Abstract: Disclosed herein are base-modified nucleoside-5?-oligophosphates (bm-N5OP) that include a positively charged moiety at least at one position of the base, compositions comprising the same, compositions made from the same, methods of making the same, and methods of using the same. The bm-N5OP disclosed herein are useful, for example, as tagged nucleotides for use in nanoSBS methods and for generating primers and/or templates for use in nanoSBS methods. When incorporated into a polynucleotide, the disclosed bm-N5OPs can neutralize at least a portion of the negative charge of the overall polynucleotide molecule.

Abstract: The present disclosure relates to tagged nucleoside-5?-oligophosphates having a positively charged polymer tag structure and components thereof. Such nucleoside-5?-oligophosphates are useful, for example, in nanopore-based sequencing-by-synthesis applications. Also disclosed herein are nanopore constructs engineered to have additional negatively-charged moieties in the channel of the nanopore. Such nanopores can be useful, for example, for providing a repellant force against template and/or primer nucleic acids inserting into the pore during a nucleic sequence-by-synthesis process. The tagged nucleoside-5?-oligophosphates and nanopores disclosed herein can be used together to provide nanopore-based nucleic acid sequencing-by-synthesis systems and processes having reduced background tag levels and improved throughput.

Abstract: The present disclosure provides 3? protected nucleotides, including those 3? protected nucleotides having a detectable tag. Systems and methods of sequencing nucleic acids using the 3? protected nucleotides are also disclosed, such as the sequencing of a nucleic acid using a nanopore or the sequencing of a nucleic acid via sequencing-by-synthesis.

Abstract: The present disclosure provides 3? protected nucleotides, including those 3? protected nucleotides having a detectable tag. Systems and methods of sequencing nucleic acids using the 3? protected nucleotides are also disclosed, such as the sequencing of a nucleic acid using a nanopore or the sequencing of a nucleic acid via sequencing-by-synthesis.

Abstract: This application discloses compositions comprising primer compounds that reduce or block deleterious threading into a nanopore of nucleic acid strands displaced by a nanopore-linked polymerase, for example during the use of a nanopore device for nucleic acid sequencing. Also disclosed are methods for using the compositions to reduce deleterious threading events during nanopore-based nucleic acid detection techniques, such as nanopore sequencing.

Abstract: The present disclosure provides 3? protected nucleotides, including those 3? protected nucleotides having a detectable tag. Systems and methods of sequencing nucleic acids using the 3? protected nucleotides are also disclosed, such as the sequencing of a nucleic acid using a nanopore or the sequencing of a nucleic acid via sequencing-by-synthesis.

Abstract: The present disclosure provides 3? protected nucleotides, including those 3? protected nucleotides having a detectable tag. Systems and methods of sequencing nucleic acids using the 3? protected nucleotides are also disclosed, such as the sequencing of a nucleic acid using a nanopore or the sequencing of a nucleic acid via sequencing-by-synthesis.

Abstract: The present disclosure provides 3? protected nucleotides, including those 3? protected nucleotides having a detectable tag. Systems and methods of sequencing nucleic acids using the 3? protected nucleotides are also disclosed, such as the sequencing of a nucleic acid using a nanopore or the sequencing of a nucleic acid via sequencing-by-synthesis.

Abstract: The disclosure relates to tagged nucleoside compounds comprising a nucleotide polyphosphate covalently attached to a tag, wherein the compound is a polymerase substrate and the polymer moiety is capable of entering a nanopore linked to the polymerase and thereby altering the flow of ions through the nanopore. The disclosure also provides methods for preparing the tagged nucleoside compounds and for their use as tags in nanopore-based nucleic acid detection and sequencing.