical value of the fluorescence intensity of G2 / M phase cells containing two copies of genomic DNA is 2, and the fluorescence intensity of S phase cells undergoing DNA replication is between 1-2. In addition, RedNucleus I is compatible with dyes such as Horizon BV / BUV, FITC and R-PE, and can be periodically detected after sample staining.The kit is usually used to detect the cell cycle of cultured adherent or suspended cells. If it is used for cell cycle detection of tissues, the tissues must be digested into a single cell state.Matters needing attention:1. please centrifuge the product to the bottom of the tube immediately before use, and then conduct subsequent experiments. 2. this product is applicable to the detection of living cells and fixed cell cycle with certain limitations. Whether it is applicable to different types of cells needs to be determined after testing. If fixation is needed, it is recommended to use ice bath pre cooling 75-80% ethanol -20 ℃ to fix cells overnight. 3. fluorescent dyes have quenching problems. Please try to avoid light during storage and use to slow down fluorescence quenching. 4. for your safety and health, please wear experimental clothes and disposable gloves.Instruction: Experimental materials ( self-provided ):①cell lines or other cell samples ( self-prepared ) ;②This kit ; ③ trypsin ( self-prepared ) ;④ Cell culture medium containing FBS ( self-prepared ) ; Experimental procedure: 1.Preparation of cell samples : ( 1 ) ( This step is for adherent cells, if suspended cells, can be carried out directly step ( 2 ) ) Digest cells with trypsin, add cell culture medium, gently blow away cells, collected into the centrifuge tube. Note : The number of cells on the machine needs to reach 50,000 and above, so the initial number of cells collected needs to be sufficient. ( 2 ) Centrifuged about 1000 g for 3-5 min to precipitate cells. Carefully remove the supernatant, add about 1 mL of ice bath pre-cooled 1 × staining buffer ( 10 × staining buffer diluted with diH2O at 1 : 10 ), re-suspend the cells. Repeat once. ( 3 ) Centrifuged about 1000 g for 3-5 min to precipitate cells. After the supernatant was discarded, 1 mL of culture medium was added to re-suspend the cells ( for fixed cells, 1 × PBS can also be used to re-suspend ). Gently flick the bottom of the centrifuge tube to properly disperse the cells to avoid cell aggregation. 2.Staining : 4 µL of RedNucleus I staining solution was added to each tube of cell samples, slowly and fully mixed, and incubated at room temperature in dark for 20 min ( or incubated at 37 ° C in dark for 5-10 min ). The optimal incubation time of different cells is different, and the staining time can be adjusted and optimized according to the actual staining effect to obtain a more ideal staining effect. 3.Flow cytometry detection and analysis : Excited at 638 nm by flow cytometry, it is recommended to detect in RL3 or FL4 channels, or use RL1 and RL2 channels. Cell DNA content analysis and light scattering analysis were performed using appropriate analysis software.Scope of application:Cell cycle detection... Read More | Hydrogen peroxide, a reactive oxygen species produced through the metabolism of molecular oxygen, serves as both an intracellular signaling messenger and a source of oxidative stress. Hydrogen peroxide is generated in cells via multiple mechanisms such as the NOX-mediated ROS production by Hydrogen peroxide, a reactive oxygen species produced through the metabolism of molecular oxygen, serves as both an intracellular signaling messenger and a source of oxidative stress. Hydrogen peroxide is generated in cells via multiple mechanisms such as the NOX-mediated ROS production by neutrophils and macrophages (respiratory burst) or by the dismutase of superoxide anions produced as a result of electron leak during mitochondrial respiration. Abnormal hydrogen peroxide production contributes to oxidative cell damage and the progression of diseases such as asthma, atherosclerosis, osteoporosis, and neurodegeneration.Intracellular hydrogen peroxide assay kit has been used to measure intracellular hydrogen peroxide levels... Read More | Product content:M665754Component25 TStorageM665754ATris-HCl, 1 mM, PH 8.01 mL-20℃. Avoid freeze/thaw cycleM665754BE. coli Poly(A) Polymerase, 5 U/µL15 µL-20℃. Avoid freeze/thaw cycleM665754C10×Poly(A) Polymerase Buffer80 µL-20℃. Avoid freeze/thaw Product content:M665754Component25 TStorageM665754ATris-HCl, 1 mM, PH 8.01 mL-20℃. Avoid freeze/thaw cycleM665754BE. coli Poly(A) Polymerase, 5 U/µL15 µL-20℃. Avoid freeze/thaw cycleM665754C10×Poly(A) Polymerase Buffer80 µL-20℃. Avoid freeze/thaw cycleM665754DATP, 10 mM15 µL-20℃. Avoid freeze/thaw cycleM665754ERT Primer, 25 µM90 µL-20℃. Avoid freeze/thaw cycleM665754F5×SuperRT Buffer120 µL-20℃. Avoid freeze/thaw cycleM665754GUltraPure dNTP Mix, 10 mM each30 µL-20℃. Avoid freeze/thaw cycleM665754HSuperRT, 200 U/µL15 µL-20℃. Avoid freeze/thaw cycleM665754IRNase-Free Water1 mL-20℃. Avoid freeze/thaw cycle Product Introduction:This kit uses the method of adding a poly (A) tail at the 3 'end of miRNA to give miRNA a Poly (A) tail, followed by reverse transcription using Oligo (dT) - Universal tag universal reverse transcription primers to synthesize the first stranded cDNA corresponding to miRNA. The miRNA cDNA first strand synthesis kit contains all the reagents required for the miRNA 3 'end Poly (A) tail modification process and the reverse transcription process after modification. This kit has a very high Poly (A) modification and reverse transcription efficiency, which can range from 1 ng-2 µ The first strand of cDNA corresponding to miRNA was effectively obtained from the total RNA of g. And the operation is simple and fast, which can be used to simultaneously detect multiple miRNAs from a synthesized cDNA reaction. This not only reduces errors and saves samples, but also achieves high-throughput detection.Note: This kit must be used in conjunction with the miRNA fluorescence quantitative detection kit.Self prepared experimental materials: 1 ng-2 µ Total RNA of g, or 0.1 ng-1 µ Small molecule RNA of g.Notes:To prevent RNase pollution, attention should be paid to the following aspects:1. Use plastic products and gun heads without RNase to avoid cross contamination.2. Glassware should be dry baked at a high temperature of 180 ℃ for 4 hours before use. Plastic containers can be soaked in 0.5 M NaOH for 10 minutes, thoroughly rinsed with water, and then sterilized under high pressure.3. The solution should be prepared using water without RNase.4. Operators should wear disposable masks and gloves, and change gloves frequently during the experiment.Usage:A. The process of miRNA adding Poly (A) tail:1.based on the amount of RNA used, dilute the total RNA of 10 mM ATP with 1 mM Tris (pH 8.0) according to the following formula: ATP dilution coefficient=5000/__ ngExample: If the initial amount of total RNA is 100 ng, then the ATP dilution coefficient is 5000/100=50. About to dilute ATP 50 times (1 µ 10 mM ATP plus 49 for l µ 1 mM Tris at pH 8.0.2. Add the following reagents to the pre cooled RNase free reaction tube in the ice bath to a total volume of 25 µ L. reagent 25 µlReaction system final concentration total RNA* X µl Up to 2 µg 10×Poly(A) Polymerase Buffer 2.5 µl 1× Diluted ATP in step "1" 1 µl / E. coli Poly(A) Polymerase, 5U/µl 0.5 µl 2.5 U RNase-Free Water up to 25 µl /*The total RNA used in the reaction must contain small molecule RNA.This process can also directly use small molecule RNA (recommended dosage of 2-5) µ L. Please determine the amount added based on the abundance of the target miRNA.3. Gently mix the above reaction solution and briefly centrifuge to collect the liquid at the bottom of the tube. Incubate at 37 ℃ for 15 minutes. After this process is completed, immediately proceed with the synthesis of the first strand cDNA or temporarily store it at -20 ℃. If long-term storage is required, it is recommended to store at -80 ℃.B. The process of synthesizing the first strand of modified miRNA cDNA:1. Add the reagents in the table below to the pre cooled RNase free reaction tube in the ice bath until the final volume reaches 20µl: reagent 20 µlReaction system The above Poly (A) reaction solution 4 µl UltraPure dNTP Mix ,10 mM each 1 µl RT Primer ,25 µM 3 µl 5×SuperRT Buffer 4 µl SuperRT ,200 U/µl 0.5 µl RNase-Free Water 7.5 µl2. Gently mix the above reaction solution and briefly centrifuge to collect the liquid at the bottom of the tube. Incubate at 42 ℃ for 50 minutes.3.85 ℃ for 5 minutes and terminate the reaction. The synthesized cDNA reaction solution can be directly used for fluorescence quantitative detection experiments or stored at -20 ℃ for future use... Read More |