AI Article Synopsis
- MNAzymes are advanced nucleic acid enzymes that respond to specific signals by assembling from multiple oligonucleotide partzymes in the presence of a target nucleic acid, leading to the generation of amplified output signals.
- These MNAzymes can perform various functions including sensitive detection of targets, distinguishing genetic variations, and monitoring PCR processes, while also acting as molecular switches in sequential setups.
- Their modular design and separation of input and output functions allow for integration into various applications such as diagnostic biosensors, molecular computing, and nanoscale machinery.
Article Abstract
To increase the versatility and utility of nucleic acid enzymes, we developed multicomponent complexes, known as MNAzymes, which produce amplified "output" signals in response to specific "input" signals. Multiple oligonucleotide partzymes assemble into active MNAzymes only in the presence of an input assembly facilitator such as a target nucleic acid. Once formed, MNAzymes catalytically modify a generic substrate, generating an amplified output signal that heralds the presence of the target while leaving the target intact. We demonstrated several applications including sensitive, isothermal target detection; discrimination of polymorphisms; and highly specific monitoring of real-time polymerase chain reaction (PCR). Furthermore, we showed their capacity to function as molecular switches and to work in series to create a molecular cascade. The modular nature of MNAzymes, together with the separation of input and output functionalities, provides potential for their integration into diverse devices such as diagnostic biosensors, molecular computers, and/or nanoscale machines.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC2808728 | PMC |
| http://dx.doi.org/10.1021/ja9076777 | DOI Listing |
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