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.

Disclosed herein, inter alia, are modified nucleotides and methods of using the same in nucleic acid sequencing reactions.

Disclosed herein, inter alia, are modified nucleotides and methods of using the same in nucleic acid sequencing reactions.

DNA sequencing by sequential addition/incorporation of non 3’capped and fluorescently labeled nucleotides. Each incorporation of individual nucleotides (A, or T or G or C) are separated by a wash. After all incorporation using all four bases, the substrate is imaged then the dyes are cleaved, and the following cycle of incorporations, washes, imaging and cleave is resumed.

DNA sequencing by sequential addition/incorporation of non 3’capped and fluorescently labeled nucleotides. Each incorporation of individual nucleotides (A, or T or G or C) are separated by a wash. After all incorporation using all four bases, the substrate is imaged then the dyes are cleaved, and the following cycle of incorporations, washes, imaging and cleave is resumed.

This invention relates to the preparation of nucleic acid samples for analysis. The invention may be particularly useful for single stranded samples. Embodiments of the invention involve the attachment of double stranded or hairpin oligonucleotides using template independent polymerase enzymes in the preparation of nucleic acid sequencing libraries.

This invention relates to the preparation of nucleic acid samples for analysis. The invention may be particularly useful for single stranded samples. Embodiments of the invention involve the attachment of double stranded or hairpin oligonucleotides using template independent polymerase enzymes in the preparation of nucleic acid sequencing libraries.

This invention provides a process for sequencing nucleic acids using 3′ modified deoxynucleotide analogues or 3′ modified deoxyinosine triphosphate analogues, and 3′ modified dideoxynucleotide analogues having a detectable marker attached thereto.

The present invention is directed to methods and compositions for generating a pool of oligonucleotides. The invention finds use in preparing a population or subpopulations of oligonucleotides in solution. The pool of oligonucleotides finds use in a variety of nucleic acid detection and/or amplification assays.