Hieff Unicon™ Universal Blue qPCR Master Mix (SYBR Green Based)

SKU:BHT20800059 PCR & qPCR
Overview
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Hieff Unicon™ Universal Blue qPCR Master Mix (Dye Based) is a pre-solution for 2×real-time quantitative PCR amplification characterized by high sensitivity and specificity, is blue in color, and has the effect of sample addition tracing. The core component Hieff Unicon™ Taq DNA polymerase uses antib
Mix Type qPCR Master Mix
Hot Start No
Grade RUO
Storage -20°C
Shipping Dry Ice
Options selector
Catalog no. Size
11184ES03 1 mL
11184ES08 5×1 mL
11184ES50 50×1 mL
11184ES60 100×1 mL
Available Options

Select the size format that best suits your experiment. Availability and lead time may vary by option.

  • Options: Size (4) — 1 mL, 5×1 mL, 50×1 mL, 100×1 mL
  • Lead time: varies by selected option; please contact us for current fulfillment timing.
  • Storage: -20°C
  • Shipping: cold-chain shipment (typically with ice packs).
  • Upon receipt: store at the recommended temperature as soon as possible.
  • Sales terms and conditions: Please review prior to ordering.
Field Specification
Mfr No 11184ES
Product Type
  • qPCR Master Mix
Shipping Dry Ice
Storage -20°C

Hieff UNICON™ Universal Blue qPCR Master Mix (SYBR) is a 2× real-time quantitative PCR premix for dye-based detection. The formulation is blue for visual pipetting tracking to reduce sample addition errors. Hieff UNICON™ Taq DNA Polymerase uses antibody-based Hot Start to inhibit non-specific amplification. GC equalization additives ensure reliable quantification across 30–70% GC content. Contains universal ROX Passive Reference Dye compatible with most qPCR instruments.

Features

  • Antibody-based Hot Start: prevents non-specific amplification during setup
  • Blue color indicator: visual pipetting tracking reduces sample addition errors
  • Universal ROX Reference Dye: compatible with most qPCR platforms without adjustment
  • GC equalization (30–70%): consistent amplification across GC-diverse gene panels
  • High sensitivity and specificity across a wide quantification range

Specifications

Parameter Value
Hot Start Antibody-based
Detection Method Dye-Based (SYBR Green I)
PCR Method qPCR
Sample Type DNA / cDNA

The blue color serves as a visual pipetting indicator. When the master mix is added to a reaction well, the characteristic blue color confirms that the mix was successfully dispensed and provides visual contrast for tracking sample addition order across multi-well plates, reducing the risk of skipped or doubled wells.

ROX (6-carboxy-X-rhodamine) is a passive fluorescent reference dye that normalizes non-PCR-related signal fluctuations caused by instrument lamp variability and pipetting differences. This formulation contains a universal ROX concentration compatible with most qPCR instruments. No ROX concentration adjustment is required when switching between instrument platforms.

The formulation contains GC equalization additives that balance amplification efficiency across genes with 30–70% GC content, providing consistent and comparable Ct values across gene panels with diverse sequence composition — important for multi-gene expression studies.

Antibody-based Hot Start blocks polymerase activity at room temperature during reaction assembly, preventing primer dimerization and non-specific amplification. This is particularly beneficial in qPCR where baseline non-specific signal directly affects sensitivity and the lower limit of quantification.

Valid experiments require: standard curve R² > 0.98; amplification efficiency 90–110%; S-shaped amplification curves with Ct values between 15 and 35; single-peak melting curve with no primer-dimer peaks; NTC Ct > 35.

Yeasen Biotechnology supports custom formulation and scale-up services for reagent mixes and master mixes. Contact BioHippo to discuss project requirements and initiate an inquiry.

▶ GMP-Grade & Bulk Supply

Select Yeasen reagent mixes are available in GMP grade for IVD assay development. Manufactured in an ISO 13485-certified UCF.ME™ facility with FDA Drug Master File (DMF) support.

  • GMP release testing and CoA documentation
  • Scalable from milliliter to liter-scale quantities
  • Consistent lot-to-lot performance specifications

▶ Glycerol-Free & Lyophilization-Ready Formats

Glycerol-free and lyophilization-ready formats are available for reagents intended for cartridge-based point-of-care devices, liquid handling automation, or ambient-temperature distribution.

  • Glycerol-free liquid formulation
  • Lyophilization-compatible format with cryoprotectant
  • Custom reaction buffer optimization

▶ Molecular IVD RDC Service

Yeasen's Research and Development Contracting team provides end-to-end support for molecular diagnostic product development using Yeasen reagent mixes as a foundation.

  • Master mix selection and performance matching for target assay
  • Primer/probe design and assay buffer optimization
  • Sensitivity, specificity, and LOD validation
  • Instrument compatibility assessment

▶ Custom Formulation

Custom formulation services are available for researchers requiring modifications to standard reagent mix compositions, including ROX level adjustment, dye substitution, stabilizer optimization, and buffer modification.

  • ROX concentration customization (No / Low / High ROX)
  • Reference dye and indicator dye options
  • Buffer composition and pH optimization
  • Scale-up to commercial quantities on confirmation

ⓘ Customization services fulfilled by Yeasen Biotechnology. Contact BioHippo for project scoping and pricing.

[1] Xia B, Shen X, He Y, et al. SARS-CoV-2 envelope protein causes acute respiratory distress syndrome (ARDS)-like pathological damages and constitutes an antiviral target. Cell Res. 2021;31(8):847-860. doi:10.1038/s41422-021-00519-4(IF:25.617) [2] Wang S, Li Y, Zhong L, et al. Efficient gene editing through an intronic selection marker in cells. Cell Mol Life Sci. 2022;79(2):111. Published 2022 Jan 31. doi:10.1007/s00018-022-04152-1(IF:9.261) [3] An LL, Zhao X, Gong XY, et al. Promoter Binding and Nuclear Retention Features of Zebrafish IRF Family Members in IFN Response. Front Immunol. 2022;13:861262. Published 2022 Apr 6. doi:10.3389/fimmu.2022.861262(IF:7.561) [4] Zhao Y, Wang HP, Yu C, et al. Integration of physiological and metabolomic profiles to elucidate the regulatory mechanisms underlying the stimulatory effect of melatonin on astaxanthin and lipids coproduction in Haematococcus pluvialis under inductive stress conditions. Bioresour Technol. 2021;319:124150. doi:10.1016/j.biortech.2020.124150(IF:7.539) [5] Shu C, Wang L, Zou C, et al. Function of Foxl2 and Dmrt1 proteins during gonadal differentiation in the olive flounder Paralichthys olivaceus [published online ahead of print, 2022 Jun 16]. Int J Biol Macromol. 2022;215:141-154. doi:10.1016/j.ijbiomac.2022.06.098(IF:6.953) [6] Wang S, Huang J, Liu F, et al. Isosteviol Sodium Exerts Anti-Colitic Effects on BALB/c Mice with Dextran Sodium Sulfate-Induced Colitis Through Metabolic Reprogramming and Immune Response Modulation. J Inflamm Res. 2021;14:7107-7130. Published 2021 Dec 20. doi:10.2147/JIR.S344990(IF:6.922) [7] Wang J, Hu R, Wang Z, et al. Establishment of Immortalized Yak Ruminal Epithelial Cell Lines by Lentivirus-Mediated SV40T and hTERT Gene Transduction. Oxid Med Cell Longev. 2022;2022:8128028. Published 2022 Mar 25. doi:10.1155/2022/8128028(IF:6.543) [8] Liu W, Guan Y, Qiao S, et al. Antiaging Effects of Vicatia thibetica de Boiss Root Extract on Caenorhabditis elegans and Doxorubicin-Induced Premature Aging in Adult Mice. Oxid Med Cell Longev. 2021;2021:9942090. Published 2021 Aug 6. doi:10.1155/2021/9942090(IF:6.543) [9] Qian Z, Liu C, Li H, et al. Osteocalcin Alleviates Lipopolysaccharide-Induced Acute Inflammation via Activation of GPR37 in Macrophages. Biomedicines. 2022;10(5):1006. Published 2022 Apr 27. doi:10.3390/biomedicines10051006(IF:6.081) [10] Zhao X, Huang Y, Li X, et al. Full integration of nucleic acid extraction and detection into a centrifugal microfluidic chip employing chitosan-modified microspheres [published online ahead of print, 2022 Jun 27]. Talanta. 2022;250:123711. doi:10.1016/j.talanta.2022.123711(IF:6.057) FAQ Q: How many steps are recommended for the qPCR experiment? A: The common method involves two steps. To enhance amplification specificity, one can choose the two-step method or increase the annealing temperature. When the amplification efficiency is low and the ct value is too high, a three-step method can be adopted or the extension time can be prolonged. Q: What is the validity of the qPCR experiment results? Why is it recommended that the Ct value should be greater than 15? A: The validity must meet the following three conditions: (1) Standard curve: Amplification efficiency range: 90-110%, corresponding slope: -3 to -3.5. R2 > 0.98. (Amplification efficiency = 10 - 1/slope - 1), when the slope is -3.32, the amplification efficiency is 100%. (2) Amplification curve: S-shaped curve, and Ct value is between 15 and 35, negative control Ct > 35 or no Ct value. (3) Melting curve: Single peak. The Ct value is greater than 15 cycles because the 10 times standard deviation of the fluorescence value in 3-15 cycles is the fluorescence threshold, and a too small Ct value will affect the curve. Q: What is the sensitivity limit of 11184? A: Single copy Q: Are there differences in the Tm values of the melting curves of different copies of the same gene? A: Even for the same amplified product, there will be slight differences in the Tm values. Generally, a difference of less than 1 degree is acceptable. Q: Why did the CT value of the diluted template become smaller instead? A: Generally, the CT value is negatively correlated with the initial concentration of the template. The higher the concentration, the lower the CT value. However, there are also many special cases. For instance, if there are inhibitors in the system or the template is not pure, diluting the template can actually result in a lower CT value. Q: The CT value of the internal reference is less than 20, while the target genes are all greater than 30. What should we do? A: This might be due to the low expression level of the target gene. Suggestions: a) Use a different reference gene; b) Change the primers. Q: Why is the amplification curve messy and discontinuous? A: The possible reason is that the ROX was added improperly. Verify whether the reference dye ROX was added correctly. Q: What is the amount of the template X? What is the commonly used amount? A: (1) The amount of template DNA needs to be determined by the experimenter during the initial experiment. Firstly, dilute the template DNA (generally recommended to dilute by 5-10 times), then sample at different template quantities on a gradient, and select the optimal sample amount with a CT value ranging from 20 to 30. (2) The commonly used amount is 500-1000 ng of total RNA for reverse transcription, dilute it 10 times and take 1 μL of cDNA for the qPCR experiment. Q: What is the validity of the qPCR experimental results? Why is it recommended that the Ct value should be greater than 15? A: a) The validity must meet the following three conditions: (1) Standard curve: Amplification efficiency range: 90-110%, corresponding slope: -3 to -3.5. R2 > 0.98. (Amplification efficiency = 10 - 1/slope - 1), when the slope is -3.32, the amplification efficiency is 100%. (2) Amplification curve: S-shaped curve, and Ct value is between 15 and 35, negative control Ct > 35 or no Ct value. (3) Melting curve: Single peak. b) The 10 times the standard deviation of the fluorescence values for 3 to 15 cycles is the fluorescence threshold. A too small Ct value will affect the curve. Q: What is the function of Rox? A: ROX is a reference dye. Its function is to standardize the non-PCR oscillations in the fluorescence quantitative reaction, correct the sample addition errors or the errors between wells, and provide a stable baseline. Q: Why does the amplified product show a tailing effect when running on the gel? A: The reagent contains stabilizing components that do not participate in any reactions themselves, but they will show a diffused pattern on the electrophoresis gel. It is not recommended to perform electrophoresis after the run is complete. Q: The reagents are rather thick and prone to forming bubbles. How can we prevent this? A: You can first mix the large sample, then add it separately to the centrifuge tubes, and finally add the template. When adding samples to the gun head, make sure not to let any air in. Use the second gear for sample aspiration and the first gear for sample injection; slowly push out the liquid and do not blow forcefully; guide the liquid into the hole along the wall. After the configuration is completed, if there are still bubbles, remove the centrifuged PCR tube. If it is a 96-well plate, gently tap the 96-well plate after the pipetting is done.

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