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Aptamer-Based Target Detection Facilitated by a 3-Stage G-Quadruplex Isothermal Exponential Amplification Reaction
In This Article
Summary
The present protocol demonstrates the use of a fast, 3-stage, aptamer-based exponential amplification assay to detect targets. Sample preparation, signal amplification, and color development are covered to implement this system to recognize the presence of theophylline over that of caffeine.
Abstract
Aptamers are target-recognition molecules that bind with high affinity and specificity. These characteristics can be leveraged to control other molecules with signal-generation capability. For the system described herein, target recognition through an aptameric domain, Stem II of a modified hammerhead ribozyme, activates the self-cleaving ribozyme by stabilizing the initially unstructured construct. The cis-cleaving RNA acts at the junction of Stem III and Stem I, creating two cleavage products. The longer cleavage product primes an isothermal exponential amplification reaction (EXPAR) of the two similar catalytically active G-quadruplexes. Those resulting amplification products catalyze peroxidase reduction, which is coupled to the reduction of a colorimetric substrate with an output that the naked eye can detect. The 3-part system described in the present study improves detection modalities such as enzyme-linked immunosorbent assays (ELISAs) by producing a visually detectable signal for indicating the presence of as low as 0.5 µM theophylline in as little as 15 min.
Introduction
Aptamers are typically single-stranded DNA or RNA selected through an evolutionary process with high binding affinity and specificity to the desired targets1. In addition to binding ability, aptamers can be linked to and control motifs with signal-output functions2,3, amplifying said signal and improving the system's sensitivity. The G-quadruplex isothermal exponential amplification reaction (GQ-EXPAR) system is a three-part system (Figure 1) that develops a visual signal as successive components are added to a single reaction vess....
Protocol
See Supplementary Table 1 (the reaction set-up table) for tube preparation, including the specific volumes and concentrations of the reaction components. The protocol demonstrated here uses a preassembled detection platform kit as described in the Table of Materials. All the components must be kept on ice unless indicated otherwise.
1. Preparation of ribozyme
NOTE: The primary detection component is an allosteric (apt.......
Representative Results
The detection platform depicted in Figure 1 converts aptameric target recognition into visually distinct differences between the sample preparations (target vs. non-target, Figure 2) in a short period of time. An allosteric ribozyme identified by Soukup et al.5 served as the starting point for creating a less noisy sequence with response to the target over the control and negative samples. The optimized construct was able to recognize as .......
Discussion
The method presented here takes advantage of the transition between an initially disordered secondary structure in an allosteric ribozyme and the additional stability conferred through the binding of the target to the aptameric domain to activate the cis-cleaving hammerhead ribozyme. The stability of the ribozyme was adjusted to minimize catalytic activity in the absence of the target while allowing target binding to restore the active structure. Additionally, care must be taken to balance the buffers of the multiple enz.......
Acknowledgements
This research was supported by the Research and Development Funding from Aptagen LLC.
....Materials
| Name | Company | Catalog Number | Comments |
| 3,3',5,5'-Tetramethylbenzidine dihydrochloride (TMB) solution with H2O2, "MaxSignal TMB Microwell Substrate Solution" | PerkinElmer | FOOD-1806-1000 | Color development reagent. Minimize exposure to light and atmosphere. Previously BIOO Scientific catalog number 1806. Supplied in Apta-beacon Demonstration Kit as Tube 3-2. |
| 5’- TCC CTC CCT CCC TCC CAG TCC AGA CTC TTC CCT CCC TCC CTC CCA GA-Biotin-3’ | Integrated DNA Technologies (IDT) | Custom | Optimized QtQ47 DNA template for EXPAR to produce G-quadruplex, primed by G-quadruplex. This is used for the "exponential" part of EXPAR, to rapidly increase the amount of DNAzyme used for Step 3 color development. Template includes a 3'-biotin to prevent unintended extension by Bst 2.0 DNA polymerase during EXPAR. Part of Apta-beacon Demonstration Kit Tube 2-2. |
| 5’-GGG AAC UAU ACA ACC UAG GGC GAC CCU GAU GAG CCU UAU ACC AGC CGA AAG GCC CUU GGC AGA CGU UGA AAC GGU GAA AGC CGU AGG UUG CCC UAG GUU GUA UAG UU-3’ | Integrated DNA Technologies (IDT) | Custom | Theophylline-recognizing allosteric ribozyme sequence (self-cleaving ribozyme regulated by RNA aptamer domain for theophylline) modified from Soukup et al. Soukup, G. A., Emilsson, G. A., and Breaker, R. R. (2000) Altering molecular recognition of RNA aptamers by allosteric selection, Journal of molecular biology 298, 623-632. Supplied in Apta-beacon Demonstration Kit as Tube 1-3. |
| 5’-TCC CTC CCT CCC TCC CAG TCC AGA CTC TAC GGC TTT CAC CGT TTC AAC G-Biotin-3’ | Integrated DNA Technologies (IDT) | Custom | Optimized P3tQ49 DNA template for EXPAR to produce G-quadruplex, primed by P3 cleavage product. This is used in Step 2 to translate the cleavage product into DNAzyme used for Step 3 color development. Template includes a 3'-biotin to prevent unintended extension by Bst 2.0 DNA polymerase during EXPAR. Part of Apta-beacon Demonstration Kit Tube 2-2. |
| 5x Ribozyme Buffer | Aptagen, LLC | N/A | 5x composition: 600 mM Tris-HCl (pH 7.5), 150 mM MgCl2, 25 mM DTT. Used in Step 1. Supplied in Apta-beacon Demonstration Kit as Tube 1-4. |
| Apta-beaconTM (GQ-EXPAR, TMB) Demonstration Kit | Aptagen, LLC | GQ-EXPAR-TMB | The demo kit showcases the specificity of the colorimetric assay by detecting difficult small molecule targets, theophylline versus caffeine, which only differ by a single methyl group. |
| Bst 2.0 DNA polymerase | New England Biolabs | M0537S | Isothermal amplification polymerase with strand-displacement activity. Part of the Nickase-Polymerase Mix, prepared at 9.375 U/uL. Part of Apta-beacon Demonstration Kit Tube 2-1. |
| Buffer 3.1 | New England Biolabs | B6003SVIAL | Combined with 2 uL of 10X Isothermal Amplification Buffer and 27.5 uL of nuclease-free water to produce 1.11X EXPAR Buffer in EXPAR Mix. This product replaces the previously-used B7203SVIAL that was part of the initial system development (same composition except non-recombinant BSA). Part of Apta-beacon Demonstration Kit Tube 2-2. |
| Caffeine | Sigma-Aldrich | C0750-100G | Aptamer counter-target (control), prepared with nuclease-free water. Supplied in Apta-beacon Demonstration Kit as Tube 1-1. |
| dNTPs | New England Biolabs | N0447S | Part of the EXPAR reaction mixture. Part of Apta-beacon Demonstration Kit Tube 2-2. |
| EXPAR reaction mixture | Aptagen, LLC | N/A | 0.44 mM dNTPs, 0.38 μM P3tQ49, 0.38 μM QtQ47, 44.44 mM Tris-HCl (pH 8.4), 63.5 mM NaCl, 31.5 mM KCl, 6.35 mM MgCl2, 1.27 mM MgSO4, 6.35 mM (NH4)2SO4, 63.5 μg/ml BSA, 0.0635 % Tween 20. Part of Apta-beacon Demonstration Kit Tube 2-2. |
| Hemin | Sigma-Aldrich | H9039 | Resuspended in DMF to a final concentration of 25 uM. Supplied in Apta-beacon Demonstration Kit as Tube 3-1. |
| Isothermal Amplification Buffer | New England Biolabs | B0537SVIAL | Combined with 2 uL of 10x Buffer 3.1 and 27.5 µL of nuclease-free water to produce 1.11x EXPAR Buffer in EXPAR Mix. Part of Apta-beacon Demonstration Kit Tube 2-2. |
| MgCl2 | Amresco (VWR) | E525-500ML | Hammerhead ribozyme cofactor, necessary for self-cleavage. Part of Apta-beacon Demonstration Kit Tube 1-3. |
| MJ PTC-100 Thermocycler | MJ Research, Inc. | PTC-100 | Thermocycler to control incubation temperatures. Any thermocycler or hot block can be used. |
| N, N-Dimethylformamide (DMF) | Sigma-Aldrich | 227056-100ML | Used to resuspend hemin and maximize shelf life in freezer. Part of Apta-beacon Demonstration Kit Tube 3-1. |
| Nickase-polymerase Mix | Aptagen, LLC | N/A | Nt.BstNBI (9.375 units/μL) and Bst 2.0 DNA polymerase (0.5 units/μL). Supplied in Apta-beacon Demonstration Kit as Tube 2-1. |
| Nt.BstNBI | New England Biolabs | R0607S | Nicking enzyme to allow continued isothermal amplification. Part of the Nickase-Polymerase Mix, prepared at 0.5 U/uL. Part of Apta-beacon Demonstration Kit Tube 2-1. |
| T4 Kinase Buffer | New England Biolabs | B0201SVIAL | Buffer for enzyme necessary to remove cyclic phosphate. Part of Apta-beacon Demonstration Kit Tube 1-4. |
| T4 polynucleotide kinase | New England Biolabs | M0201S | Removes cyclic phosphate post-cleavage to allow cleavage product to prime isothermal amplification reaction. Supplied in Apta-beacon Demonstration Kit as PCR Tubes. |
| Tecan GENios FL | Tecan | Genios-FL TWT | Plate reader to measure absorbance signal from Step 3 results. |
| Theophylline | Sigma-Aldrich | T1633-50G | Aptamer target, prepared with nuclease-free water. Supplied in Apta-beacon Demonstration Kit as Tube 1-2. |
| Tris-HCl | American Bioanalytical | AB14043-01000 | Aptamer binding buffer. Part of Apta-beacon Demonstration Kit Tube 1-4. |
References
- Ellington, A. D., Szostak, J. W. In vitro selection of RNA molecules that bind specific ligands. Nature. 346 (6287), 818-822 (1990).
- Tang, J., Breaker, R. R. Rational design of allosteric ribozymes. Chemical Biology....
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