| Description | Aladdin's Anti-V5 Affinity Gel, also known as Anti-V5 IP Gel, Anti-V5 immunoprecipitation gel or Anti-V5 agarose gel, is agarose gel covalently coupled with high-quality mouse monoclonal antibody that recognizes the V5 tag sequence (GKPIPNPLLGLDST). This product can specifically bind V5-tagged Aladdin's Anti-V5 Affinity Gel, also known as Anti-V5 IP Gel, Anti-V5 immunoprecipitation gel or Anti-V5 agarose gel, is agarose gel covalently coupled with high-quality mouse monoclonal antibody that recognizes the V5 tag sequence (GKPIPNPLLGLDST). This product can specifically bind V5-tagged proteins expressed in animals, plants, and microorganisms, and can be used for immunoprecipitation (IP) and purification of V5-tag fusion proteins or their protein complexes.V5-tag is a peptide consisting of 14 amino acids (GKPIPNPLLGLDST) isolated from monkey parainfluenza virus V5, which can be fused either to the N-terminus or the C-terminus of a target protein to facilitate protein purification and immunoassays. V5-tag usually does not interact with the target protein, and in most cases does not affect the function of the target protein; With Aladdin's V5 antibodies, Anti-V5 magnetic beads, or Anti-V5 affinity gel, V5-tagged proteins can be used for examination of protein expression level and subcellular localization, protein purification, and immunoassays.This product has high binding capacity and strong specificityPrecautions:This product must be fully resuspended by inverting the tube several times prior to use.This product contains a small amount of preservative, which does not affect routine IP assays and protein purification. But for special experiments that might be interfered by the preservative, the gel should be washed 3 times with appropriate solutions such as TBS prior to use.For immunoprecipitation assays, it is recommended to include both positive and negative controls. Protein samples should be purified as soon as possible after collection and should always be placed at 4℃ or on ice to minimize protein degradation or denaturation. Protein degradation can be inhibited by adding appropriate protease inhibitors, such as Protease Inhibitor Cocktail for General Use, Protease and Phosphatase Inhibitor Cocktail for General Use (MS-safe, 50X), Protease Inhibitor Cocktail for Mammalian Cell and Tissue Extracts, Protease and Phosphatase Inhibitor Cocktail for Mammalian Cell and Tissue Extracts, etc.High concentrations of DTT, mercaptoethanol, guanidine hydrochloride, etc. may have a certain effect on the binding of this product to V5-tagged proteins, but Cell lysis buffer for Western and IP, RIPA Lysis Buffer or NP-40 Lysis Buffer are applicable to this product. For the main features and differences of various lysis buffers produced by and the selection of lysis buffers, please refer to the website at http://www.aladdin-e.com/support/lysis-buffer.htm.If the insoluble substance in protein samples can not be removed completely by centrifugation, samples can be filtered with a 0.45µm filter before performing the assay.This product is for R&D only. Not for drug, household, or other uses.For your safety and health, please wear a lab coat and disposable gloves during the operation.Instructions for Use:1.Preparation of protein samplesa.Lysis cells or tissues with appropriate lysis buffer, such as ’s Cell Lysis Buffer for Western and IP. Under certain circumstances, ’s RIPA Strong Lysis Buffer, RIPA Medium Lysis Buffer, or RIPA Weak Lysis Buffer can also be used. Other lysis buffers with a pH6-8 can also be used.b.After lysis and centrifuge, keep the supernatant at 4℃ or on ice for subsequent use. We recommend performing the subsequent procedures on the same day. Otherwise, make aliquots and store them at -80℃ for future use.2.Preparation of Anti-V5 Affinity GelAs the Anti-V5 Affinity Gel is stored in a protective solution containing 50% glycerol, it needs to be washed properly before adding protein samples.a.Gently resuspend the Anti-V5 Affinity Gel to be homogeneous. Transfer 20µl of gel suspension per 100µl of protein sample into a clean centrifuge tube. Note: It is easier to aspirate the gel suspension using a large aperture pipette tip (e.g., by cutting off part of the tip with scissors).b.Add 1X TBS to a final volume of 0.5ml, and gently resuspend the Anti-V5 Affinity Gel by pipetting or vortex. Centrifuge at 6000×g for 30 seconds at 4℃, remove the supernatant carefully without disturbing the gel. Repeat this step twice.c.Resuspend the Anti-V5 Affinity Gel with 1X TBS equal to the initial volume of gel suspension (e.g., if 20µl of gel suspension is taken, add 20µl of 1X TBS).3.Protein binding1)Add 20µl of washed Anti-V5 Affinity Gel per 100µl of protein sample, mix well, and incubate at 4℃ for 1-2 hours or overnight with gentle shaking on a rotary mixer.2)After incubation, centrifuge at 6000×g for 30sec at 4℃ and remove the supernatant carefully without disturbing the gel. Note: A portion of supernatant can be reserved in a clean microfuge tube for examination of the binding results.3)Gently resuspend the Anti-V5 Affinity Gel in 500µl of 1X TBS and place in an ice bath on a shaker for 5 minutes. Centrifuge at 6000×g for 30 seconds at 4℃ and carefully remove the supernatant. Repeat the wash thrice, then keep the sample on ice for elution. 4.ElutionBased on the features of the target protein or downstream applications, one of the following three elution methods can be used.1)Competitive elution with the V5 peptide. This is a non-denaturing elution method with a high elution efficiency, and the eluted proteins do not contain the light and heavy chains of V5 antibody.a.Preparation of V5 peptide elution buffer: Dissolve the V5 Peptide (, P9813) in 1X TBS buffer to a final concentration of 150µg/ml, or dilute the 5mg/ml V5 peptide solution with 1X TBS buffer to a final concentration of 150µg/ml. b.For every 20µl of initial gel volume, add 100µl of V5 Peptide elution buffer (150µg/ml). Resuspend the gel gently and incubate for 30-60 minutes at room temperature on a rotary mixer, or 1-2 hours at 4℃. To improve the elution efficiency, increase the incubation time or repeat the elution. c.After incubation, centrifuge at 6000×g for 30 seconds at 4℃, and transfer the supernatant to a new microfuge tube. The supernatant contains the V5-tagged protein and its protein complex.d.Store the supernatant at 4℃ for immediate use, or -20℃/ -80℃ for long-term storage. 2)Acidic elution: This method is non-denaturing, relatively fast and efficient. The eluted proteins also retain their original biological activity, which facilitates subsequent analysis and detection.a.Preparation of acidic elution buffer (0.1M Glycine-HCl, pH3.0) and neutralization buffer (0.5M Tris-HCl, pH7.4, 1.5M NaCl). b.For every 20µl of initial gel volume, add 100µl of acidic elution buffer. Resuspend the agarose gently and incubate for 5 minutes at room temperature on a rotary mixer.Note: The incubation time should not exceed 15 minutes.c.After incubation, centrifuge at 6000×g for 30 seconds at 4℃, and transfer the supernatant to a new microfuge tube. Immediately add 10µl of neutralization buffer and mix well. d.To achieve the maximum elution efficiency, repeat steps b-c and combine the supernatant containing the V5-tagged protein and its protein complex. e.Store the supernatant at 4℃ for or immediate use, or -20℃/-80℃ for long-term storage. Note 1: The elution efficiency of the acidic elution method might be lower than the other two elution methods.Note 2: The elution efficiency of the acidic elution method depends on characteristics of the target protein. To obtain a higher elution efficiency, the pH of the acidic elution buffer can be optimized from 2.5 to 3.1. The pH or amount of neutralization buffer needed to neutralize the eluates should also be adjusted appropriately.3)Elution with the 1X SDS-PAGE loading buffer: This method is a denaturation method, and the obtained proteins are suitable for SDS-PAGE electrophoresis or WB blot analysis.a.Preparation of SDS-PAGE loading buffer: We recommend using ’s SDS-PAGE Sample Loading Buffer (2X). Usually, the SDS-PAGE protein loading buffer contains a reducing agent such as DTT, and the eluted protein sample will contain the light chain and heavy chain of the V5 antibody.b.For every 20µl of initial gel volume, add 20µl of 2X SDS-PAGE sample loading buffer, mix well and heat at 95℃ for 5 minutes. c.Centrifuge at 6000×g or 4℃ for 30 seconds. Take the supernatant for SDS-PAGE electrophoresis or Western blot analysisNote: The Agarose cannot be reused because SDS in the loading buffer destroys V5 antibodies.FAQ: Problem Possible Causes Solution Large amount of tagged protein found in the flow through. Binding time is not enough. If using batch method, increase the binding time experimentally; If using column method, use a lower flow rate when loading samples. Column is overloaded. Reduce the amount of the sample added to the gel or increase the amount of gel. Tag is not accessible to gel. Expose the epitope tag by adding low amount of denaturant to the protein extract (dialysis may be needed before applying onto gel), or fuse thetag to the other terminus of the target protein. Gel has not been regenerated since last purification. Perform gel regeneration procedure prior to binding. Reagent compatibility problem. Dialyze the sample against TBS before purification procedure. The target protein has been degraded. 1.Prepare fresh lysates. Avoid using frozen lysates.2.Perform purification at lower temperature, such as 4℃.3.Use appropriate protease inhibitors in the lysate or increase their concentrations to prevent degradation of the fusion protein. Very few or notagged protein exists in the eluate. Protein is not completely eluted. Change elution methods. No target protein expressed. Make sure the protein of interest contains the tag by Western blot or dot blot analyses. Very low protein expression level. 1.Use larger volume of cell lysate.2.Optimize expression conditions to raise the protein expression level. Washes are too stringent. 1.Reduce the number of washes.2.Avoid adding high concentrations of NaCl to the mixture.3.Use solutions that contain less or no detergent Incubation times are inadequate. Increase the incubation times with the affinity gel (from several hours to overnight). Interfering substance is present in sample. 1.Lysates containing high concentrations of DTT, 2-mercaptoethanol, or other reducing agents may destroy antibody function, and must be avoided.2.Excessive detergent concentrations may interfere with the antibody-antigen interaction. Detergent levels in buffers may be reduced by dilution. Detection system is inadequate. If Western blot detection is used:1.Check primary and secondary antibodies using proper controls to confirm binding and reactivity.2.Verify that the transfer was adequate by staining the membrane with Ponceau S.3.Use fresh detection substrate or try a different detection system. Multiple protein bands found in the eluate. The protein is not stable at room temperature. Purify the target protein at lower temperature, such as 4℃. Protein degradation due to proteases activity during purification process. Add protease inhibitors to cell lysate. Non-specific binding. 1.Prepare cell lysate again.2.Add additional wash steps. Background is too high. Proteins bind nonspecifically to the monoclonal antibody, the gel beads, or the microcentrifuge tubes. 1.Pre-clear lysate with Mouse IgG-Agarose to remove nonspecific binding proteins.2.After suspending beads for the final wash, transfer entire sample to a clean microcentrifuge tube before centrifugation. Washes are insufficient. 1.Increase the number of washes.2.Prolong duration of the washes, incubating each wash for at least 15 minutes.3.Increase the salt and/or detergent concentrations in the wash solutions.4.Centrifuge at lower speed to avoid nonspecific trapping of denatured proteins from the lysate during the initial centrifugation of the affinity gel complexes... Read More | Inquire | Lipase PS is generally used in the enantioselective transesterification and hydrolysis. Applications include: 1.Lipase catalyzed transesterification of prochiral pyrimidine acyclonucleoside. 2.Lipase catalyzed hydrolysis of diacetylated pyrimidine acyclonucleosides. 3. Enantiomer selective acylationLipase PS is generally used in the enantioselective transesterification and hydrolysis. Applications include: 1.Lipase catalyzed transesterification of prochiral pyrimidine acyclonucleoside. 2.Lipase catalyzed hydrolysis of diacetylated pyrimidine acyclonucleosides. 3. Enantiomer selective acylation of racemic alcohols in continuous-flow bioreactors... Read More | Products contentN665730Component24 T96 TStorageN665730ATPS V50 144 µL576 µL-20℃. Avoid freeze/thaw cycle.N665730B5×FA Reaction Buffer144 µL576 µL-20℃. Avoid freeze/thaw cycle.N665730C2×HiFidelity PCR Mix600 µL2×1.2 mL-20℃. Avoid freeze/thaw Products contentN665730Component24 T96 TStorageN665730ATPS V50 144 µL576 µL-20℃. Avoid freeze/thaw cycle.N665730B5×FA Reaction Buffer144 µL576 µL-20℃. Avoid freeze/thaw cycle.N665730C2×HiFidelity PCR Mix600 µL2×1.2 mL-20℃. Avoid freeze/thaw cycle.N665730DPPM48 µL192 µL-20℃. Avoid freeze/thaw cycle.* This kit is suitable for human genomic DNA library construction with a starting template DNA input of 50 ng. We also have transposase library construction kits for human genomic DNA starting at 5 ng and 1 ng, so it is recommended to use different kits for different starting amounts of DNA in order to obtain higher quality libraries. Products IntroductionThis kit is developed for Illumina's high-throughput sequencing platform and provides the enzyme premix system and reaction buffer for genomic DNA library construction, including all components except PCR primers. Compared with the traditional library construction kits, this kit adopts the new transposase method for library construction, which can complete DNA fragmentation, end repair and junction reaction in one simple enzymatic reaction, significantly reducing the amount of template, reducing the number of experimental steps, and shortening the time of library construction; it adopts the high-fidelity DNA polymerase for library enrichment, and the preference-free PCR amplification can expand the coverage area of the sequence, which can be used for efficient and effective sequencing. The use of high-fidelity DNA polymerase for library enrichment and preference-free PCR amplification broadens the coverage area of the sequence and enables efficient preparation of DNA libraries for Illumina's second-generation sequencing platform. The kit is suitable for DNA libraries with a starting template of 50 ng, and all reagents in the kit have been subjected to strict quality control and functional validation to maximize the stability and reproducibility of library construction. Product Features ● DNA fragmentation and junction ligation in one step.● Ultra-fidelity amplification minimizes amplification-preferred steps.Provide your own instruments, kits and consumables1. Magnetic frame: DynaMagTM-2 is recommended.2. DNA purification and recovery kit: It is recommended to use DNA purification and recovery kit by magnetic bead method.3. Library PCR primer kits: transposase method for second-generation sequencing multi-sample primer kits are recommended. 4. Anhydrous ethanol, deionized water (pH between 7.0 and 8.0).5. Reaction tubes: It is recommended to use low adsorption PCR tubes and 1.5 ml centrifuge tubes. Tips: It is recommended to use high quality filter tips to prevent contamination of kits and library samples. Pre-experiment Preparation and Important Notes1. Avoid repeated freezing and thawing of reagents.2. PCR products are easily contaminated due to improper operation, resulting in inaccurate results. It is recommended to isolate the PCR reaction system preparation area from the PCR product purification area, and to use special pipettes to clean the experimental areas at regular intervals.3. Bead purification: the beads should be equilibrated to room temperature before use, all operations on the beads should be carried out at room temperature, 80% ethanol should be dispensed freshly, the beads should be rinsed and dried until the surface is free of liquid reflections and has a frosted appearance, insufficient drying of the beads will cause ethanol residue that will affect the subsequent experiments, and over-drying of the beads will affect the efficiency of DNA recovery.4. The kit is suitable for human genomic DNA library construction, if the DNA sample is a PCR product, it should be ensured that its length>.500 bp, since transposases do not work on DNA ends, it is recommended to extend the PCR product by 50-100 bp at each end of the PCR product to avoid low coverage of the ends for sequencing.Sample PreparationDNA purity requirements: A260/A280 = 1.8-2.0. Sample DNA: dissolve in ultrapure water. DNA Quantification: Too much or too little DNA will affect the quality of the library. It is recommended to use Nano to test the purity of the genomic DNA and then use Qubit to test the concentration of the genome (do not use any absorbance-based assay for template quantification).Schematic diagram of DNA banking processprocedureDNA fragmentation, junction reaction1. Add the following reagents to a 200 µl PCR tube: 2. Mix by gently blowing with a pipette and centrifuge briefly so that all components are collected at the bottom of the tube.3. Place the above PCR tubes in the PCR instrument with the hot cap on and program the reaction as follows:DNA should be purified immediately after the fragmentation reaction has been performed and the transposase is still in a high state of activity.to prevent smaller library fragments due to DNA over-fragmentation. Purification of fragmentation productsWe recommend the use of the Century Magnetic Bead Method DNA Purification and Recovery Kit.1. CMPure should be equilibrated at room temperature for 30 min after shaking and mixing before use.2. Add 50 µl of magnetic beads equilibrated to room temperature to the fragmentation product, vortex and shake for 5 seconds, then let stand at room temperature for 5 minutes.3. Centrifuge briefly, place the tube on a magnetic rack to separate the beads from the supernatant solution until the solution is clear (approximately 3-5 minutes), carefully aspirate the supernatant and discard, avoiding contact with the beads that have bound the target DNA. Note: Do not discard the beads.4. Continue to keep the centrifuge tube fixed on a magnetic rack and add 200 µl of freshly prepared 80% ethanol to the centrifuge tube and allow to stand at room temperature for 30 seconds, carefully discarding the supernatant.Note: When adding ethanol, the liquid must not be blown directly onto the beads.5. Repeat step 4.6. Keep the centrifuge tube fixed on a magnetic rack and leave to dry at room temperature until the surface of the beads is slightly cracked, then add 23 µlddH2O to solubilize.Note: Do not over-dry the beads as this may affect the elution efficiency.7. Remove the tube from the magnetic rack, vortex to completely resuspend the beads, and allow to stand at room temperature for 5 minutes. Centrifuge briefly, place the tube on the magnetic rack until the solution is clear, and transfer 21 µl of supernatant to a new 200 µl PCR tube.PCR amplification Add the following reagents to the 200 µl PCR tube: Mix by gently blowing with a pipette and centrifuge briefly so that all components are collected at the bottom of the tube.3. Place the above PCR tubes in the PCR instrument with the hot cap on and program the reaction as follows:Selective recovery of library DNA fragmentsIt is recommended to use CombiVision Magnetic Beads DNA Purification and Recovery Kit for selective recovery of DNA fragments. When different sizes of DNA fragments are required, the amount of magnetic beads to be used is different, please refer to the attached table for the specific amount of magnetic beads to be used (if other brands of magnetic beads are used, you need to find out the optimal amount of magnetic beads to be used on your own).Note: Amplification products can also be fragment length sorted and purified using the Gum Recovery Kit. If there is no special requirement for library length distribution, the amplification products can also be purified without selective recovery of DNA fragments as described on page 6 of the manual.1. CMPure should be equilibrated at room temperature for 30 min after shaking and mixing before use.2. Transfer the PCR product to a 1.5 ml centrifuge tube, rehydrate to 100 µl and add several volumes of magnetic beads equilibrated to room temperature, vortex for 5 seconds and let stand at room temperature for 5 minutes.3. Centrifuge briefly, place the tube on a magnetic rack to separate the beads from the supernatant until the solution is clear, and carefully aspirate the supernatant and transfer it to a new 1.5 ml centrifuge tube.Note: Do not discard the top clear.4. Add several volumes of magnetic beads to the supernatant, vortex and shake for 5 seconds, then let stand at room temperature for 5 minutes.5. Centrifuge briefly, place the tube on a magnetic rack to separate the beads from the supernatant until the solution is clear, carefully aspirate the supernatant and discard it, avoiding contact with the beads that have bound the target DNA.Note: Do not discard the beads.6. Continue to keep the centrifuge tube fixed on a magnetic rack and add 200 µl of freshly prepared 80% ethanol to the tube and allow to stand at room temperature for 30 seconds, carefully discarding the supernatant.Note: When adding ethanol, the liquid must not be blown directly onto the beads.7. Repeat step 6 once.8. Keep the centrifuge tube fixed on a magnetic rack and leave to dry at room temperature until the surface of the beads is slightly cracked, add 20 µl of ddH2O to solubilize.Note: Do not over-dry the beads as this may affect the elution efficiency.9. Remove the centrifuge tube from the magnetic rack, vortex and oscillate to completely resuspend the beads, and let stand at room temperature for 5 minutes. Leave brieflycentrifuge, place the tube on a magnetic rack until the solution is clear, and transfer the supernatant solution to a new centrifuge tube. Table: Suggested amount of magnetic beads for different segment selection recoveryLibrary DNA fragment purificationWe recommend the use of the Century Magnetic Bead Method DNA Purification and Recovery Kit.1. CMPure should be equilibrated at room temperature for 30 min after shaking and mixing before use.2. 50 µl of magnetic beads equilibrated to room temperature were added to the PCR product, vortexed and shaken for 5 seconds, and then left to stand at room temperature for 5 minutes.3. Centrifuge briefly, place the tube on a magnetic rack to separate the beads from the supernatant solution until the solution is clear (approximately 3-5 minutes), carefully aspirate the supernatant and discard it, avoiding contact with the beads that have bound the target DNA. Note: Do not discard the beads.4. Continue to keep the centrifuge tube fixed on a magnetic rack and add 200 µl of freshly prepared 80% ethanol to the centrifuge tube and allow to stand at room temperature for 30 seconds, carefully discarding the supernatant.Note: When adding ethanol, the liquid must not be blown directly onto the beads.5. Repeat step 4.6. Keep the centrifuge tube fixed on a magnetic rack and leave to dry at room temperature until the surface of the beads is slightly cracked, add 25 µl of ddH2O to solubilize.Note: Do not over-dry the beads as this may affect the elution efficiency.7. Remove the tube from the magnetic rack, vortex to completely resuspend the beads, and allow to stand at room temperature for 5 minutes. Centrifuge briefly, place the tube on the magnetic rack until the solution is clear, and transfer the supernatant solution to a new tube.Library quality controlDetermination of library concentrationIn order to obtain high-quality sequencing results, accurate quantification of DNA libraries is required, and the first recommendation is to use Real-timePCR methods are used for absolute quantification of DNA libraries. Additionally, fluorescent dye methods such as the Qubit method or the fluorescent dye picogreen method can be used; do not use quantification methods based on absorbance measurements here. The following approximate formula can be used to convert the molar concentration of the DNA library. Average total length of librariesApproximate conversion formula Library fragment distributionThe prepared DNA libraries can be detected by agarose gel electrophoresis or Agilent 2100 Bioanalyzer.Range of segment length distributions... Read More | Purity> 96% by SDS-PAGE and HPLC analyses.FunctionHas weak activities on human monocytes and acts via receptors that also recognize MIP-1 alpha. It induced intracellular Ca(2+) changes and enzyme release, but no chemotaxis, at concentrations of 100-1,000 nM, and was inactive on T-lymphocytes, Purity> 96% by SDS-PAGE and HPLC analyses.FunctionHas weak activities on human monocytes and acts via receptors that also recognize MIP-1 alpha. It induced intracellular Ca(2+) changes and enzyme release, but no chemotaxis, at concentrations of 100-1,000 nM, and was inactive on T-lymphocytes, neutrophils, and eosinophil leukocytes. Enhances the proliferation of CD34 myeloid progenitor cells. The processed form HCC-1(9-74) is a chemotactic factor that attracts monocytes eosinophils, and T-cells and is a ligand for CCR1, CCR3 and CCR5.Post-translationalThe N-terminal processed forms HCC-1(3-74), HCC-1(4-74) and HCC-1(9-74) are produced in small amounts by proteolytic cleavage after secretion in blood. HCC-1(1-74), but not HCC-1(3-74) and HCC-1(4-74), is partially O-glycosylated; the O-linked glycan consists of one Gal-GalNAc disaccharide, further modified by two N-acetylneuraminic acids... Read More |