The invention provides improved methods for synthesizing polynucleotides, such as DNA and RNA, using renewable initiators coupled to a solid support. Using the methods of the invention, specific sequences of polynucleotides can be synthesized de novo, base by base, in an aqueous environment, without the use of a nucleic acid template.

The invention provides improved methods for synthesizing polynucleotides, such as DNA and RNA, using renewable initiators coupled to a solid support. Using the methods of the invention, specific sequences of polynucleotides can be synthesized de novo, base by base, in an aqueous environment, without the use of a nucleic acid template.

Provided in some aspects are methods for light-controlled in situ surface patterning of an array. Compositions such as nucleic acid arrays produced by the methods are also disclosed.

Provided in some aspects are methods for light-controlled in situ surface patterning of an array. Compositions such as nucleic acid arrays produced by the methods are also disclosed.

Oligonucleotide constructs are described, each comprising a functional element and a coding element, wherein the functional element comprises a functional sequence, the functional sequence comprising a sequence of nucleotides in which one or more, or each, nucleotide is modified and the coding element comprises a coding sequence, the coding sequence comprising a sequence of nucleotides which do not contain the modifications of the functional sequence, wherein the coding sequence encodes the sequence structure of the functional sequence.

Oligonucleotide constructs are described, each comprising a functional element and a coding element, wherein the functional element comprises a functional sequence, the functional sequence comprising a sequence of nucleotides in which one or more, or each, nucleotide is modified and the coding element comprises a coding sequence, the coding sequence comprising a sequence of nucleotides which do not contain the modifications of the functional sequence, wherein the coding sequence encodes the sequence structure of the functional sequence.

A method of using a sequencing cell includes applying an alternating signal across a nanopore of the sequencing cell. The method further includes acquiring a first set of voltage data during a first portion of a plurality of cycles of the alternating signal. The method further includes determining a shifted set of voltage data from the first set of voltage data, computing difference data values by computing differences between data points of the first set of voltage data and corresponding data points of the shifted set of voltage data, identifying a plurality of noise data points as data points having difference data values that are larger than a first threshold value, and removing the plurality of noise data points from the first set of voltage data.

A method of using a sequencing cell includes applying an alternating signal across a nanopore of the sequencing cell. The method further includes acquiring a first set of voltage data during a first portion of a plurality of cycles of the alternating signal. The method further includes determining a shifted set of voltage data from the first set of voltage data, computing difference data values by computing differences between data points of the first set of voltage data and corresponding data points of the shifted set of voltage data, identifying a plurality of noise data points as data points having difference data values that are larger than a first threshold value, and removing the plurality of noise data points from the first set of voltage data.

Methods of sequencing molecules based on luminescence lifetimes and/or intensities are provided. In some aspects, methods of sequencing nucleic acids involve determining the luminescence lifetimes, and optionally luminescence intensities, of a series of luminescently labeled nucleotides incorporated during a nucleic acid sequencing reaction. In some aspects, the disclosure provides compositions comprising luminescently labeled nucleotides.

Methods of sequencing molecules based on luminescence lifetimes and/or intensities are provided. In some aspects, methods of sequencing nucleic acids involve determining the luminescence lifetimes, and optionally luminescence intensities, of a series of luminescently labeled nucleotides incorporated during a nucleic acid sequencing reaction. In some aspects, the disclosure provides compositions comprising luminescently labeled nucleotides.