Abstract: Devices and methods for detecting microbial contaminants, such as bacteria and fungi, in fluids such as drinking water, pharmaceutical solutions and tissue culture media are provided. More particularly, provided are filtration devices for capture and processing of microorganisms from fluids, and improved methods for recovery, lysis and detection of microorganisms based on a combination of physical disruption with small beads and lysis solutions.

Abstract: The invention provides nucleic acids and polypeptides for a nucleic acid polymerase from a thermophilic organism, Thermus scotoductus. The invention also provides methods for using these nucleic acids and polypeptides.

Abstract: The invention provides nucleic acids and polypeptides for nucleic acid polymerases from a thermophilic organism, Thermus brockianus. The invention also provides methods for using these nucleic acids and polypeptides.

Abstract: The invention provides nucleic acids and polypeptides for a nucleic acid polymerase from a thermophilic organism, Thermus scotoductus. The invention also provides methods for using these nucleic acids and polypeptides.

Abstract: The invention provides novel nucleic acid polymerases from strains GK24 and RQ-1 of Thermus thermophilus, and nucleic acids encoding those polymerases, as well as methods for using the polymerases and nucleic acids.

Abstract: The present invention provides mutant DNA polymerases, polynucleotides encoding the polymerases, cassettes and vectors including such polynucleotides, and cells containing the polymerases, polynucleotides, cassettes, and/or vectors of the invention. The present invention also provides methods for synthesizing polynucleotides and kits including a DNA polymerase of the invention.

Abstract: The invention provides nucleic acids and polypeptides for a nucleic acid polymerase from a thermophilic organism, Thermus scotoductus. The invention also provides methods for using these nucleic acids and polypeptides.

Abstract: Devices and methods for detecting microbial contaminants, such as bacteria and fungi, in fluids such as drinking water, pharmaceutical solutions and tissue culture media are provided. More particularly, provided are filtration devices for capture and processing of microorganisms from fluids, and improved methods for recovery, lysis and detection of microorganisms based on a combination of physical disruption with small beads and lysis solutions.

Abstract: A method for preparing a nucleic acid sample for nucleic acid sequencing includes amplifying a nucleic acid target sequence using a primer bound to a first capture substrate; capturing an amplified nucleic acid product by the first capture substrate; generating at least one sequencing ladder from the amplified nucleic acid product using at least one sequencing primer; capturing the at least one sequencing ladder by hybridizing the at least one sequencing ladder to a complementary capture compound on a second capture substrate; and removing the at least one sequencing ladder from the second capture substrate. The first and/or second capture substrate may include a magnetic particle. Other methods, workflows, kits, and computer program media for nucleic acid sample preparation are also disclosed.

Abstract: The present specification describes several novel SNPs of Salmonella enterica subsp. enterica. SNP profiles comprising allelic compositions at each SNP position are described which may be used to identify and differentiate different strains and serovars of Salmonella enterica subsp. enterica. The specification also describes several compositions, methods and kits useful for identifying and differentially distinguishing strains and serovars of Salmonella enterica subsp. enterica.

Abstract: The invention provides novel nucleic acid polymerases from strains GK24 and RQ-1 of Thermus thermophilus, and nucleic acids encoding those polymerases, as well as methods for using the polymerases and nucleic acids.

Abstract: The invention provides novel nucleic acid polymerases from strains GK24 and RQ-1 of Thermus thermophilus, and nucleic acids encoding those polymerases, as well as methods for using the polymerases and nucleic acids.

Abstract: In general, the disclosed method can be used to remove contaminating microbes and nucleic acids from microorganisms-derived reagents, apparatus and processes (materials and apparatus) related to PCR (and RT-PCR), including sample prep reagents and materials that are used to isolate, purify and detect nucleic acids.

Abstract: The invention provides nucleic acids and polypeptides for nucleic acid polymerases from a thermophilic organism, Thermus brockianus. The invention also provides methods for using these nucleic acids and polypeptides.

Abstract: Methods, reagents, and kits for (mis)ligating oligonucleotide probes or for identifying at least one target nucleotide are disclosed. One can enhance the generation of misligation product using a ligase under reaction conditions and with reagents where that particular ligase is prone to misligation. Alternatively, one can decrease or avoid generating misligation products using a particular ligase under reaction conditions and using reagents where that ligase is at least less prone to misligation. In certain embodiments, the recombinant ligase from Archaeoglobus fulgidus (Afu) is employed due to its unique misligation properties.

Abstract: The invention provides novel nucleic acid polymerases from strains GK24 and RQ-1 of Thermus thermophilus, and nucleic acids encoding those polymerases, as well as methods for using the polymerases and nucleic acids.

Abstract: The invention provides novel nucleic acid polymerases from strains GK24 and RQ-1 of Thermus thermophilus, and nucleic acids encoding those polymerases, as well as methods for using the polymerases and nucleic acids.

Abstract: The present specification describes several novel SNPs of Salmonella enterica subsp. enterica. SNP profiles comprising allelic compositions at each SNP position are described which may be used to identify and differentiate different strains and serovars of Salmonella enterica subsp. enterica. The specification also describes several compositions, methods and kits useful for identifying and differentially distinguishing strains and serovars of Salmonella enterica subsp. enterica.

Abstract: A method for preparing a nucleic acid sample for nucleic acid sequencing includes amplifying a nucleic acid target sequence using a primer bound to a first capture substrate; capturing an amplified nucleic acid product by the first capture substrate; generating at least one sequencing ladder from the amplified nucleic acid product using at least one sequencing primer; capturing the at least one sequencing ladder by hybridizing the at least one sequencing ladder to a complementary capture compound on a second capture substrate; and removing the at least one sequencing ladder from the second capture substrate. The first and/or second capture substrate may include a magnetic particle. Other methods, workflows, kits, and computer program media for nucleic acid sample preparation are also disclosed.

Abstract: In general, the disclosed method can be used to remove contaminating microbes and nucleic acids from microorganisms-derived reagents, apparatus and processes (materials and apparatus) related to PCR (and RT-PCR), including sample prep reagents and materials that are used to isolate, purify and detect nucleic acids.