The present invention relates to a method for preparing a library of template polynucleotides and use thereof in methods of solid-phase nucleic acid amplification. More specifically, the invention relates to a method for preparing a library of template polynucleotides that have common sequences at their 5 ends and at their 3 ends.

The present invention relates to a method for preparing a library of template polynucleotides and use thereof in methods of solid-phase nucleic acid amplification. More specifically, the invention relates to a method for preparing a library of template polynucleotides that have common sequences at their 5 ends and at their 3 ends.

The present invention relates to methods of depleting or isolating target RNA from a nucleic acid sample.

The present invention relates to methods of depleting or isolating target RNA from a nucleic acid sample.

Methods, systems, and nano-sensor devices are disclosed for detecting or discriminating nucleic acids with a single nucleotide resolution based on nucleic acid strand displacement. The detection can be made by time-lapse fluorescence measurements or by electro-based graphene FET, which can be combined with wireless communication to provide real-time transmission of the detected signals.

Methods, systems, and nano-sensor devices are disclosed for detecting or discriminating nucleic acids with a single nucleotide resolution based on nucleic acid strand displacement. The detection can be made by time-lapse fluorescence measurements or by electro-based graphene FET, which can be combined with wireless communication to provide real-time transmission of the detected signals.

Methods and compositions for performing highly sensitive in vitro assays to define substrate preferences and off-target sites of nucleic-acid binding, modifying, and cleaving agents.

Methods and compositions for performing highly sensitive in vitro assays to define substrate preferences and off-target sites of nucleic-acid binding, modifying, and cleaving agents.

The present disclosure provides compositions, methods and systems for generating nucleic acid agents having a desired property, such as a property for specifically binding to a target. More specifically, the present disclosure provides compositions, methods and systems for generating a pool of modified members comprising modified nucleic acid agents with an unlimited range of chemical diversity.

The present disclosure provides compositions, methods and systems for generating nucleic acid agents having a desired property, such as a property for specifically binding to a target. More specifically, the present disclosure provides compositions, methods and systems for generating a pool of modified members comprising modified nucleic acid agents with an unlimited range of chemical diversity.