Abstract: Provided herein are compositions and methods for the detection and identification of Staphylococcus aureus strains harboring polymorphic SCCmec right extremity (MREP) type xxi sequences.

Abstract: A method for enrichment and isolation of microbial cells and microbial nucleic acids from a biological sample is described. The method comprises (i) adding to an initial volume of biological sample a differential cell lysis solution to obtain a final concentration of 0.1 to 1% of SDS in the sample; (ii) mixing the solution obtained in step (i) for a period of time sufficient to lyse the host cells present in the biological sample, while preserving the integrity of cells; and (iii) separating the microbial cells from the lysed host cells components. Differential cell lysis solutions and kits for practicing the method of the present invention are also provided.

Abstract: Provided herein are compositions and methods for the detection of Streptococcus agalacticae.

Abstract: A full process control for use with a molecular assay and a method of determine the efficacy of the molecular assay. A full process control can include a fixed cell, and specifically can include a fixed vegetative cell. A method of determining the efficacy of a molecular assay can include providing an internal control, mixing the internal control with a sample, lysing the internal control and the sample, and detecting the lysis product. The full process control and/or the internal control can be Bacillus subtilis cells.

Abstract: Provided herein are compositions and methods for the detection and identification of Staphylococcus aureus strains harboring polymorphic SCCmec right extremity (MREP) type xxi sequences.

Abstract: Provided herein are compositions and methods for the detection of Streptococcus agalacticae.

Abstract: A method for enrichment and isolation of microbial cells and microbial nucleic acids from a biological sample is described. The method comprises (i) adding to an initial volume of biological sample a differential cell lysis solution to obtain a final concentration of 0.1 to 1% of SDS in the sample; (ii) mixing the solution obtained in step (i) for a period of time sufficient to lyse the host cells present in the biological sample, while preserving the integrity of cells; and (iii) separating the microbial cells from the lysed host cells components. Differential cell lysis solutions and kits for practicing the method of the present invention are also provided.

Abstract: A full process control for use with a molecular assay and a method of determine the efficacy of the molecular assay. A full process control can include a fixed cell, and specifically can include a fixed vegetative cell. A method of determining the efficacy of a molecular assay can include providing an internal control, mixing the internal control with a sample, lysing the internal control and the sample, and detecting the lysis product. The full process control and/or the internal control can be Bacillus subtilis cells.

Abstract: Provided herein are compositions and methods for the detection of Streptococcus agalacticae.

Abstract: A full process control for use with a molecular assay and a method of determine the efficacy of the molecular assay. A full process control can include a fixed cell, and specifically can include a fixed vegetative cell. A method of determining the efficacy of a molecular assay can include providing an internal control, mixing the internal control with a sample, lysing the internal control and the sample, and detecting the lysis product. The full process control and/or the internal control can be Bacillus subtilis cells.

Abstract: Provided herein are compositions and methods for the detection and identification of Staphylococcus aureus strains harboring polymorphic SCCmec right extremity (MREP) type xxi sequences.

Abstract: Compositions and methods for the detection of vancomycin-resistant pathogens using primers and/or probes to the vanA and vanB genes.

Abstract: A full process control for use with a molecular assay and a method of determine the efficacy of the molecular assay. A full process control can include a fixed cell, and specifically can include a fixed vegetative cell. A method of determining the efficacy of a molecular assay can include providing an internal control, mixing the internal control with a sample, lysing the internal control and the sample, and detecting the lysis product. The full process control and/or the internal control can be Bacillus subtilis cells.

Abstract: Four highly conserved genes, encoding translation elongation factor Tu, translation elongation factor G, the catalytic subunit of proton-translocating ATPase and the RecA recombinase, are used to generate species-specific, genus-specific, family-specific, group-specific and universal nucleic acid probes and amplification primers to rapidly detect and identify algal, archaeal, bacterial, fungal and parasitical pathogens from clinical specimens for diagnosis. The detection of associated antimicrobial agents resistance and toxin genes are also under the scope of the present invention.

Abstract: Four highly conserved genes, encoding translation elongation factor Tu, translation elongation factor G, the catalytic subunit of proton-translocating ATPase and the RecA recombinase, are used to generate species-specific, genus-specific, family-specific, group-specific and universal nucleic acid probes and amplification primers to rapidly detect and identify algal, archaeal, bacterial, fungal and parasitical pathogens from clinical specimens for diagnosis. The detection of associated antimicrobial agents resistance and toxin genes are also under the scope of the present invention.

Abstract: Four highly conserved genes, encoding translation elongation factor Tu, translation elongation factor G, the catalytic subunit of proton-translocating ATPase and the RecA recombinase, are used to generate species-specific, genus-specific, family-specific, group-specific and universal nucleic acid probes and amplification primers to rapidly detect and identify algal, archaeal, bacterial, fungal and parasitical pathogens from clinical specimens for diagnosis. The detection of associated antimicrobial agents resistance and toxin genes are also under the scope of the present invention.

Abstract: Compositions and methods for the detection of vancomycin-resistant pathogens using primers and/or probes to the vanA and vanB genes.

Abstract: Compositions and methods for the detection of vancomycin-resistant pathogens using primers and/or probes to the vanA and vanB genes.

Abstract: Four highly conserved genes, encoding translation elongation factor Tu, translation elongation factor G, the catalytic subunit of proton-translocating ATPase and the RecA recombinase, are used to generate species-specific, genus-specific, family-specific, group-specific and universal nucleic acid probes and amplification primers to rapidly detect and identify algal, archaeal, bacterial, fungal and parasitical pathogens from clinical specimens for diagnosis. The detection of associated antimicrobial agents resistance and toxin genes are also under the scope of the present invention.

Abstract: This invention describes a rapid (10 to 15 minutes), simple, flexible and efficient method of nucleic acids extraction for nucleic acid testing assays. This method has the following basic steps: i) mechanical cell lysis using solid particles in the presence of a chelating agent, followed by ii) controlling the presence and/or activity of NAT assays inhibitors. This method is applicable to various biological samples and universal for microorganisms, as one can use it to extract nucleic acids from test samples containing target viruses, bacteria, bacterial spores, fungi, parasites or other eukaryotic cells, including animal and human cells.