Hybridization of complementary sequences is one of the central tenets of nucleic acid chemistry; however, the unintended binding of closely related sequences limits the accuracy of hybridization-based approaches to analysing nucleic acids. Thermodynamics-guided probe design and empirical optimization of the reaction conditions have been used to enable the discrimination of single-nucleotide variants, but typically these approaches provide only an approximately 25-fold difference in binding affinity. Here we show that simulations of the binding kinetics are both necessary and sufficient to design nucleic acid probe systems with consistently high specificity as they enable the discovery of an optimal combination of thermodynamic parameters. S...
Nucleic acids present great promise as building blocks for nanoscale devices. To achieve this poten...
The discrimination between perfect-match and single-base-pair-mismatched nucleic acid duplexes was i...
AbstractWe present an analysis of physical chemical constraints on the accuracy of DNA micro-arrays ...
Hybridization of complementary sequences is one of the central tenets of nucleic acid chemistry; how...
[[abstract]]Background: Nucleic acid hybridization is an extensively adopted principle in biomedical...
Thesis (Ph.D.)--University of Washington, 2015-12Even single nucleotide changes in nucleic acid sequ...
In silico–designed nucleic acid probes and primers often do not achieve favorable specificity and se...
Synthesis of oligonucleotide probes and control of their hybridization temperature are key aspects o...
Optimization of probe design for array-based experi-ments requires improved predictability of oligo-...
. Nearly every model of DNA computation proposed to date depends upon sequence-specific hybridizatio...
Detection of changes in a nucleic acid sequence is crucial in genomics research and precision medici...
Background One of the most popular principles in biomedical research field is nucleic acid hybridiza...
Sequence-specific binding to genomic-size DNA sequences by artificial agents is of major interest fo...
The design of DNA and RNA sequences is critical for many endeavors, from DNA nanotechnology, to PCR‐...
AbstractSequence-specific binding to genomic-size DNA sequences by artificial agents is of major int...
Nucleic acids present great promise as building blocks for nanoscale devices. To achieve this poten...
The discrimination between perfect-match and single-base-pair-mismatched nucleic acid duplexes was i...
AbstractWe present an analysis of physical chemical constraints on the accuracy of DNA micro-arrays ...
Hybridization of complementary sequences is one of the central tenets of nucleic acid chemistry; how...
[[abstract]]Background: Nucleic acid hybridization is an extensively adopted principle in biomedical...
Thesis (Ph.D.)--University of Washington, 2015-12Even single nucleotide changes in nucleic acid sequ...
In silico–designed nucleic acid probes and primers often do not achieve favorable specificity and se...
Synthesis of oligonucleotide probes and control of their hybridization temperature are key aspects o...
Optimization of probe design for array-based experi-ments requires improved predictability of oligo-...
. Nearly every model of DNA computation proposed to date depends upon sequence-specific hybridizatio...
Detection of changes in a nucleic acid sequence is crucial in genomics research and precision medici...
Background One of the most popular principles in biomedical research field is nucleic acid hybridiza...
Sequence-specific binding to genomic-size DNA sequences by artificial agents is of major interest fo...
The design of DNA and RNA sequences is critical for many endeavors, from DNA nanotechnology, to PCR‐...
AbstractSequence-specific binding to genomic-size DNA sequences by artificial agents is of major int...
Nucleic acids present great promise as building blocks for nanoscale devices. To achieve this poten...
The discrimination between perfect-match and single-base-pair-mismatched nucleic acid duplexes was i...
AbstractWe present an analysis of physical chemical constraints on the accuracy of DNA micro-arrays ...