Add to ORKGAn important emerging research area is the study and development of signal processing techniques for rapid real- time nucleic acid detection (1). In this paper, we focus on the newly developed bioluminescence regenerative cycle (BRC) technique, and apply statistical signal processing to the data identification problem. This extended summary provides a description of the BRC platform and experiments, the statistical model employed for analysis, and some preliminary experimental results
DNA and RNA nucleases play a critical role in a growing number of cellular processes ranging from DN...
A method detects binding of molecules, advantageously without tagging molecules in the sample. A sen...
Some of the most exciting developments in the field of nucleic acid engineering include the utilizat...
An important emerging research area is the study and de-velopment of signal processing techniques fo...
A new label-free methodology for nucleic acid quantification has been developed where the number of ...
Background: The real-time monitoring of polynucleotide amplification is at the core of most molecula...
BACKGROUND: The real-time monitoring of polynucleotide amplification is at the core of most molecula...
The real-time monitoring of polynucleotide amplification is at the core of most molecular assays. Th...
The study and use of bioluminescence and chemiluminescence has increased dramatically in the recent ...
Bioluminescent molecular beacons have been developed using a modular design approach that relies on ...
Detection of low-abundance nucleic acids is a challenging task, which over the last two decades has ...
Real time PCR is the mainstay of current nucleic acid assays, underpinning applications in forensic ...
Molecular beacons are efficient and useful tools for quantitative detection of specific target nucle...
The nucleic acid tests abbreviated as NAT, is a technique requires amplification and detection to pr...
The principal aims of the research in this thesis were to: (i) Create novel molecular switches using...
DNA and RNA nucleases play a critical role in a growing number of cellular processes ranging from DN...
A method detects binding of molecules, advantageously without tagging molecules in the sample. A sen...
Some of the most exciting developments in the field of nucleic acid engineering include the utilizat...
An important emerging research area is the study and de-velopment of signal processing techniques fo...
A new label-free methodology for nucleic acid quantification has been developed where the number of ...
Background: The real-time monitoring of polynucleotide amplification is at the core of most molecula...
BACKGROUND: The real-time monitoring of polynucleotide amplification is at the core of most molecula...
The real-time monitoring of polynucleotide amplification is at the core of most molecular assays. Th...
The study and use of bioluminescence and chemiluminescence has increased dramatically in the recent ...
Bioluminescent molecular beacons have been developed using a modular design approach that relies on ...
Detection of low-abundance nucleic acids is a challenging task, which over the last two decades has ...
Real time PCR is the mainstay of current nucleic acid assays, underpinning applications in forensic ...
Molecular beacons are efficient and useful tools for quantitative detection of specific target nucle...
The nucleic acid tests abbreviated as NAT, is a technique requires amplification and detection to pr...
The principal aims of the research in this thesis were to: (i) Create novel molecular switches using...
DNA and RNA nucleases play a critical role in a growing number of cellular processes ranging from DN...
A method detects binding of molecules, advantageously without tagging molecules in the sample. A sen...
Some of the most exciting developments in the field of nucleic acid engineering include the utilizat...