Abstract: A method of distinguishing nucleotide sequences for different nucleic acid molecules including the steps of (a) mixing a plurality of different nucleic acid molecules with polymerase molecules and nucleotide molecules, wherein the different nucleic acid molecules are attached to a surface in the form of an array of nucleic acid features; (b) determining a transient state of the polymerase molecules at the nucleic acid features; and (c) identifying a subset of nucleic acid features that correctly incorporate the nucleotide molecules based on the transient state of the polymerase molecules at the nucleic acid features, thereby distinguishing the nucleotide sequences for the different nucleic acid molecules.

Abstract: Embodiments provided herein relate to methods and compositions for obtaining nucleic acid sequence information. Some embodiments provided herein include methods and compositions for preparing nucleic acid libraries. In some embodiments, such nucleic acid libraries are useful for targeted nucleic acid sequencing.

Abstract: Presented are methods and compositions for spatial detection and analysis of nucleic acids in a tissue sample. The methods can enable the characterization of transcriptomes and/or genomic variations in tissues while preserving spatial information about the tissue.

Abstract: This disclosure provides a method of determining a sequence of nucleotides for a nucleic acid template. The method can include the steps of contacting the nucleic acid template with a conformationally labeled polymerase and at least four different nucleotide species under conditions wherein the conformationally labeled polymerase catalyzes sequential addition of the nucleotide species to form a nucleic acid complement of the nucleic acid template, wherein the sequential addition of each different nucleotide species produces a conformational signal change from the conformationally labeled polymerase and wherein the rate or time duration for the conformational signal change is distinguishable for each different nucleotide species; detecting a series of changes in the signal from the conformationally labeled polymerase under the conditions; and determining the rates or time durations for the changes in the signal, thereby determining the sequence of nucleotides for the nucleic acid template.

Abstract: This disclosure provides a method of determining a sequence of nucleotides for a nucleic acid template. The method can include the steps of contacting the nucleic acid template with a conformationally labeled polymerase and at least four different nucleotide species under conditions wherein the conformationally labeled polymerase catalyzes sequential addition of the nucleotide species to form a nucleic acid complement of the nucleic acid template, wherein the sequential addition of each different nucleotide species produces a conformational signal change from the conformationally labeled polymerase and wherein the rate or time duration for the conformational signal change is distinguishable for each different nucleotide species; detecting a series of changes in the signal from the conformationally labeled polymerase under the conditions; and determining the rates or time durations for the changes in the signal, thereby determining the sequence of nucleotides for the nucleic acid template.

Abstract: Some embodiments disclosed herein provide methods of reducing reactive molecular species in a reaction carried out in a digital fluidics device having one or more electrodes by using a reaction mixture comprising an electron acceptor additive. In some embodiments, the presence of the electron acceptor additive reduces the presence of reactive molecular species in the reaction mixture. In some embodiments, the presence of the electron acceptor additive reduces the formation of gas bubbles in the digital fluidic device. Therefore, in preferred embodiments, the electron acceptor additive does not form a gas when reduced.

Abstract: This disclosure provides a method of determining a sequence of nucleotides for a nucleic acid template. The method can include the steps of contacting the nucleic acid template with a conformationally labeled polymerase and at least four different nucleotide species under conditions wherein the conformationally labeled polymerase catalyzes sequential addition of the nucleotide species to form a nucleic acid complement of the nucleic acid template, wherein the sequential addition of each different nucleotide species produces a conformational signal change from the conformationally labeled polymerase and wherein the rate or time duration for the conformational signal change is distinguishable for each different nucleotide species; detecting a series of changes in the signal from the conformationally labeled polymerase under the conditions; and determining the rates or time durations for the changes in the signal, thereby determining the sequence of nucleotides for the nucleic acid template.

Abstract: A system for determining nucleic acid sequences, including (a) an array of nucleic acid features; (b) a fluidic apparatus configured to deliver sequencing reagents, including polymerases and nucleotides, to the array; (c) a detector configured to obtain pre-equilibrium kinetic measurements from the array at a resolution that distinguishes individual nucleic acid features; (d) a control module having instructions for (i) directing the fluidic apparatus to deliver the sequencing reagents to the array, and (ii) directing the detection apparatus to obtain the kinetic measurements; and (e) an analysis module having instructions for (i) processing the kinetic measurements to determine binding of the polymerase molecules to the nucleic acid features at several pre-equilibrium time points, thereby determining a transient state of the polymerase molecules at the nucleic acid features, and (ii) identifying nucleic acid features that correctly incorporate the nucleotide molecules based on the transient state of the poly

Abstract: This disclosure provides a method of determining a sequence of nucleotides for a nucleic acid template. The method can include the steps of contacting the nucleic acid template with a conformationally labeled polymerase and at least four different nucleotide species under conditions wherein the conformationally labeled polymerase catalyzes sequential addition of the nucleotide species to form a nucleic acid complement of the nucleic acid template, wherein the sequential addition of each different nucleotide species produces a conformational signal change from the conformationally labeled polymerase and wherein the rate or time duration for the conformational signal change is distinguishable for each different nucleotide species; detecting a series of changes in the signal from the conformationally labeled polymerase under the conditions; and determining the rates or time durations for the changes in the signal, thereby determining the sequence of nucleotides for the nucleic acid template.

Abstract: A method of distinguishing nucleotide sequences for different nucleic acid molecules including the steps of (a) mixing a plurality of different nucleic acid molecules with polymerase molecules and nucleotide molecules, wherein the different nucleic acid molecules are attached to a surface in the form of an array of nucleic acid features; (b) determining a transient state of the polymerase molecules at the nucleic acid features; and (c) identifying a subset of nucleic acid features that correctly incorporate the nucleotide molecules based on the transient state of the polymerase molecules at the nucleic acid features, thereby distinguishing the nucleotide sequences for the different nucleic acid molecules.

Abstract: Embodiments provided herein relate to methods and compositions for obtaining nucleic acid sequence information. Some embodiments provided herein include methods and compositions for preparing nucleic acid libraries. In some embodiments, such nucleic acid libraries are useful for targeted nucleic acid sequencing.

Abstract: This disclosure provides a method of determining a sequence of nucleotides for a nucleic acid template. The method can include the steps of contacting the nucleic acid template with a conformationally labeled polymerase and at least four different nucleotide species under conditions wherein the conformationally labeled polymerase catalyzes sequential addition of the nucleotide species to form a nucleic acid complement of the nucleic acid template, wherein the sequential addition of each different nucleotide species produces a conformational signal change from the conformationally labeled polymerase and wherein the rate or time duration for the conformational signal change is distinguishable for each different nucleotide species; detecting a series of changes in the signal from the conformationally labeled polymerase under the conditions; and determining the rates or time durations for the changes in the signal, thereby determining the sequence of nucleotides for the nucleic acid template.

Abstract: A semi-conductor wafer-based device that is used to suspend biological materials, such as lipid bilayers or single cells, for chemical, electrical and/or optical examination. The wafer has a t least one pore that extends therethrough. The pore is of sufficient size to suspend a lipid bilayer or a cell therein. The surface of the pore is coated with an insulating film to provide an insulating surface to which the lipid bilayer/cell is attached when the lipid bilayer/cell is suspended within the pore. The divice is used to measure the physical properties (e.g., voltage gating) of cells and lipid bilayers that contain biomolecules such as transmembrane proteins.