Dual-Labeled probes are the most common probe type for qPCR and are often referred to as hydrolysis probes. These versatile probes can be used for a variety of applications including:
- Microarray validation
- Multiply target genes / few samples
- Pathogen detection
- Multiplexing
- Viral load quantification
- Gene expression analysis
- Gene copy determination
Dual-labeled probes are perfect for validating MISSION® siRNA and shRNA knockdowns. Their benefits include design simplicity for sequence specificity, extensive availability of reporter/quencher combinations, and increased sensitivity.
Locked Nucleic Acid Dual-labeled Probes
Adding locked nucleic acids to your probe increases thermal stability and hybridization specificity. They allow greater accuracy in SNP detection, allele discrimination, and in vitro quantification or detection. Locked nucleic acids also allow easier and more sensitive probe designs for problematic target sequences.
How Dual-Labeled Probes Work:
A Dual-Labeled Probe is a single-stranded oligonucleotide labeled with two different dyes. A reporter dye is located at the 5’ end and a quencher molecule located at the 3’ end. The quencher molecule inhibits the natural fluorescence emission of the reporter by fluorescence resonance energy transfer (FRET). The illustration below depicts the mechanism.
The primer is elongated by the polymerase and the probe binds to the specific DNA template. Hydrolysis releases the reporter from the probe/target hybrid, causing an increase in fluorescence. The measured fluorescence signal is directly proportional to the amount of target DNA.
Design and Customize your qPCR Probes to best suit your application.
Dual-Labeled Probe Specifications: | |
|---|---|
Amounts | 1, 3, 5, 10, 50 and 100 OD |
Purification | HPLC |
Length | 15-40 bases |
Quality Control | 100% mass spectrometry |
Format | Supplied dry in amber tubes |
Additional Services | Custom formatting available (normalization, special plates, etc.) |
Spectral Properties Table | |||
|---|---|---|---|
| Dye | Max. EX (nm) | Max. EM (nm) | Compatible Quencher |
| 6-FAM™ | 495 | 520 | BHQ®-1, TAMRA™ |
| JOE™ | 529 | 555 | BHQ-1, TAMRA |
| TET™ | 521 | 536 | BHQ-1, TAMRA |
| Cal Fluor® Gold 5401 | 522 | 544 | BHQ-1 |
| HEX™2 | 535 | 556 | BHQ-1, TAMRA |
| Cal Fluor Orange 5602 | 538 | 559 | BHQ-1 |
| TAMRA | 557 | 583 | BHQ-2 |
| Cyanine 3 | 549 | 566 | BHQ-2 |
| Quasar® 5703 | 548 | 566 | BHQ-2 |
| Cal Fluor Red 5904 | 569 | 591 | BHQ-2 |
| ROX™ | 586 | 610 | BHQ-2 |
| TxRd (Sulforhodamine 101-X) | 597 | 616 | BHQ-2 |
| Cyanine 5 | 646 | 669 | BHQ-3 |
| Quasar 6705 | 647 | 670 | BHQ-3 |
| Cyanine 5.5 | 675 | 694 | BHQ-3 |
Guaranteed Yields | |||
|---|---|---|---|
| Guaranteed OD Yield | Approx. No. of nmoles | Approx. No. of µg | Approx. No. of Reactions* |
| 1 | 4 | 32 | 800 |
| 3 | 12 | 96 | 2,400 |
| 5 | 20 | 160 | 4,000 |
| 10 | 40 | 320 | 8,000 |
Manufacturing Schedule | ||||
|---|---|---|---|---|
| Quantity (OD) | 1 | 3 | 5 | 10 |
| Dual-Labeled Probes with Standard Dyes | 3-5 days | 3-5 days | 3-5 days | 3-5 days |
| Dual-Labeled Locked Nucleic Acid Probes with Standard Dyes | 7 days | 7 days | 7 days | 7 days |
| Dual-Labeled Probes with Post-Synthesis Dyes, with/without Locked Nucleic Acid | 7-10 days | 7-10 days | 7-10 days | 7-10 days |
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