| Description | ApplicationFor the detection of lactic acid content.Enzymatic propertiesSource: MicroorganismEnzymology Committee Number: EC 1.1.3.2Molecular weight: 42 kDa (SDS-PAGE)Isoelectric point: pH 4.6Km value: 7.5 × 10-4 M (L-Lactate)Inhibitors: Hg²⁺, Pb²⁺ Optimum pH: 6.0-7.0 ApplicationFor the detection of lactic acid content.Enzymatic propertiesSource: MicroorganismEnzymology Committee Number: EC 1.1.3.2Molecular weight: 42 kDa (SDS-PAGE)Isoelectric point: pH 4.6Km value: 7.5 × 10-4 M (L-Lactate)Inhibitors: Hg²⁺, Pb²⁺ Optimum pH: 6.0-7.0 Figure 1 Optimum temperature: 50℃ Figure 2pH stability: 6.0-8.5 (25℃,16h) Figure 3 Thermal stability: Stable below 50℃ (pH7.0, 30min) Figure 4Stability: -25 ~ -15℃ standing store for 12 monthsMore than 90% activity Figure 5 Enzyme activity definitionUnit enzyme activity is defined as the amount of enzyme required to catalyze the production of 1µmol H2O2 per minute under the following conditions.Assay method for activity1. PrincipleThe amount of Quinoneimine dye produced by the reaction can be measured by spectrophotometer at 555 nm.2. Definition of enzyme activityUnit enzyme activity is defined as the amount of enzyme required to catalyze the production of 1 µmol H2O2 per minute under the following conditions.3. Reagent preparationReagent I: 0.2 MpH 6.5 potassium phosphate buffer.Reagent II: 1kU/mL peroxidase (POD) solution.Reagent III: 50 mM4-AA solution.Reagent IV: 0.5 MDL- lactic acid solution, pH6.5.Reagent V: 50 mMTOOS solution.Enzyme diluent: 10 mMpH7.0 potassium phosphate buffer containing 10 µM FAD.Sample: Dilute the enzyme with enzyme diluent to 0.05-0.2U/mL.Prepare the reaction mixture as follows:Reagent I is 10 mlReagent II 0.25 mLReagent III 1.5 mLReagent IV is 5 mLReagent V 1.5 mLDouble steam water to 50 ml4. Operation procedure4.1 Add 1mL reaction mixture into 1mL colorimetric dish.4.2 Preheat the reaction mixture at 37 °C for 5min.4.3 Add 20µL of enzyme liquid to be measured and mix well.4.4 The reaction is measured at 37 °C at 555 nm and the absorbance change (∆As) within 1min is recorded.* Replace enzyme liquid with enzyme diluent, other steps are the same, the absorbance of the resulting solution is blank absorbance (∆Ab)∆A=∆As-∆Ab5. Vitality computing1.020: total volume of reaction liquid (mL);0.020: enzyme liquid volume (mL);1: optical path length (cm);1/2:1 mole of hydrogen peroxide to generate 1/2 mole of quinone imide dye;df: dilution ratio;C: Enzyme concentration (mg/mL);39.2: Under standard reaction conditions, the millimolar absorption coefficient of the color group at 555 nm (cm2/µmol)... Read More | Inquire | Dezamizumab (anti-Serum Amyloid P) is a fully humanized recombinant monoclonal IgG1 anti-serum amyloid P component (SAP) antibody, with potential anti-amyloid activity. Dezamizumab (anti-Serum Amyloid P) triggers immunotherapeutic clearance of amyloid. Dezamizumab (anti-Serum Amyloid P) can be used Dezamizumab (anti-Serum Amyloid P) is a fully humanized recombinant monoclonal IgG1 anti-serum amyloid P component (SAP) antibody, with potential anti-amyloid activity. Dezamizumab (anti-Serum Amyloid P) triggers immunotherapeutic clearance of amyloid. Dezamizumab (anti-Serum Amyloid P) can be used in research of Amyloid light-chain (AL) amyloidosis... Read More | Parathyroid Hormone (1-34), human, biotinylated is a probe for the parathyroid hormone receptor, can be used for analyzing the interaction between parathyroid hormone and parathyroid hormone receptors in living cells and for purifying hormone-receptor comAppearance:SolidBiological Activity:Parathyroid Hormone (1-34), human, biotinylated is a probe for the parathyroid hormone receptor, can be used for analyzing the interaction between parathyroid hormone and parathyroid hormone receptors in living cells and for purifying hormone-receptor comAppearance:SolidBiological Activity:Parathyroid Hormone (1-34), human, biotinylated is a probe for the parathyroid hormone receptor, can be used for analyzing the interaction between parathyroid hormone and parathyroid hormone receptors in living cells and for purifying hormone-receptor com... Read More | Reverse transcriptases are enzymes encoded in retroviruses viral genome. The enzyme is responsible for transcription of the viral RNA to produce a dsDNA that can be inserted into the host genome.Reverse transcriptases are multifunctional enzymes. These enzymes exhibit an RNA and DNA directed Reverse transcriptases are enzymes encoded in retroviruses viral genome. The enzyme is responsible for transcription of the viral RNA to produce a dsDNA that can be inserted into the host genome.Reverse transcriptases are multifunctional enzymes. These enzymes exhibit an RNA and DNA directed polymerase activity. In addition reverse transcriptases catalyze the degradation of RNA in an RNA-DNA hybrid. The exonucleolytic activity proceeds in a 5' ---> 3' direction. The RNA or DNA directed activity requires a template (RNA or DNA) and a primer. The following is a schematic illustration of the reaction:Unit definition: One unit incorporates 1 nanomole of tritiated dTMP into acid insoluble productsusing poly(A)•oligo(dT) 12-18 as the template-primer in 20 minutes at 37° C.ApplicationsHIV reverse transcriptase is used for research on the AIDS primer. However it can be substituted for AMV reverse transcriptase, which is mainly used to transcribe mRNA into double stranded cDNA, that can be inserted into prokaryotic vectors. The enzyme can also be used with either single stranded DNA or RNA templates to make probes for use in hybridization experiments. It can be used for labeling the termini of DNA fragments with protruding 5' termini. The enzyme can also be used to sequence DNAs by the dideoxy chain termination method of Sanger when the Klenow fragment of E. coli DNA polymerase I, or the T7 DNA polymerase yield unsatisfactory results.Reagents0.05 M Tris, pH 8.3, containing 0.008 M MgCl21 mg/ml polyadenylic acid in water (poly A)DNA primer:Oligo d(T)12-181 µ mole dTTP/mL stock solution[methyl-3H]-Thymidine 5'-triphosphate (3H-dTTP)dTTP-3H-dTTP working mix: Add 1-2 µL 3H-dTTP per mL of 100 nmol/mL dTTP in order to obtain 1 to 1.5 x 105 cpm/mL1% bovine serum albumin10% perchloric acid1% perchloric acidBuffer substrate reaction mixture: Prepare fresh, immediately before use:For each 1mL of reaction mixture required mix:0.7 mL Tris/HCl, pH 8.3, 0.008M MgCl20.3 mL 1 mg/mL poly(A) RNA template0.005 mL 0.02 mg/mL oligo d(T)12-18 DNA primer0.02mL 1% BSAEnzymedilute as needed wtih 0.05M Tris/HCl, pH 8.3, 0.008M MgCl2 containing 0.1 mg/mL (1%) BSAProcedurePipette into each tube as follows:Buffer substrate mix:0.1 mLdTTP-3H3-dTTP:0.1 mLEnzyme:5-10 µLIncubate 20 minutes at 37° C. Stop reaction by adding 1 ml 10% cold perchloric acid. Filter through 0.2µ manifold filters used with Millipore vacuum manifold. Wash four times using 2mL 1% cold perchloric acid/wash. Transfer filter to scintillation vials. Add 2mL Cellosolve (or 2-methoxyethanol) to dissolve filter. Filters become opaque upon addition of Cellosolve. Make sure filters are dissolved before proceeding. Add 10mL scintillation cocktail and count.Calculation... Read More |