| Description | Acetate Kinase (ACK) is primarily found in microorganisms. It catalyzes the conversion of acetate and ATP to acetyl phosphate and ADP, serving as a key enzyme in bacterial carbon and energy metabolism, and plays a central role particularly in the methanogenesis metabolism of archaea.Assay Acetate Kinase (ACK) is primarily found in microorganisms. It catalyzes the conversion of acetate and ATP to acetyl phosphate and ADP, serving as a key enzyme in bacterial carbon and energy metabolism, and plays a central role particularly in the methanogenesis metabolism of archaea.Assay PrincipleACK catalyzes the synthesis of Acetyl Phosphate and ADP from Sodium Acetate and ATP. Pyruvate Kinase then catalyzes the conversion of ADP and Phosphoenolpyruvate (PEP) to ATP and Pyruvate. Subsequently, Lactate Dehydrogenase catalyzes the reduction of Pyruvate by NADH to produce Lactate and NAD⁺. The rate of oxidation of NADH to NAD⁺, measured by the decrease in absorbance at 340 nm, reflects ACK activity.Component50TStorageExtraction Buffer80 mL2-8℃Reagent 11EA-20℃Reagent 24EA-20℃Reagent 32EA-20℃Reagent 42EA-20℃Reagent PreparationReagent 1: Before use, centrifuge the vial to bring the powder to the bottom. Add 8.4 mL of distilled water to dissolve. Aliquot and store unused portions at -20°C.Reagent 2: Before use, centrifuge each vial to bring the powder to the bottom. Add 0.6 mL of distilled water to each vial to dissolve. Aliquot and store unused portions at -20°C. Avoid repeated freeze-thaw cycles. Use within 3 days.Reagent 3: Before use, centrifuge each vial to bring the powder to the bottom. Add 0.6 mL of distilled water to each vial to dissolve thoroughly. Can be aliquoted and frozen. Avoid repeated freeze-thaw cycles.Reagent 4: Before use, centrifuge each vial to bring the powder to the bottom. Add 0.6 mL of distilled water to each vial to dissolve thoroughly. Can be aliquoted and frozen. Avoid repeated freeze-thaw cycles.Required Materials and Equipment (Not Provided)UV spectrophotometer, 1 mL quartz cuvette (1 cm light path), refrigerated benchtop centrifuge, constant temperature incubator, pipettes, mortar and pestle, ice, and distilled water.Sample Preparation1.Tissue Samples: Weigh approximately 0.1 g of tissue. Add 1 mL of Extraction Buffer and homogenize on ice. Centrifuge the homogenate at 12,000 rpm (approx. 13,000-15,000 g), 4°C for 10 min. Collect the supernatant and keep it on ice for assay.Note: For larger samples, use an Extraction Buffer volume (mL) to tissue mass (g) ratio between 5:1 and 10:1.2.Bacteria/Cell Samples: Collect cells by centrifugation and discard the supernatant. Add 1 mL of Extraction Buffer per 5 million cells/bacteria. Disrupt the cells/bacteria by sonication on ice (20% power or 200W, pulse 3s on/10s off, repeat 30 times). Centrifuge the lysate at 12,000 rpm, 4°C for 10 min. Collect the supernatant and keep it on ice for assay.Note: For larger samples, use an Extraction Buffer volume (mL) to cell count (10⁴ cells) ratio between 1:1000 and 1:5000.Assay Procedure:1.Preheat the UV spectrophotometer for at least 30 minutes. Set the wavelength to 340 nm. Zero the instrument with distilled water.2.Pre-warm all reagents at 37°C for 5-15 minutes.3.Optional Master Mix: A Master Mix can be prepared just before use by combining Extraction Buffer, Reagent 1, Reagent 2, Reagent 3, and Reagent 4 in a 400:160:40:20:20 ratio (e.g., for one assay: 400µL + 160µL + 40µL + 20µL + 20µL = 640µL). Pipette 640 µL of this Master Mix per cuvette. Prepare the Master Mix fresh for immediate use.4.Pipette into a 1 mL quartz cuvette (1 cm light path) in the following order:ReagentVolume (µL)Extraction Buffer400Reagent 1160Reagent 240Reagent 320Reagent 420Mix thoroughly and incubate at 37°C for 5 min.Sample60Mix thoroughly immediately after adding the sample. Record the initial absorbance (A₁) at 340 nm at 10 seconds. Record the absorbance again (A₂) after exactly 10 minutes. Calculate ΔA = A₁ - A₂.Notes & Troubleshooting:1.If ΔA is close to zero, consider extending the reaction time (e.g., to 20 min) to read A₂. Use the new reaction time (T) in the calculation. Alternatively, increase the sample volume V₁ (e.g., to 100 µL, decrease Extraction Buffer accordingly) and use the new V₁ and T in the calculation.2.If the initial absorbance A₁ is too high (e.g., >2, common in deeply pigmented plant samples), reduce the sample volume V₁ and use the new V₁ in the calculation. Alternatively, add a small amount of activated charcoal to the sample supernatant, mix, let stand for 5 min, centrifuge at 12,000 rpm, 4°C for 10 min, and use the clarified supernatant for assay.3.If ΔA is greater than 0.6, reduce the reaction time (e.g., to 5 min) and use the new time (T) in the calculation.4.If the decrease is not linear, read the absorbance every 10 seconds and select a linear segment for calculating ΔA. Use the corresponding time interval (T) for the calculation.ACK Activity Calculation:General Parameters:ε (NADH molar extinction coefficient) = 6.22 × 10³ L/mol/cmd (Cuvette light path) = 1 cmV (Total extraction volume) = 1 mLV₁ (Sample volume in reaction) = 0.06 mL (60 µL)V₂ (Total reaction volume) = 0.0007 L (700 µL)T (Reaction time) = 10 min500 (Cell/Bacteria count in ten-thousands: 500 × 10⁴ = 5 million)W (Sample mass, g)Cpr (Sample protein concentration, mg/mL)1. Based on Sample Protein Concentration:Definition: One unit of activity is defined as the amount of enzyme that consumes 1 nmol of NADH per minute per mg of protein.Calculation:ACK Activity (nmol/min/mg prot) = [ΔA ÷ (ε × d) × V₂ × 10⁹] ÷ (Cpr × V₁ / V) ÷ TSimplified Formula: ACK (nmol/min/mg prot) = 187.6 × ΔA ÷ Cpr2. Based on Sample Fresh Weight:Definition: One unit of activity is defined as the amount of enzyme that consumes 1 nmol of NADH per minute per gram of fresh tissue.Calculation:ACK Activity (nmol/min/g fresh weight) = [ΔA ÷ (ε × d) × V₂ × 10⁹] ÷ (W × V₁ / V) ÷ TSimplified Formula: ACK (nmol/min/g fresh weight) = 187.6 × ΔA ÷ W3. Based on Bacterial/Cell Density:Definition: One unit of activity is defined as the amount of enzyme that consumes 1 nmol of NADH per minute per 10⁴ cells/bacteria.Calculation (for 5 million cells in 1 ml extract):ACK Activity (nmol/min/10⁴ cell) = [ΔA ÷ (ε × d) × V₂ × 10⁹] ÷ (500 × V₁ / V) ÷ TSimplified Formula: ACK (nmol/min/10⁴ cell) = 0.38 × ΔAPrecautionsBefore formal assay, it is essential to perform a pilot test with 2-3 samples expected to have significant differences in activity... Read More | This reagent kit is suitable for simultaneously isolating and purifying genomic DNA, total RNA, and total protein from the same cell or tissue sample. This product does not require dividing the sample into three parts to extract DNA, RNA, and protein separately, nor does it require dividing the This reagent kit is suitable for simultaneously isolating and purifying genomic DNA, total RNA, and total protein from the same cell or tissue sample. This product does not require dividing the sample into three parts to extract DNA, RNA, and protein separately, nor does it require dividing the purified total nucleic acid into two parts before purifying DNA and RNA separately. Therefore, it can maximize the recovery of DNA, RNA, and protein, and can be used for the purification of nucleic acid and protein in small and rare samples. The purified DNA, RNA, and protein can be eluted separately and directly applied to various downstream molecular biology operations. This reagent kit does not contain toxic substances such as phenol and chloroform, and does not require ethanol precipitation. The operation is simple and fast. The extracted genomic DNA can be used for PCR, Real time PCR, SouthBlot, Dot Blot, comparative genomic hybridization (CGH), gene analysis, and SNP analysis; Total RNA can be applied in experiments such as RT-PCR, cDNA synthesis, Northern Blot, Dot Blot, and gene chips; Total protein can be applied in electrophoresis and Western Blot, among others. A665492 Component 50 T Storage A665492A Buffer RL 35 mL RT A665492B Buffer RW1 40 mL RT A665492C Buffer RW2 (concentrate) 11 mL RT A665492D RNase-Free Water 10 mL RT A665492E Buffer GW1 (concentrate) 13 mL RT A665492F Buffer GW2 (concentrate) 15 mL RT A665492G Buffer GE 15 mL RT A665492H Buffer PZ 60 mL RT A665492I Buffer PLS 15 mL RT A665492J Spin Columns DM with Collection Tubes 50 sets RT A665492K Spin Columns RM with Collection Tubes 50 sets RT A665492L Collection Tubes 100 EA RT A665492M RNase-Free Centrifuge Tubes (1.5 mL) 100 EA RTSelf prepared reagents:β- Mercaptoethanol (for newly opened or RNA extraction), 70% ethanol (prepared with water without RNase), and anhydrous ethanol.Preparation and important precautions before the experiment: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, while 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.2. The sample should avoid repeated freeze-thaw cycles, otherwise it will affect the quality of DNA, RNA, and protein extraction. The sample can be stored in Buffer RL at -70 ℃ for one month.3. Please add Buffer RL before use β- Mercaptoethanol, 1 ml Buffer RL with 10 µ L β- Mercaptoethanol. join β- The buffer RL room temperature of mercaptoethanol can be stored for one month.Before the first use, anhydrous ethanol should be added to Buffer RW2, Buffer GW1, and Buffer GW2 according to the instructions on the reagent bottle label.5. Before use, please check if there is any crystallization or precipitation in the Buffer RL. If there is any crystallization or precipitation, please dissolve it again in a 56 ℃ water bath.6. All centrifugation steps are performed using a desktop centrifuge at room temperature. Operation steps:1. Material processing1a The cells cultured on the wall should be first processed into cell suspension (maximum extraction amount of 107 cells), collected cells, discarded the culture medium, and added 600 cells µ L Buffer RL (check if it has been added before use) β- Mercaptoethanol), repeatedly blow and beat to fully decompose.Attention: It is necessary to discard the culture medium completely, otherwise it will affect the lysis and subsequent nucleic acid purification steps.1b Take no more than 30 mg of animal tissue, grind it into fine powder with liquid nitrogen, and add 600 µ Buffer RL (check if it has been added before use) β- Mercaptoethanol, or directly add 600 µ L Buffer RL (check if it has been added before use) β- Mercaptoethanol, homogenization treatment.Attention: The homogenate should be sufficient, otherwise it will affect RNA production.2. Centrifuge the solution obtained in the previous step at 12000 rpm (~13400 × g) for 3-5 minutes. Carefully add the supernatant to the spin columns DM that have been loaded into the collection tube. Centrifuge at 12000 rpm for 30-60 seconds and collect the filtrate. Place the adsorption column DM in a new 2 ml collection tube at room temperature or 4 ℃ for DNA extraction. Attention: Ensure that there is no liquid residue on the adsorption column, and if necessary, repeat centrifugation until all liquids pass through the membrane of the adsorption column. Total RNA extraction3. Add 1 volume of 70% ethanol (prepared without RNase water) to the filtrate obtained in step 2, and mix well.4. Add all the solution obtained in the previous step to the spin columns RM that have been loaded into the collection tube. If the solution cannot be added completely at once, it can be transferred in stages. Centrifuge at 12000 rpm for 20 seconds and retain the liquid in the collection tube for protein extraction.5. Place the adsorption column RM into a new 2ml collection tube and add 700 to the adsorption column RM µ L Buffer RW1, centrifuge at 12000 rpm for 20 seconds, discard the waste liquid in the collection tube, and place the adsorption column RM into the recovery manifold.6. Add 500 to the adsorption column RM µ Buffer RW2 (check if anhydrous ethanol has been added before use), centrifuge at 12000 rpm for 20 seconds, discard the waste liquid in the collection tube, and place the adsorption column RM back into the 2 ml collection tube.7. Repeat step 6.Centrifuge at 8.12000 rpm for 2 minutes and discard the waste liquid from the collection tube. Place the adsorption column at room temperature for a few minutes to thoroughly air dry. Attention: The purpose of this step is to remove residual ethanol from the adsorption column, which can affect subsequent enzymatic reactions (such as enzyme digestion, PCR, etc.).9. Place the adsorption column RM in a new 1.5 ml centrifuge tube without RNase, and add 30-50 to the middle of the adsorption column RM µ Place RNase Free Water at room temperature for 2-5 minutes, centrifuge at 12000 rpm for 1 minute, collect RNA solution, and store RNA at -70 ℃ to prevent degradation.Attention:1) The volume of RNase Free Water should not be less than 30 µ l. Small volume affects the recovery rate.2) If you want to increase RNA production, you can use 30-50 µ Repeat step 9 for the new RNase Free Water.3) If you want to increase the RNA concentration, you can add the obtained solution back to the adsorption column and repeat step 9.Genomic DNA extraction10. Add 500 to the adsorption column DM µ Buffer GW1 (check if anhydrous ethanol has been added before use), centrifuge at 12000 rpm for 20 seconds, discard the waste liquid in the collection tube, and place the adsorption column DM into the recovery tube.11. Add 500 to the adsorption column DM µ Buffer GW2 (check if anhydrous ethanol has been added before use), centrifuge at 12000 rpm for 2 minutes, discard the waste liquid in the collection tube, and place the adsorption column DM into the recovery tube. Attention: To further improve DNA purity, repeat step 11.Centrifuge at 12.12000 rpm for 2 minutes and discard the waste liquid from the collection tube. Place the adsorption column DM at room temperature for a few minutes to thoroughly dry the ethanol in the column. Attention: The purpose of this step is to remove residual ethanol from the adsorption column, which can affect subsequent enzymatic reactions (such as enzyme digestion, PCR, etc.).13. Place the adsorption column DM in a new centrifuge tube and add 100 to the middle of the adsorption column DM by suspending it in the air µ L Buffer GE, leave at room temperature for 2-5 minutes, centrifuge at 12000 rpm for 2 minutes, collect DNA solution, and store DNA at -20 ℃.Attention:1) The volume of Buffer GE should not be less than 100 µ l. Small volume affects the recovery rate.2) If we want to increase DNA production, we will µ Add a new Buffer GE to the adsorption column and repeat step 13; If you want to increase the DNA concentration, you can add the DNA eluent obtained in step 13 back onto the adsorption column and repeat step 13.Protein extraction14. Add 1 volume of Buffer PZ to the RNA extraction effluent (i.e. the solution obtained in step 4), mix well, and let it stand at room temperature for 10-30 minutes.Centrifuge at 15.12000 rpm for 10 minutes and discard the supernatant.16. Add 500 µ Centrifuge at 12000 rpm for 1 minute with 70% ethanol, and try to absorb the supernatant as much as possible.17. Place the centrifuge tube at room temperature for a few minutes to dry the precipitate.Attention: The purpose of this step is to remove residual ethanol. Excessive drying can make protein precipitation difficult to dissolve, and incomplete drying of residual ethanol can affect protein loading.18. Add 100 µ L Buffer PLS to obtain protein solution.Attention:1) The protein samples obtained by dissolving with Buffer PLS are suitable for SDS-PAGE and Western Blot detection, but not for Bradford method for protein quantification. If Bradford method is needed for protein quantification, 5% SDS can be used to dissolve the protein, or suitable protein dissolution buffer can be selected based on downstream experiments.2) The amount of dissolved protein buffer added is determined based on the initial sample size and specific downstream test requirements.3) The dissolved protein can be stored at -20 ℃ for several months and at 2-8 ℃ for several days.If protein samples require SDS-PAGE electrophoresis, the following operations can be performed:19. Add protein loading buffer to the protein sample, denature at 95 ℃ for 5-10 minutes, and cool the sample to room temperature. Centrifuge at 20.12000 rpm for 1 minute, extract the supernatant for downstream SDS-PAGE or Western blot tests... 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 | This reagent kit is for research purposes only. Purpose of use: This reagent kit is used to determine the content of lactose in serum, plasma, and related liquid samples.Experimental principle:This kit applies enzyme-linked immunosorbent assay to determine the level of lactose in the sample. This reagent kit is for research purposes only. Purpose of use: This reagent kit is used to determine the content of lactose in serum, plasma, and related liquid samples.Experimental principle:This kit applies enzyme-linked immunosorbent assay to determine the level of lactose in the sample. Purified lactose antibodies were coated on a microplate to produce solid-phase antibodies. Lactose was added to the microplate of the coated monoclonal antibody, along with HRP labeled lactose antigens, to compete for binding. After thorough washing, the substrate TMB was added for colorimetry. The depth of sample color is negatively correlated with the content of lactose in the sample. Measure the absorbance (OD value) at a wavelength of 450nm using an enzyme-linked immunosorbent assay (ELISA) reader, and calculate the content of lactose in the sample through a standard curve.Kit composition:130times concentrated washing solution20ml×1 bottle8.1Standard S1(80µg/L)0.5ml×1bottle2Enzyme-linked immunosorbent assay6ml×1 bottle8.2Standard S2(40µg/L)0.5ml×1bottle3Enzyme labeling coated plate96 holes x 1 pieces8.3Standard S3(20µg/L)0.5ml×1bottle4Color reagent A solution6ml×1 bottle8.4Standard S4(10µg/L)0.5ml×1bottle5Color developer B solution6ml×1 bottle8.5Standard S5(5µg/L)0.5ml×1bottle6Stop solution6ml×1 bottle9Instructions1 copy7Sample Diluent6ml×1 bottle10Microplate Sealers2 sheetsSpecimen requirements:1. Specimen processing:(1) After collecting the water sample, it is repeatedly freeze-thawed three times at -20 ℃, and then filtered through glass fiber for future reference(2) The tissue samples should be extracted using butanol: methanol: water (5:25:70 V: V: V), or extracted according to relevant literature. The experiment should be conducted as soon as possible after extraction. If the experiment cannot be conducted immediately, the specimen can be stored at -20 ℃ for future reference2. Samples containing NaN3 cannot be detected as NaN3 inhibits the activity of horseradish peroxidase (HRP).Operation steps:1. Sample addition: Set up standard wells, blank wells (blank control wells do not include samples and enzyme-linked immunosorbent assay reagents, the other steps are the same), and sample wells to be tested. Add 50 microliters to the standard well on the enzyme-linked immunosorbent assay (ELISA) plate, and first add 40 diluents to the sample well to be tested µ l. Then add 10 more samples to be tested µ L (The final dilution of the sample is 5 times). Add the sample to the bottom of the enzyme-linked immunosorbent assay (ELISA) plate well, avoiding touching the well wall as much as possible. Gently shake and mix well.2. Enzyme addition: Add 50 enzyme labeled reagents to each well µ l. Excluding blank holes.3. Warm incubation: Seal the plate with a sealing film and incubate at 37 ℃ for 60 minutes.4. Solution preparation: Dilute 30 times the concentrated washing solution with distilled water and set aside for later use5. Washing: Carefully remove the sealing film, discard the liquid, shake dry, fill each well with washing solution, let it stand for 30 seconds, then discard. Repeat this process 5 times and pat dry.6. Color development: Add color development agent A50 to each well first µ l. Add color developer B50 again µ l. Gently shake and mix well, and develop color at 37 ℃ in the dark for 15 minutes7. Termination: Add 50% termination fluid to each hole µ l. Terminate the reaction (at this point, the blue color immediately turns yellow).8. Measurement: Zero the blank hole and sequentially measure the absorbance (OD value) of each hole at a wavelength of 450nm. The measurement should be conducted within 15 minutes after adding the termination solution.Calculation:Draw a standard curve on a coordinate paper with the concentration of the standard substance as the x-axis and the OD value as the y-axis. Based on the OD value of the sample, determine the corresponding concentration from the standard curve; Multiply it by the dilution factor; Alternatively, a linear regression equation can be used to calculate the standard curve using the concentration and OD value of the standard substance. The OD value of the sample can be substituted into the equation to calculate the sample concentration, which is then multiplied by the dilution factor to obtain the actual concentration of the sample.Notes:1. The kit should be balanced at room temperature for 15-30 minutes before use when taken out from the cold storage environment. If the enzyme coated plate is not used up after opening, the Flat noodles should be stored in a sealed bag.2. Concentrated detergent may precipitate crystals. When diluted, it can be heated in a water bath to aid in dissolution. Washing does not affect the results.3. A sampler should be used for each step of sample addition, and its accuracy should be regularly calibrated to avoid experimental errors. It is best to control the sample addition time within 5 minutes. If there are a large number of specimens, it is recommended to use a firing gun for sample addition.4. Please make a standard curve at the same time as each measurement, preferably with a re hole. If the content of the substance to be tested in the sample is too high (the OD value of the sample is greater than the OD value of the first well of the standard well), please dilute the sample diluent by a certain multiple (n times) before measurement. When calculating, please multiply the total dilution multiple (x n x 5).5. The sealing film is only for one-time use to avoid cross contamination.6. Please store the substrate in dark.7. Strictly follow the instructions and determine the test results based on the reading of the enzyme-linked immunosorbent assay (ELISA) reader8. All samples, washing liquids, and various waste should be treated as infectious substances.9. The components of this reagent with different batch numbers shall not be mixed.Detection range:two µ G/L-90 µ G/L... Read More | Products contentN665993Component240 TStorageN665993AIndex N501 Primers for Illumina240 µL-20℃. Avoid freeze/ Thaw cycle.N665993BIndex N925-N948 Primers for Illumina24×10 µL-20℃. Avoid freeze/ Thaw cycle. Products Introduction This kit is a companion kit to the transposase-Products contentN665993Component240 TStorageN665993AIndex N501 Primers for Illumina240 µL-20℃. Avoid freeze/ Thaw cycle.N665993BIndex N925-N948 Primers for Illumina24×10 µL-20℃. Avoid freeze/ Thaw cycle. Products Introduction This kit is a companion kit to the transposase-based Rapid DNA Library Construction Kit for Illumina platform library construction. Each kit contains one N5 primer and 24 N7 primers, which can be used to prepare 24 different single-ended Index libraries. All reagents provided in the kits have been subjected to stringent quality control and functional validation to maximize the stability and reproducibility of library construction. The libraries can be used for sequencing on Illumina platforms such as HiSeq X-10/4000/2500/2000 and MiSeq. Provide your own instruments, reagents and consumables1. Magnetic frame: DynaMagTM-2 is recommended.2. DNA purification and recovery kit: It is recommended to use Kangwei DNA purification and recovery kit by magnetic bead method.3. DNA building kit: It is recommended to use the Kangwei Century transposase method second-generation sequencing rapid DNA building kit.4. Anhydrous ethanol.5. Reaction tubes: It is recommended to use low adsorption PCR tubes with 1.5 ml centrifuge tubes;Tip: It is recommended to use a high quality filter tip to prevent contamination of kits and library samples. Pre-experiment Preparation and Important NotesPlease centrifuge briefly before opening the cap so that the liquid collects at the bottom of the tube to avoid cross-contamination between different primers. ProcedureFor the use of the CombiVision Second Generation Sequencing Multisample Primer Kit, please follow the CombiVision Second Generation Sequencing Rapid DNA Library Kit protocol.Index N501 Primer for IlluminaIndex N901-N996 Primer for Illumina... Read More |