| Description | Aladdin's E. coli DNA Polymerase I purified using the PerfectProtein™ technology platform developed by aladdin, catalyzes the the 5'→3' polymerization of deoxyribonucleotides in a DNA template-dependent manner [1]. It also possesses dsDNA nick-specific 5'→3' exonuclease activity, Aladdin's E. coli DNA Polymerase I purified using the PerfectProtein™ technology platform developed by aladdin, catalyzes the the 5'→3' polymerization of deoxyribonucleotides in a DNA template-dependent manner [1]. It also possesses dsDNA nick-specific 5'→3' exonuclease activity, ssDNA-specific 3'→5' exonuclease activity, and RNase H activity [2]. The DNA synthesis activity and dsDNA nick-specific 5'→3' exonuclease activity allow for DNA synthesis starting from a 3'-OH group at the nick and degradation of single-stranded DNA at 5' end, facilitating gap filling. Its ssDNA-specific 3'→5' exonuclease activity serves a proofreading function during DNA synthesis. In the presence of dNTP, the E. coli DNA Polymerase I primarily exhibits DNA polymerase activity, while in the absence of dNTP, it displays more ssDNA-specific exonuclease activity, such as 5'→3' exonuclease activity on either strand at the 5' end of a blunt-ended dsDNA.The versatility of E. coli DNA Polymerase I allows it to initiate the synthesis of new DNA chains from gaps or nicks in dsDNA, and to degrade the DNA strand complementary to the template strand from the nick, enabling nick translation. It also ensures proofreading of mismatch during DNA replication and fills in gaps that occur during replication and repair processes [3].Please refer to Figure 1 for the performance of this product in filling 5' overhangs of dsDNA.Figure 1. Performance of Aladdin's E. coli DNA Polymerase I in filling 5' overhangs of dsDNA. In a 20µl reaction (10mM Tris-HCl, 50mM NaCl, 10mM MgCl2, 1mM DTT, 100µM dNTP Mix, 0.5µM dsDNA with 5' overhang, pH 7.9 at 25℃), the specified amount of this product or E. coli DNA Polymerase I from Company N (Competitor) was added. After incubation at 37℃ for 20 minutes, reactions were terminated by incubation at 75℃ for 20 minutes, followed by 15% native PAGE analysis of 5µl of the reaction product after mixing with 1µl of 6X DNA Loading Buffer. Electrophoresis was conducted at 180V for 60 minutes, and then the gel was stained with Gel-Red (10000X) at room temperature for 5 minutes. The experimental results were observed under a UV lamp. As shown in the figure, this product has similar catalytic efficiency to Competitor. The substrate dsDNA with 5' overhang was obtained by annealing 5'-ATACATAGATACATAGACTGGCCGTCGTTTTAC-3' and 5'-GTAAAACGACGGCCAGT-3' using Annealing Buffer for DNA Oligos (5X) according to manufacture's instructions. This figure is for reference only, which may vary due to different experimental conditions.Please refer to Figure 2 for performance of this product in digesting double-stranded linear DNA with amino-modified 3' ends.Figure 2. Performance of Aladdin's E. coli DNA Polymerase I in digesting amino-modified 3' ends of dsDNA (5'→3' exonuclease activity). In a 20µl reaction (10mM Tris-HCl, 50mM NaCl, 10 mM MgCl2, 1mM DTT, 0.5µM dsDNA), the specified amount of this product or E. coli DNA Polymerase I from Company N (Competitor) was added. After incubation at 37℃ for 20 minutes, reactions were terminated by incubation at 75℃ for 20 minutes, followed by 15% native PAGE analysis of 5µl of the reaction product after mixing with 1µl of 6X DNA Loading Buffer. Electrophoresis was conducted at 180V for 60 minutes, and then the gel was stained with Gel-Red (10000X) at room temperature for 5 minutes. The experimental results were observed under a UV lamp. As shown in the figure, this product has similar catalytic efficiency to Competitor. The substrate dsDNA with amino-modified 3' ends was obtained by annealing 5'-ATACATAGATACATAGACTGGCCGTCGTTTTAC-3'NH2 and 5'-GTAAAACGACGGCCAGTCTATGTATCTATGTAT-3'NH2 using Annealing Buffer for DNA Oligos (5X) according to manufacture's instructions. This figure is for reference only, which may vary due to different experimental conditions.sApplication:DNA synthesis; complementary filling of dsDNA 5' overhangs; removal of dsDNA 3' overhangs; second strand cDNA synthesis [4]; in combination with DNase I for DNA nick translation; nick translation to obtain probes with high specific activity.Source:Purified from E. coli with recombinant expression of E. coli DNA Polymerase I.Enzyme storage buffer:25mM Tris-HCl, 1mM DTT, 0.1mM EDTA, 50% Glycerol (pH 7.4 at 25 ℃).Inactivation or inhibition:This product can be inactivated by incubation at 75℃ for 20 minutes.Precautions:Due to the exonuclease activity of E. coli DNA Polymerase I, please avoid high environmental temperatures before performing the reaction. Otherwise, the DNA strands may be cleaved.E. coli DNA Polymerase I does not possess endonuclease activity, nor DNase I either. Therefore, when performing nick translation reactions, DNase I must be added.Vigorous shaking or stirring of E. coli DNA Polymerase I can cause enzyme inactivation.E. coli DNA Polymerase I has a high affinity for DNA. Addition of excessive amount of enzyme may lead to aggregation, thus affecting the amplification reactions.E. coli DNA Polymerase I can polymerize deoxyribonucleotides labeled with biotin, digoxigenin, or fluorescence, etc, allowing for synthesis of labeled DNA probes.The enzyme should be kept on ice during use, and stored at -20℃ immediately after use.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. Fill-in of 5' overhangs of dsDNAa. Set up the following reaction on ice.ReagentVolumeFinal ConcentrationNuclease-free Water(16-x)µl-dsDNA with 5' overhangsxµl~0.5µM or 5-200ng/µl10X Reaction Buffer2µl1XdNTP Mix (2mM each)1µl100µME.coli DNA Polymerase I (10U/µl)1µl0.5U/µlTotal Volume20µl-Note 1: The enzyme amount can be reduced appropriately to avoid template cleavage due to its exonuclease activity.Note 2: When multiple reactions are required, prepare a master mix including all reagents except for dsDNA, and then dispense to different nuclease-free PCR tubes. Finally, add dsDNA template to each tube.Note 3: If the dsDNA with 5' overhangs are oligonucleotides, the final concentration can be approximately 0.5µM. However, for digested DNA plasmids, the final concentration can be approximately 5-200ng/µl.b. Mix well gently and then have a pulse-spin in a microfuge to collect the liquid at the bottom of the tube.c. Incubate at 37℃ for 20 minutes. Note: The reaction time can be adjusted based on actual situations.d. Incubate at 75℃ for 20 minutes to inactivate the E. coli DNA Polymerase I.2. Digestion of Double-stranded Linear DNAa. Set up the following reaction on ice.ReagentVolumeFinal ConcentrationNuclease-free Water(17-x)µl-dsDNAxµl~0.5µM or 5-200ng/µl10X Reaction Buffer 2µl1XE.coli DNA Polymerase I (10U/µl)1µl0.5U/µlTotal Volume20µl-Note: When multiple reactions are required, prepare a master mix including all reagents except for dsDNA, and then dispense to different nuclease-free PCR tubes. Finally, add dsDNA to each reaction tube.b. Mix well gently and then have a pulse-spin in a microfuge to collect the liquid at the bottom of the tube.c. Incubate at 37℃ for 20 minutes. Note: The reaction time can be adjusted based on actual situations.d. Incubate at 75℃ for 20 minutes to inactivate E. coli DNA Polymerase I.3. For other applications, please refer to appropriate literature.FAQ:1. Can the E. coli DNA Polymerase I fill in 3' overhangs?No, E. coli DNA Polymerase I cannot fill in 3' overhangs. It can only generate blunt ends by removing 3' overhangs. 's E. coli DNA Polymerase I, Klenow Fragment, and T4 DNA Polymerase can be used for fill-in of 3' overhangs.2. Can E. coli DNA Polymerase I fill in 5' overhangs of DNA?Yes, E. coli DNA Polymerase I can fill in 5' overhangs of dsDNA. Klenow Fragment (, D7037) lacks 5'→3' exonuclease activity and is recommended for fill-in of 5' overhangs.3. Can E. coli DNA Polymerase I be used for nick translation experiments?Yes, nick translation experiments are one of the important applications of E. coli DNA Polymerase I.4. Are there temperature requirements for nick translation experiments?The incubation temperature for nick translation experiments should be below 20℃. At higher temperatures, the newly synthesized DNA can separate and be replicated.5. Can E. coli DNA Polymerase I be heat-inactivated?Yes, this product can be inactivated by heating at 75℃ for 20 minutes. Addition of 10mM EDTA to chelate Mg2+ before performing heat-inactivation can protect the DNA ends. 6. Can E. coli DNA Polymerase I remove 5' overhangs?No, the 5'→3' exonuclease activity of this product is only applicable to gaps in dsDNA.7. Can DNA nick translation be used for labeling probes?Yes, this product can remove template bases at nicks using its 5'→3' exonuclease activity and fill in nicks with labeled nucleotides. This method is suitable for generating large and uniform probes, but with lower efficiency probably.References:1. Kunkel TA, Loeb LA, Goodman MF. J Biol Chem. 1984. 259(3):1539-45.2. Green MR, Sambrook J. Cold Spring Harb Protoc. 2020. 2020(5):100743.3. Yu H, Chao J, Patek D, Mujumdar R, Mujumdar S, Waggoner AS. Nucleic Acids Res. 1994. 22(15):3226-32.4. D'Alessio JM, Gerard GF.Nucleic Acids Res. 1988. 16(5):1999-2014... 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 | Biochemical Test:SDS-PAGE (purity > 80%); Western blot with patient sample.Calculated Isoelectric Point:pH 5.68 | Proteinase K is a stable and highly reactive serine protease. Evidence from crystal and molecular structure studies indicates the enzyme belongs to the subtilisin family with an active-site catalytic triad (Asp39-His69-Ser224). It is stable in a broad range of environments: pH, buffer salts, Proteinase K is a stable and highly reactive serine protease. Evidence from crystal and molecular structure studies indicates the enzyme belongs to the subtilisin family with an active-site catalytic triad (Asp39-His69-Ser224). It is stable in a broad range of environments: pH, buffer salts, detergents (SDS), and temperature. In the presence of 0.1-0.5% SDS, proteinase K retains activity and will digest a variety of proteins and nucleases in DNA preparations without compromising the integrity of the isolated DNA.ApplicationUseful for the proteolytic inactivation of nucleases during the isolation of DNA and RNA.Removes endotoxins that bind to cationic proteins such as lysozyme and ribonuclease A.Reported useful for the isolation of hepatic, yeast, and mung bean mitochondriaDetermination of enzyme localization on membranesTreatment of paraffin embedded tissue sections to expose antigen binding sites for antibody labeling.Digestion of proteins from brain tissue samples for prions in Transmissible Spongiform Encephalopathies (TSE) research... 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