Abstract: The invention provides methods for pairwise sequencing of a double-stranded polynucleotide template, which methods result in the sequential determination of nucleotide sequences in two distinct and separate regions of the polynucleotide template.

Abstract: A method of inhibiting light-induced degradation of nucleic acids includes irradiating a portion of the nucleic acids in the presence of a detection solution comprising a polyphenolic compound. A method of detecting a nucleic acid having a fluorescent tag includes irradiating at least a portion of the nucleic acid with light of a suitable wavelength to induce a fluorescence emission and detecting the fluorescence emission. Optionally, the polyphenolic compound is gallic acid, a lower alkyl ester thereof, or mixtures thereof. A kit includes one or more nucleotides, an enzyme capable of catalyzing incorporation of the nucleotides into a nucleic acid strand and a polyphenolic compound suitable for preparing a detection solution.

Abstract: Embodiments disclosed herein provide reagents and kits for nucleic acid preparation comprising a siderophore. Embodiments disclosed herein provide methods for preparing a nucleic acid library, which comprise: providing a plurality of nucleic acid molecules from a sample; and manipulating the plurality of nucleic acid molecules in a reagent for nucleic acid preparation comprising a siderophore. Further, embodiments disclosed herein provide methods for reducing oxidative damage to a nucleic acid molecule or increasing the Q (phred) score of a sequencing reaction, which methods comprise preparing the nucleic acid molecule in the absence of EDTA.

Abstract: A method of inhibiting light-induced degradation of nucleic acids includes irradiating a portion of the nucleic acids in the presence of a detection solution comprising a polyphenolic compound. A method of detecting a nucleic acid having a fluorescent tag includes irradiating at least a portion of the nucleic acid with light of a suitable wavelength to induce a fluorescence emission and detecting the fluorescence emission. Optionally, the polyphenolic compound is gallic acid, a lower alkyl ester thereof, or mixtures thereof. A kit includes one or more nucleotides, an enzyme capable of catalyzing incorporation of the nucleotides into a nucleic acid strand and a polyphenolic compound suitable for preparing a detection solution.

Abstract: Embodiments disclosed herein provide reagents and kits for nucleic acid preparation comprising a siderophore. Embodiments disclosed herein provide methods for preparing a nucleic acid library, which comprise: providing a plurality of nucleic acid molecules from a sample; and manipulating the plurality of nucleic acid molecules in a reagent for nucleic acid preparation comprising a siderophore. Further, embodiments disclosed herein provide methods for reducing oxidative damage to a nucleic acid molecule or increasing the Q (phred) score of a sequencing reaction, which methods comprise preparing the nucleic acid molecule in the absence of EDTA.

Abstract: The present invention relates to methods of imaging template hybridisation for estimating cluster numbers prior to solid phase amplification and sequencing. More particularly, an initial round of imaging is carried out at the single molecule template hybridisation stage which allows a general estimation of cluster numbers prior to clusters being formed. Amplification of the signal allows single molecule imaging to be carried out using standard sequencing imaging apparatus.

Abstract: Embodiments provided herein relate to methods and compositions for preparing nucleic acid libraries. Some embodiments include preparing libraries from nucleic acids obtained from degraded samples, such as ancient samples and fixed samples.

Abstract: Embodiments disclosed herein provide reagents and kits for nucleic acid preparation comprising a siderophore. Embodiments disclosed herein provide methods for preparing a nucleic acid library, which comprise: providing a plurality of nucleic acid molecules from a sample; and manipulating the plurality of nucleic acid molecules in a reagent for nucleic acid preparation comprising a siderophore. Further, embodiments disclosed herein provide methods for reducing oxidative damage to a nucleic acid molecule or increasing the Q (phred) score of a sequencing reaction, which methods comprise preparing the nucleic acid molecule in the absence of EDTA.

Abstract: A method of inhibiting light-induced degradation of nucleic acids includes irradiating a portion of the nucleic acids in the presence of a detection solution comprising a polyphenolic compound. A method of detecting a nucleic acid having a fluorescent tag includes irradiating at least a portion of the nucleic acid with light of a suitable wavelength to induce a fluorescence emission and detecting the fluorescence emission. Optionally, the polyphenolic compound is gallic acid, a lower alkyl ester thereof, or mixtures thereof. A kit includes one or more nucleotides, an enzyme capable of catalyzing incorporation of the nucleotides into a nucleic acid strand and a polyphenolic compound suitable for preparing a detection solution.

Abstract: The invention provides methods for pairwise sequencing of a double-stranded polynucleotide template, which methods result in the sequential determination of nucleotide sequences in two distinct and separate regions of the polynucleotide template.

Abstract: The invention provides methods for pairwise sequencing of a double-stranded polynucleotide template, which methods result in the sequential determination of nucleotide sequences in two distinct and separate regions of the polynucleotide template.

Abstract: Provided herein is a method of inhibiting degradation of nucleic acids during a nucleic acid processing step selected from fragmentation and detection comprising contacting the nucleic acids with a solution comprising gallic acid, analogues, derivatives thereof or mixtures thereof, during the processing step, wherein the contacting inhibits degradation of the nucleic acids. Also provided herein is a method of inhibiting light-induced degradation of nucleic acids. Additionally, provided herein is a method of reducing or inhibiting nucleic acid damage during preparation of a nucleic acid sample comprising fragmenting the nucleic acid sequences in the sample in a solution comprising one of more compounds, the compounds inhibiting degradation of the nucleic acid sequences in the sample.

Abstract: The invention provides methods for pairwise sequencing of a double-stranded polynucleotide template, which methods result in the sequential determination of nucleotide sequences in two distinct and separate regions of the polynucleotide template.

Abstract: The invention provides methods for pairwise sequencing of a double-stranded polynucleotide template, which methods result in the sequential determination of nucleotide sequences in two distinct and separate regions of the polynucleotide template.

Abstract: The invention provides methods for pairwise sequencing of a double-stranded polynucleotide template, which methods result in the sequential determination of nucleotide sequences in two distinct and separate regions of the polynucleotide template.

Abstract: A pharmaceutical composition comprises M3 protein as encoded by virus MHV 68, or a homologue of said M3 protein, for use in binding to a chemokine or a chemokine analogue in vivo, or to block binding of chemokines to corresponding cell surface receptors in vivo, to produce an immunomodulatory effect, or to bind to a chemokine analogue present in a virus or parasite to block its entry into cells.