Our goal is to develop signal enhancement strategies that could increase the sensitivity in DNA recognition by hybridization. These strategies can be used towards the realization of simple, economic, portable point-of-care detection devices, to be used for diagnostics or environmental monitoring. Hybridization Chain Reaction (HCR) is an isothermal polymerization process based on the formation of high-molecular weight double-stranded nucleic-acid structures triggered by the presence of a single-stranded oligonucleotide initiator[1]. Such polymerization needs only a limited number of oligonucleotides and no enzymes or other reactants, so it seems directly amenable of use in analytical assays. In our opinion, HCR could be a good candi...
This work reports a novel electrochemical immunoassay protocol with signal amplification for determi...
Nucleic acids have become viable prognostic and diagnostic biomarkers for a diverse class of disease...
The specific and multiplexed detection of DNA underpins many analytical methods, including the detec...
Our goal is to develop signal enhancement strategies that could increase the sensitivity in DNA rec...
Our goal is to test simple strategies to attain high signals from DNA hybridization events. These st...
DNA biosensors could overcome some of the common drawbacks of lab-based techniques for nucleic acids...
Some of the possible perspective advantages of the uptake of nucleic acids biosensor technology are ...
With the goal of determining the presence of pathogens when present in very small amount, such as fo...
With the continuous development of DNA nanotechnology, various spatial DNA structures and assembly t...
The hybridization chain reaction (HCR), in which stable DNA monomers assemble only upon exposure to ...
Single-molecule sensitivity can be nowadays achieved when trying to characterize minute amounts of m...
A more specific and intense signal is desirable for most kinds of biosensors for biomedical or envir...
INTRODUCTION: Single-molecule sensitivity can be nowadays achieved when trying to characterize minut...
none4Single-molecule sensitivity can be nowadays achieved when trying to characterize minute amounts...
We introduce the concept of hybridization chain reaction (HCR), in which stable DNA monomers assembl...
This work reports a novel electrochemical immunoassay protocol with signal amplification for determi...
Nucleic acids have become viable prognostic and diagnostic biomarkers for a diverse class of disease...
The specific and multiplexed detection of DNA underpins many analytical methods, including the detec...
Our goal is to develop signal enhancement strategies that could increase the sensitivity in DNA rec...
Our goal is to test simple strategies to attain high signals from DNA hybridization events. These st...
DNA biosensors could overcome some of the common drawbacks of lab-based techniques for nucleic acids...
Some of the possible perspective advantages of the uptake of nucleic acids biosensor technology are ...
With the goal of determining the presence of pathogens when present in very small amount, such as fo...
With the continuous development of DNA nanotechnology, various spatial DNA structures and assembly t...
The hybridization chain reaction (HCR), in which stable DNA monomers assemble only upon exposure to ...
Single-molecule sensitivity can be nowadays achieved when trying to characterize minute amounts of m...
A more specific and intense signal is desirable for most kinds of biosensors for biomedical or envir...
INTRODUCTION: Single-molecule sensitivity can be nowadays achieved when trying to characterize minut...
none4Single-molecule sensitivity can be nowadays achieved when trying to characterize minute amounts...
We introduce the concept of hybridization chain reaction (HCR), in which stable DNA monomers assembl...
This work reports a novel electrochemical immunoassay protocol with signal amplification for determi...
Nucleic acids have become viable prognostic and diagnostic biomarkers for a diverse class of disease...
The specific and multiplexed detection of DNA underpins many analytical methods, including the detec...
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