摘要:
The present invention relates to methods and systems for genome scanning using high resolution melting analysis for identifying mutations and/or variants in genes of interest.
摘要:
The present invention relates to methods and systems for genome scanning using high resolution melting analysis for identifying mutations and/or variants in genes of interest.
摘要:
The present invention provides novel methods and devices that employ microfluidic technology to generate molecular melt curves. In particular, the devices and methods in accordance with the invention are useful in providing for the analysis of PCR amplification products.
摘要:
The invention provides novel SGP primers for improved use in waveform-profiling methods of DNA amplification. In one embodiment, use of an SGP primer in a method of DNA amplification results in exponential amplification of several distinct products. In another embodiment, the methods of the invention further comprise a novel half-time elongation step. In another embodiment, the distinct products may be detected via melting temperature analysis. The primers and methods of the invention may be combined to determine an organism in a sample.
摘要:
The systems and methods of the invention provide a guided approach to pyrosequencing (i.e., hybrid pyrosequencing). A de novo nucleic acid sequence may compared to a library of possible results and the next nucleotide to be dispensed is selected based on the comparison of the de novo sequence and the library of possible results. In another example, at least the first nucleotide to be dispensed is selected based on a query of a database(s) of non-sequence parameters (e.g., incidence of infection, diagnostic symptoms, sample source) and subsequent dispensations determined based on a comparison of the de novo sequence and the library of possible results (e.g., candidate sequences). The systems and methods of the invention may be performed using a droplet actuator.
摘要:
The application relates to methods and systems for analysis of dissociation behavior of nucleic acids and identification of nucleic acids. In one aspect, methods and systems are disclosed for identifying a nucleic acid in a sample including an unknown nucleic acid and for detecting a single nucleotide polymorphism in a nucleic acid in a sample. Methods and systems are also disclosed for identification of a nucleic acid in a biological sample including at least one unknown nucleic acid by fitting denaturation data including measurements of a quantifiable physical change of the sample at a plurality of independent sample property points to a function to determine an intrinsic physical value and to obtain an estimated physical change function, and identifying the nucleic acid in the biological sample by comparing the intrinsic physical value for at least one unknown nucleic acid to an intrinsic physical value for a known nucleic acid.
摘要:
The present invention relates to methods and systems for the analysis of the dissociation behavior of nucleic acids and the identification of nucleic acids. In one aspect, methods and systems are disclosed for identifying a nucleic acid in a sample including an unknown nucleic acid and for detecting a single nucleotide polymorphism in a nucleic acid in a sample. In another aspect, methods and systems are disclosed for identification of a nucleic acid in a biological sample including at least one unknown nucleic acid by fitting denaturation data including measurements of a quantifiable physical change of the sample at a plurality of independent sample property points to a function to determine an intrinsic physical value and to obtain an estimated physical change function, and identifying the nucleic acid in the biological sample by comparing the intrinsic physical value for at least one unknown nucleic acid to an intrinsic physical value for a known nucleic acid.
摘要:
The systems and methods of the invention provide a guided approach to pyrosequencing (i.e., hybrid pyrosequencing). A de novo nucleic acid sequence may compared to a library of possible results and the next nucleotide to be dispensed is selected based on the comparison of the de novo sequence and the library of possible results. In another example, at least the first nucleotide to be dispensed is selected based on a query of a database(s) of non-sequence parameters (e.g., incidence of infection, diagnostic symptoms, sample source) and subsequent dispensations determined based on a comparison of the de novo sequence and the library of possible results (e.g., candidate sequences). The systems and methods of the invention may be performed using a droplet actuator.
摘要:
The application relates to methods and systems for analysis of dissociation behavior of nucleic acids and identification of nucleic acids. In one aspect, methods and systems are disclosed for identifying a nucleic acid in a sample including an unknown nucleic acid and for detecting a single nucleotide polymorphism in a nucleic acid in a sample. Methods and systems are also disclosed for identification of a nucleic acid in a biological sample including at least one unknown nucleic acid by fitting denaturation data including measurements of a quantifiable physical change of the sample at a plurality of independent sample property points to a function to determine an intrinsic physical value and to obtain an estimated physical change function, and identifying the nucleic acid in the biological sample by comparing the intrinsic physical value for at least one unknown nucleic acid to an intrinsic physical value for a known nucleic acid.
摘要:
The present invention relates to methods and systems for the analysis of the dissociation behavior of nucleic acids and the identification of nucleic acids. In one aspect, methods and systems are disclosed for identifying a nucleic acid in a sample including an unknown nucleic acid and for detecting a single nucleotide polymorphism in a nucleic acid in a sample. In another aspect, methods and systems are disclosed for identification of a nucleic acid in a biological sample including at least one unknown nucleic acid by fitting denaturation data including measurements of a quantifiable physical change of the sample at a plurality of independent sample property points to a function to determine an intrinsic physical value and to obtain an estimated physical change function, and identifying the nucleic acid in the biological sample by comparing the intrinsic physical value for at least one unknown nucleic acid to an intrinsic physical value for a known nucleic acid.