| Description | The HA tag consists of the amino acid sequence YPYDVPDYA (residues 98-106 of human influenza hemagglutinin). It has minimal impact on the tertiary structure of the target foreign protein and can be easily fused to either the N- or C-terminus, making it a popular choice for recombinant protein The HA tag consists of the amino acid sequence YPYDVPDYA (residues 98-106 of human influenza hemagglutinin). It has minimal impact on the tertiary structure of the target foreign protein and can be easily fused to either the N- or C-terminus, making it a popular choice for recombinant protein expression. Anti-HA Agarose Resin is based on a 4% agarose gel matrix, which minimizes non-specific binding of host cell proteins, making it suitable for both the purification and immunoprecipitation (IP) of HA-tagged fusion proteins.Aladdin Anti-HA Agarose Resin is stored in a solution containing 0.1% ProClin 300, with a settled gel to storage solution ratio of 1:1. The product specification refers to the actual volume of the settled gel.ParameterValue / DescriptionMatrix4% Agarose MicrospheresLigandAnti-HA Mouse Monoclonal AntibodyParticle Size Range45~165 µmBinding Capacity>1 mg HA-tagged protein / mL resinMaximum Pressure0.1 MPa, 1 barStorage Conditions0.1% ProClin 300, 2~8℃Shelf Life2 yearsProtocol1. Sample PreparationEnsure the sample solution has appropriate ionic strength and pH before loading. Dilute the sample or cell culture supernatant with equilibration buffer, or dialyze the sample against equilibration buffer.Clarify the sample by centrifugation or filtration through a 0.22 µm or 0.45 µm membrane to reduce impurities, improve purification efficiency, and prevent column clogging.2. Buffer PreparationIt is recommended to filter water and buffers through a 0.22 µm or 0.45 µm membrane before use.Equilibration Buffer: 10 mM Tris, 0.15 M NaCl, pH 7.4Wash Buffer: 10 mM Tris, 0.15 M NaCl, 0.05% Tween-20, pH 7.4Chemical Elution Buffers:0.1 M Glycine-HCl, pH 2.0–2.83 M Sodium Thiocyanate (NaSCN)50 mM NaOHCompetitive Elution Buffer: 50 mM Tris, 0.15 M NaCl, 100–500 µg HA peptide / mL, pH 7.4Neutralization Buffer: 1 M Tris-HCl, pH 8.5Comparison of Chemical Elution BuffersSolutionAdvantagesDisadvantages0.1M glycine HCl, pH 2.0-2.8Does not damage resin binding capacity if target protein is stable at low pHLow elution efficiency; target protein may denature3M NaSCNHigh elution efficiency; does not damage resin binding capacityTarget protein may denature50mM NaOHHigh elution efficiencyTarget protein may denature; reduces resin lifespan3. Sample Purification3.1 Column Chromatography(1) Pack the Anti-HA Agarose Resin into a suitable chromatography column. Equilibrate the column with 5 column volumes (CV) of Equilibration Buffer.(2) Load the sample onto the equilibrated resin. Collect the flow-through. The sample can be reloaded to increase binding efficiency.(3) Wash with 10–20 CV of Wash Buffer to remove non-specifically bound proteins. Collect the wash fractions.(4) Elution:* A. Acidic Elution: Elute with 5 CV of acidic elution buffer (e.g., 0.1 M Glycine-HCl, pH 2.0–2.8). Add a volume of Neutralization Buffer equal to one-tenth of the elution volume to each fraction to adjust the pH to 7.0–8.0. Collect fractions separately.* Note: After acidic elution, the resin must be immediately re-equilibrated. Do not expose the resin to the acidic elution buffer for more than 20 minutes.* B. Chemical Elution: Elute with 5 CV of a chemical elution buffer (e.g., 3 M NaSCN or 50 mM NaOH). Collect fractions separately.* Note: After chemical elution, the resin must be immediately re-equilibrated. Do not expose the resin to the chemical elution buffer for more than 20 minutes.* C. Competitive Elution: Elute with 5 CV of Competitive Elution Buffer. Collect fractions separately.(5) Regenerate the resin with 3 CV of a chemical elution buffer (e.g., Glycine-HCl), then re-equilibrate with Equilibration Buffer until neutral pH is reached.(6) Store the resin in Storage Buffer at 2–8°C.3.2 Batch/Binding Method(1) Resin Preparation: Transfer an appropriate amount of Anti-HA Agarose Resin to a column and drain the storage solution. Wash with 5 CV of Equilibration Buffer.(2) Add the sample solution. Incubate with shaking at 4°C or room temperature for 30 minutes (avoid magnetic stirring). Ensure thorough mixing.(3) After incubation, centrifuge the mixture (5,000 × g, 1 min) or filter to collect the resin.(4) Transfer the resin to a column. Wash with Equilibration Buffer until the UV baseline stabilizes.(5) Elute using either the Chemical or Competitive Elution method as described in section 3.1 (4).(6) Regenerate and store the resin as described in sections 3.1 (5) and (6).3.3 Immunoprecipitation (IP) Procedure(1) Resin Preparation: Add 40 µL of Anti-HA Agarose Resin suspension (20 µL settled resin) to a 1.5 mL tube. Centrifuge at 5,000 × g for 1 min. Discard the supernatant.(2) Add 0.5 mL of Equilibration Buffer to resuspend the resin. Centrifuge at 5,000 × g for 1 min. Discard the supernatant. Repeat this wash step once.(3) Add 200–1000 µL of sample lysate to the prepared resin. Mix and incubate on a tube rotator at room temperature for at least 1 hour. Centrifuge at 5,000 × g for 1 min. Collect the supernatant for analysis.(4) Washing: Add 0.5 mL of Wash Buffer, resuspend the resin, and mix gently. Centrifuge at 5,000 × g for 1 min. Discard the supernatant. Repeat this wash step three more times.(5) Elution: Choose the elution method based on downstream application.* A. Chemical Elution: Add 100 µL of chemical elution buffer (0.1 M Glycine-HCl pH 2.0-2.8, 3 M NaSCN, or 50 mM NaOH) and resuspend the resin. Incubate at room temperature for 5 min. Centrifuge at 5,000 × g for 1 min. Carefully collect the supernatant and neutralize immediately if acidic. Store eluted samples at 4°C short-term or -20°C long-term.* B. Competitive Elution: Add 100 µL of Competitive Elution Buffer and resuspend the resin. Incubate at room temperature for 30 min. Centrifuge at 5,000 × g for 1 min. Carefully collect the supernatant. Repeat elution 1-2 times. Store eluted samples at 4°C short-term or -20°C long-term.* C. Denaturing Elution (SDS-PAGE): Add 20 µL of 2× Loading Buffer (contains SDS and reducing agents like β-mercaptoethanol/DTT) to the resin. Heat at 95°C for 5 min. Centrifuge at 5,000 × g for 1 min, and load the supernatant directly onto an SDS-PAGE gel for analysis. Note: This method denatures the antibody, rendering the resin unusable for reuse.Troubleshooting Guide... Read More | Product contentF665774Component5 mLStorageF665774A2×Fast Probe Mixture5×1 mL-20℃. Avoid freeze/thaw cycle.F665774B50×High ROX200 µL-20℃. Avoid freeze/thaw cycle.F665774CddH2O5×1 mL-20℃. Avoid freeze/thaw cycle.Product IntroductionFast Probe Mixture is a preProduct contentF665774Component5 mLStorageF665774A2×Fast Probe Mixture5×1 mL-20℃. Avoid freeze/thaw cycle.F665774B50×High ROX200 µL-20℃. Avoid freeze/thaw cycle.F665774CddH2O5×1 mL-20℃. Avoid freeze/thaw cycle.Product IntroductionFast Probe Mixture is a pre-mixed system for real-time fluorescence PCR by probe method (TaqMan, Molecular Beacon, etc.), with a concentration of 2×, including Fast Taq DNA Polymerase, PCR Buffer, dNTPs, Mg2+ and so on, which is easy and convenient to operate. It is mainly used for the detection of genomic DNA target sequence and cDNA target sequence after RNA reverse transcription. The Fast Taq DNA Polymerase contained in this product can effectively reduce the non-specific amplification generated by the non-specific binding of primers and templates or primer dimerization at room temperature, and the activation of the enzyme only needs to be incubated at 95 ℃ for 30 s. The whole PCR reaction process can save about 40 minutes compared with the ordinary reaction, which greatly shortens the reaction time of PCR. The combination of unique PCR buffer system and fast hot start enzyme effectively inhibits the generation of non-specific products and significantly improves the PCR amplification efficiency with stronger fluorescence signal, higher sensitivity and wider linear range. The product has a wide range of applications and can be used for both normal and rapid quantitative PCR programs.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 (F665766):Roche LightCycler 480, Roche LightCyler 96, Bio-rad iCyler iQ, iQ5, CFX96 and others.Instruments that require Low ROX calibration (F665768):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 more.Instruments that require High ROX calibration (F665774):ABI Prism 7000/7300/7700/7900, Eppendorf, ABI Step One/Step One Plus, and others.matters needing attention1. Before use, please mix gently by turning up and down, avoid foaming as much as possible, and use after brief centrifugation.2. Avoid repeated freezing and thawing of this product, repeated freezing and thawing may degrade the product performance. This product can be stored for long term at -20℃, protected from light. If frequent use is required within a short period of time, it can be stored at 2-8℃.UsageThe following examples are conventional PCR reaction systems and reaction conditions, which should be improved and optimized according to the template, primer structure and target fragment size in actual operation.1.PCR reaction systemreagents50µl reaction systemfinal concentration2×Fast Probe Mixture25 µl1×Forward Primer, 10µM1µl0.2µM¹⁾Reverse Primer, 10µM1µl0.2µM¹⁾Probe, 10 µM1µl0.2µM²⁾Template DNA2µl³⁾ 50x Low ROX or High ROX(optional)⁴⁾1µl1×ddH₂Oup to 50µlNote: 1) Usually the primer concentration of 0.2µM can get better results, and 0.1-1.0µM can be used as a reference for setting the range. 2) The final 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, so please refer to the instruction manual of the instrument or the specific requirements of the use of each fluorescent probe for the adjustment of the concentration in actual use.(3) Usually the amount of DNA template is 10-100ng genomic DNA or 1-10ng cDNA as a reference. Since the templates of different species contain different copy numbers of target genes, the templates can be subjected to gradient dilution to determine the optimal amount of template to be used.(4) The excitation optical system varies from instrument to instrument, choose to add 50×Low ROX or 50×High ROX according to the instrument using fluorescence quantification.2. PCR reaction program:A two-step PCR reaction program is recommended, and this program is set up using the ABI 7500 Fluorescent Quantitative PCR Instrument as a reference.Note: 1) The enzyme used in this product must be pre-denatured at 95°C for 30s to achieve enzyme activation. Under this condition, most of the templates can be well unchained. For templates with high GC content and complex secondary structure, the pre-denaturation time can be extended to 1-4 minutes to allow the starting template to fully unchain.(2) It is recommended to use two-step PCR reaction program, if you do not get good experimental results due to the use of primers with lower Tm values, etc., you can try to carry out three-step PCR amplification, and the annealing temperature, please use the range of 56 ℃ - 64 ℃ as a setting reference... Read More | Product Application:KNK437 has been used: as a heat shock factor 1 (HSF1) inhibitor to study its effects on the inhibition of viability and apoptosis activation in chemoresistant mice cells as an HSF1 inhibitor to study its effects on viability and apoptosis of colorectal cancer cells as a Product Application:KNK437 has been used: as a heat shock factor 1 (HSF1) inhibitor to study its effects on the inhibition of viability and apoptosis activation in chemoresistant mice cells as an HSF1 inhibitor to study its effects on viability and apoptosis of colorectal cancer cells as a heat shock protein 70 (HSP70) inhibitor to study its effects on glutamine-induced HSP70 and inflammatory mediator release... Read More | Inquire | Inquire |