Add to ORKGWe report on genotyping of single nucleotide polymorphisms (SNP) by melting curve analysis (MCA) on DNA microarrays in a plastic microfluidic system with integrated heaters using lamination foils. Thin-film micro-heaters were processed on polyethylene napthalate (PEN) foil in only one metallization step. DNA microarrays were prepared directly on the PEN surface without the need of surface pre-treatment via UV-mediated immobilization of the spotted DNA microarrays. MCA in microfluidic channels is demonstrated at a ramping rate of 60°C/min, enabling ultra-rapid (50 seconds) SNP analysis
International audienceDespite the great popularity and potential of microarrays, their use for resea...
In clinical diagnostics and pathogen detection, profiling of complex samples for low-level genotypes...
Low-density arrays were assembled into microfluidic channels hot-embossed in poly(methyl methacrylat...
The recent technological advances in micro/nanotechnology present new opportunities to combine micro...
We report detection of single nucleotide polymorphisms (SNP) by melting curve analysis (MCA) on DNA ...
This paper presents genotyping on a novel microheater concept using semi-transparent copper microhea...
samples tominimize costsorusesmultiplex lab-on-a chip disposables to analyze a few targets. In genet...
High-throughput methods for assaying DNA variation require two important steps: (i) discriminating t...
Infectious diseases pose a serious threat to global health. Molecular diagnostics provide solutions ...
This work presents a simple microfluidic device with an integrated thin-film heater for studies of D...
The development of DNA microarray assays is hampered by two important aspects: processing of the mic...
In recent years, Fluorescent Melting Curve Analysis (FMCA) has become an almost ubiquitous feature o...
A microfluidic hydrogel DNA microarray is developed to overcome the limitations of conventional plan...
One major goal of genetic research is to understand the role of genetic variation. By far the most c...
A single nucleotide polymorphism (SNP) is a difference in the DNA sequence of one nucleotide only. W...
International audienceDespite the great popularity and potential of microarrays, their use for resea...
In clinical diagnostics and pathogen detection, profiling of complex samples for low-level genotypes...
Low-density arrays were assembled into microfluidic channels hot-embossed in poly(methyl methacrylat...
The recent technological advances in micro/nanotechnology present new opportunities to combine micro...
We report detection of single nucleotide polymorphisms (SNP) by melting curve analysis (MCA) on DNA ...
This paper presents genotyping on a novel microheater concept using semi-transparent copper microhea...
samples tominimize costsorusesmultiplex lab-on-a chip disposables to analyze a few targets. In genet...
High-throughput methods for assaying DNA variation require two important steps: (i) discriminating t...
Infectious diseases pose a serious threat to global health. Molecular diagnostics provide solutions ...
This work presents a simple microfluidic device with an integrated thin-film heater for studies of D...
The development of DNA microarray assays is hampered by two important aspects: processing of the mic...
In recent years, Fluorescent Melting Curve Analysis (FMCA) has become an almost ubiquitous feature o...
A microfluidic hydrogel DNA microarray is developed to overcome the limitations of conventional plan...
One major goal of genetic research is to understand the role of genetic variation. By far the most c...
A single nucleotide polymorphism (SNP) is a difference in the DNA sequence of one nucleotide only. W...
International audienceDespite the great popularity and potential of microarrays, their use for resea...
In clinical diagnostics and pathogen detection, profiling of complex samples for low-level genotypes...
Low-density arrays were assembled into microfluidic channels hot-embossed in poly(methyl methacrylat...