Abstract: The present invention provides methods and compositions for carrying out nucleic acid sequencing, particularly paired-end sequencing. The methods use concatemeric sequencing templates that can be produced by rolling circle amplification of asymmetric circular nucleic acids having a central double-stranded region comprising a target nucleic acid sequence that is connected at each end to form a circular construct.

Abstract: Method and apparatus to facilitate separation of solution-phase components surrounding an immobilized multicomponent complex while stabilizing association of the components within the complex. The technique can be used for reducing background signal arising from the presence of non-complexed components harboring detectable labels, thereby enhancing signal-to-background ratios and allowing enhanced detection of the multicomponent complex.

Abstract: Method and apparatus to facilitate separation of solution-phase components surrounding an immobilized multicomponent complex while stabilizing association of the components within the complex. The technique can be used for reducing background signal arising from the presence of non-complexed components harboring detectable labels, thereby enhancing signal-to-background ratios and allowing enhanced detection of the multicomponent complex.

Abstract: Method and composition for identifying cognate nucleotides in a Sequencing By Binding™ procedure, wherein one or more labeled nucleotides are detected in ternary complexes but never incorporated. Labeled nucleotides can be incorporable nucleotides that contact preformed blocked primed template nucleic acids. Alternatively, labeled nucleotides are labeled non-incorporable nucleotides. Labeled nucleotides, including labeled non-incorporable nucleotides, can be detected in ternary complexes in the same reaction mixture that incorporates a reversible terminator nucleotide to create a blocked primed template nucleic acid. Detection of ternary complexes can take place in the presence of a catalytic metal ion.

Abstract: Method and composition for identifying cognate nucleotides in a Sequencing By Binding™ procedure, wherein one or more labeled nucleotides are detected in ternary complexes but never incorporated. Labeled nucleotides can be incorporable nucleotides that contact preformed blocked primed template nucleic acids. Alternatively, labeled nucleotides are labeled non-incorporable nucleotides. Labeled nucleotides, including labeled non-incorporable nucleotides, can be detected in ternary complexes in the same reaction mixture that incorporates a reversible terminator nucleotide to create a blocked primed template nucleic acid. Detection of ternary complexes can take place in the presence of a catalytic metal ion.

Abstract: Method and apparatus to facilitate separation of solution-phase components surrounding an immobilized multicomponent complex while stabilizing association of the components within the complex. The technique can be used for reducing background signal arising from the presence of non-complexed components harboring detectable labels, thereby enhancing signal-to-background ratios and allowing enhanced detection of the multicomponent complex.

Abstract: Method and composition for identifying cognate nucleotides in a Sequencing By Binding™ procedure, wherein one or more labeled nucleotides are detected in ternary complexes but never incorporated. Labeled nucleotides can be incorporable nucleotides that contact preformed blocked primed template nucleic acids. Alternatively, labeled nucleotides are labeled non-incorporable nucleotides. Labeled nucleotides, including labeled non-incorporable nucleotides, can be detected in ternary complexes in the same reaction mixture that incorporates a reversible terminator nucleotide to create a blocked primed template nucleic acid. Detection of ternary complexes can take place in the presence of a catalytic metal ion.