Abstract: Nucleic acid reagents and corresponding methods of using the same for monitoring and evaluating nucleic acid extraction and amplification reactions.

Abstract: Nucleic acid reagents and corresponding methods of using the same for monitoring and evaluating nucleic acid extraction and amplification reactions.

Abstract: The present invention provides improved methods and compositions for RNA isolation. In particular embodiments the present invention concerns the use of methods and compositions for the isolation of full-length RNA from fixed tissue samples. The present invention provides methods for digesting and extracting RNA from a fixed tissue sample.

Abstract: Methods of directly isolating nucleic acid from an embedded biological sample are provided. An emulsified digest is generated in the presence of a thermostable protease, and an additive selected from an alkylene glycol, a poly(alkylene glycol), or a block copolymer having an average Mn of 76 to 2900, or a salt or derivative or combination thereof. Nucleic acid is isolated directly from the emulsified digest. The methods eliminate the use of organic solvents such as xylene in a deparaffinization step prior to isolating nucleic acids from paraffin-embedded samples, for example.

Abstract: Methods of directly isolating nucleic acid from an embedded biological sample are provided. An emulsified digest is generated in the presence of a thermostable protease, and an additive selected from an alkylene glycol, a poly(alkylene glycol), or a block copolymer having an average Mn of 76 to 2900, or a salt or derivative or combination thereof. Nucleic acid is isolated directly from the emulsified digest. The methods eliminate the use of organic solvents such as xylene in a deparaffinization step prior to isolating nucleic acids from paraffin-embedded samples, for example.

Abstract: Nucleic acid reagents and corresponding methods of using the same for monitoring and evaluating nucleic acid extraction and amplification reactions.

Abstract: Disclosed are methods, compositions and kits for the isolation of exosomes from biological fluids and tissues. Volume-excluding polymers are used to precipitate exosomes from biological samples thereby allowing exosome isolation by low-speed (benchtop) centrifugation or filtration. Further fractionation of exosomes after precipitation is also described.

Abstract: The present invention provides improved methods and compositions for RNA isolation. In particular embodiments the present invention concerns the use of methods and compositions for the isolation of full-length RNA from fixed tissue samples. The present invention provides methods for digesting and extracting RNA from a fixed tissue sample.

Abstract: Disclosed are methods, compositions and kits for the isolation of exosomes from biological fluids and tissues. Volume-excluding polymers are used to precipitate exosomes from biological samples thereby allowing exosome isolation by low-speed (benchtop) centrifugation or filtration. Further fractionation of exosomes after precipitation is also described.

Abstract: Disclosed are methods, compositions and kits for the isolation of exosomes from biological fluids and tissues. Volume-excluding polymers are used to precipitate exosomes from biological samples thereby allowing exosome isolation by low-speed (benchtop) centrifugation or filtration. Further fractionation of exosomes after precipitation is also described.

Abstract: Disclosed are methods, compositions and kits for the isolation of exosomes from biological fluids and tissues. Volume-excluding polymers are used to precipitate exosomes from biological samples thereby allowing exosome isolation by low-speed (benchtop) centrifugation or filtration. Further fractionation of exosomes after precipitation is also described.

Abstract: Disclosed are methods, compositions and kits for the isolation of exosomes from biological fluids and tissues. Volume-excluding polymers are used to precipitate exosomes from biological samples thereby allowing exosome isolation by low-speed (benchtop) centrifugation or filtration. Further fractionation of exosomes after precipitation is also described.

Abstract: The present invention provides improved methods and compositions for RNA isolation. In particular embodiments the present invention concerns the use of methods and compositions for the isolation of full-length RNA from fixed tissue samples. The present invention provides methods for digesting and extracting RNA from a fixed tissue sample.

Abstract: Disclosed are methods, compositions and kits for the isolation of exosomes from biological fluids and tissues. Volume-excluding polymers are used to precipitate exosomes from biological samples thereby allowing exosome isolation by low-speed (benchtop) centrifugation or filtration. Further fractionation of exosomes after precipitation is also described.

Abstract: Disclosed are methods, compositions and kits for the isolation of exosomes from biological fluids and tissues. Volume-excluding polymers are used to precipitate exosomes from biological samples thereby allowing exosome isolation by low-speed (benchtop) centrifugation or filtration. Further fractionation of exosomes after precipitation is also described.

Abstract: Methods of directly isolating nucleic acid from an embedded biological sample are provided. An emulsified digest is generated in the presence of a thermostable protease, and an additive selected from an alkylene glycol, a poly(alkylene glycol), or a block copolymer having an average Mn of 76 to 2900, or a salt or derivative or combination thereof. Nucleic acid is isolated directly from the emulsified digest. The methods eliminate the use of organic solvents such as xylene in a deparaffinization step prior to isolating nucleic acids from paraffin-embedded samples, for example.

Abstract: The present invention provides improved methods and compositions for RNA isolation. In particular embodiments the present invention concerns the use of methods and compositions for the isolation of full-length RNA from fixed tissue samples. The present invention provides methods for digesting and extracting RNA from a fixed tissue sample.

Abstract: The present invention provides improved methods and compositions for RNA isolation. In particular embodiments the present invention concerns the use of methods and compositions for the isolation of full-length RNA from fixed tissue samples. The present invention provides methods for digesting and extracting RNA from a fixed tissue sample.