Abstract: The invention provides compositions and methods for synthesis of phosphorylated organic compounds, including nucleoside triphosphates.

Abstract: The invention provides xeno-nucleic acid particle display libraries, methods for identifying functional non-natural nucleic acid (XNA) aptamers using the particle display libraries, and compositions comprising XNA aptamers identified by screening candidate molecules using the xeno-nucleic acid particle display libraries.

Abstract: The invention provides xeno-nucleic acid particle display libraries, methods for identifying functional non-natural nucleic acid (XNA) aptamers using the particle display libraries, and compositions comprising XNA aptamers identified by screening candidate molecules using the xeno-nucleic acid particle display libraries.

Abstract: Systems and method for sorting droplets includes a microfluidic chip or substrate having a droplet sorting channel coupled at an upstream location to a droplet inlet channel, the droplet sorting channel coupled at a downstream location to a waste channel and a collection channel. The device includes an optical interrogation device configured to illuminate the droplets passing through the sorting channel with excitation light from an excitation light source and capturing emitted fluorescent light and generating an output signal correlated to the fluorescence of the droplets. An actuator (electrode) is disposed in the microfluidic chip or substrate and coupled to a signal driver (e.g., a high voltage amplifier). The device or system uses a programmable controller configured to receive the output signals from the optical interrogation device and trigger the signal driver to actuate the actuator to direct the droplets into the collection channel.

Abstract: The invention provides compositions and methods for synthesis of phosphorylated organic compounds, including nucleoside triphosphates.

Abstract: The present invention is directed to a polymerase activity assay that produces a strong optical signal when a primer-template complex is extended to full-length product. The assay uses Cy3 as the molecular beacon and Iowa Black® RQ as the quencher. The signal-to-noise-ratio (STNR) of this donor-quencher pairing is ˜200-fold over background, which is considerably better than other donor-quencher pairs (STNRs ˜10-20-fold). The STNR allows for solution-based monitoring of polymerase activity. Because the sensor functions via Watson-Crick base pairing, the polymerase activity assay may also be used to evolve polymerases to accept xeno nucleic acids as substrates.

Abstract: The invention provides compositions and methods for synthesis of phosphorylated organic compounds, including nucleoside triphosphates.

Abstract: The invention provides xeno-nucleic acid particle display libraries, methods for identifying functional non-natural nucleic acid (XNA) aptamers using the particle display libraries, and compositions comprising XNA aptamers identified by screening candidate molecules using the xeno-nucleic acid particle display libraries.

Abstract: The invention provides compositions and methods for synthesis of phosphorylated organic compounds, including nucleoside triphosphates.

Abstract: The present invention is directed to a polymerase activity assay that produces a strong optical signal when a primer-template complex is extended to full-length product. The assay uses Cy3 as the molecular beacon and Iowa Black® RQ as the quencher. The signal-to-noise-ratio (STNR) of this donor-quencher pairing is ˜200-fold over background, which is considerably better than other donor-quencher pairs (STNRs ˜10-20-fold). The STNR allows for solution-based monitoring of polymerase activity. Because the sensor functions via Watson-Crick base pairing, the polymerase activity assay may also be used to evolve polymerases to accept xeno nucleic acids as substrates.

Abstract: The present invention is directed to a polymerase activity assay that produces a strong optical signal when a primer-template complex is extended to full-length product. The assay uses Cy3 as the molecular beacon and Iowa Black® RQ as the quencher. The signal-to-noise-ratio (STNR) of this donor-quencher pairing is ˜200-fold over background, which is considerably better than other donor-quencher pairs (STNRs ˜10-20-fold). The STNR allows for solution-based monitoring of polymerase activity. Because the sensor functions via Watson-Crick base pairing, the polymerase activity assay may also be used to evolve polymerases to accept xeno nucleic acids as substrates.

Abstract: The present invention is directed to a polymerase activity assay that produces a strong optical signal when a primer-template complex is extended to full-length product. The assay uses Cy3 as the molecular beacon and Iowa Black® RQ as the quencher. The signal-to-noise-ratio (STNR) of this donor-quencher pairing is ˜200-fold over background, which is considerably better than other donor-quencher pairs (STNRs ˜10-20-fold). The STNR allows for solution-based monitoring of polymerase activity. Because the sensor functions via Watson-Crick base pairing, the polymerase activity assay may also be used to evolve polymerases to accept xeno nucleic acids as substrates.

Abstract: The present invention provides stable, nuclease-resistant TNA, TNA-DNA and TNA-RNA oligonucleotides, wherein the oligonucleotides are completely resistant to enzymatic degradation for at least 24-72 hours. Methods of synthesis and use in diagnostic and therapeutic applications are also provided.

Abstract: Methods and compositions for replication of threose nucleic acids (TNAs) are described. The described methods include a method for transcribing a DNA template into a TNA, and a method for reverse transcribing a threose nucleic acid into a cDNA.

Abstract: The present invention provides stable, nuclease-resistant TNA and TNA-DNA oligonucleotides, wherein the oligonucleotides are completely resistant to enzymatic degradation for at least 24-72 hours. Methods of synthesis and use in diagnostic and therapeutic applications are also provided. Specifically, in one embodiment, we describe the chemical and biological stability of TNA and mixed-backbone (mosaic) TNA-DNA oligonucleotides under a variety of conditions and sequence contexts.

Abstract: A method and related microfluidic chip and kit for high throughput detection of proteins of interest contained in a sample is disclosed. The method comprises of specifically labeling fusion proteins in a complex sample with fusion tag specific fluorophores that specifically bind the fusion tags coupled to the proteins of interest, and subjecting the sample to automated capillary electrophoresis, wherein the presence of the proteins of interest in the sample is detected by fluorescence signals associated with the fusion tag specific fluorophores.

Abstract: The present invention provides methods for rapidly screening and measuring the ligand binding affinity of in vitro selected peptides to the cognate and off-target proteins. This general strategy is amenable to high throughput analysis because the peptides are synthesized by cell-free translation, as opposed to solid-phase synthesis required by traditional assays, and affinities can be readily measured in standard formats.

Abstract: Methods and compositions for replication of threose nucleic acids (TNAs) are described. The described methods include a method for transcribing a DNA template into a TNA, and a method for reverse transcribing a threose nucleic acid into a cDNA.

Abstract: A method and related microfluidic chip and kit for high throughput detection of proteins of interest contained in a sample is disclosed. The method comprises of specifically labeling fusion proteins in a complex sample with fusion tag specific fluorophores that specifically bind the fusion tags coupled to the proteins of interest, and subjecting the sample to automated capillary electrophoresis, wherein the presence of the proteins of interest in the sample is detected by fluorescence signals associated with the fusion tag specific fluorophores.

Abstract: Methods and compositions for replication of threose nucleic acids (TNAs) are described. The described methods include a method for transcribing a DNA template into a TNA, and a method for reverse transcribing a threose nucleic acid into a cDNA.