Techniques and methods are provided for isolating nucleic acids from a sample. The methods include adding a chelating agent to the sample to block nucleic acid binding sites on contaminants in the sample; heating the sample to remove hydrocarbons; and lysing the cells using freeze-thaw cycles.

Techniques and methods are provided for isolating nucleic acids from a sample. The methods include adding a chelating agent to the sample to block nucleic acid binding sites on contaminants in the sample; heating the sample to remove hydrocarbons; and lysing the cells using freeze-thaw cycles.

Method for detecting the presence of nucleases in a sample, characterized in that it comprises the steps of: —incubating the sample to be tested for the presence of nucleases with at least one oligonucleotide linker constituting the substrate for the nuclease to be detected, for a sufficient time to cause degradation of said oligonucleotide linker by the nuclease possibly present in the sample, —adding to the sample, upon incubation, colloidal gold nanoparticles comprising gold nanoparticles functionalized with a first probe oligonucleotide and gold nanoparticles functionalized with a respective second probe oligonucleotide, said first and second probe oligonucleotides being complementary to a respective portion of the nucleotide sequence of the oligonucleotide linker, and—examining the possible colour change of the sample as a result of the addition of said nanoparticles, a colour change of the sample to the colour assumed by the colloidal gold particles when aggregated at a distance less than their size being indicative of the absence of the tested nuclease from the sample.

The present invention provides facile and accurate molecular diagnosis of disease-specific genes capable of the naked eye detection through amplifying the target genes to selectively block the fluid path in a microfluidic device. Specifically, the present invention includes an isothermal amplification of target genes through a rolling circle amplification, a microfluidic device for detecting pathogen genes, and a detection method using the same. Therefore, the present invention can conveniently detect a single target gene, such as a single pathogen, or at the same time, several target genes, such as several pathogens, without complicated mechanical equipment.

The present invention provides facile and accurate molecular diagnosis of disease-specific genes capable of the naked eye detection through amplifying the target genes to selectively block the fluid path in a microfluidic device. Specifically, the present invention includes an isothermal amplification of target genes through a rolling circle amplification, a microfluidic device for detecting pathogen genes, and a detection method using the same. Therefore, the present invention can conveniently detect a single target gene, such as a single pathogen, or at the same time, several target genes, such as several pathogens, without complicated mechanical equipment.

Methods, devices, and/or systems for providing carbon nanotube material that interacts with nucleotides to form CNT-nucleotide nanostructures wherein the CNT-nucleotide nanostructures form detectable network structures upon reactions with nucleic acids having targeted sequences.

Methods, devices, and/or systems for providing carbon nanotube material that interacts with nucleotides to form CNT-nucleotide nanostructures wherein the CNT-nucleotide nanostructures form detectable network structures upon reactions with nucleic acids having targeted sequences.

The invention relates to the identification of secretory antibody-bound bacteria in the microbiota in a subject that influence the development and progression of inflammatory diseases and disorders. Thus, the invention relates to compositions and methods for detecting and identifying the constituents of a subject's microbiota, methods of modifying the constituents of the microbiota, and methods for treating inflammatory diseases and disorders in a subject in need thereof.

The invention relates to the identification of secretory antibody-bound bacteria in the microbiota in a subject that influence the development and progression of inflammatory diseases and disorders. Thus, the invention relates to compositions and methods for detecting and identifying the constituents of a subject's microbiota, methods of modifying the constituents of the microbiota, and methods for treating inflammatory diseases and disorders in a subject in need thereof.

The present disclosure is directed to methods and/or uses of oligonucleotide conjugates for assays and flow cytometry detections and related systems and/or kits. Certain methods are directed to a method for detecting one or more biological targets of a sample in a detection assay, comprising: providing a molecular probe, comprising a binding moiety and an oligonucleotide sequence, to a sample comprising one or more biological targets; binding the one or more biological targets with the binding moiety; providing a detectable component to the sample, wherein the detectable component comprises a signal generating moiety conjugated to an oligonucleotide sequence complementary to the oligonucleotide sequence of the molecular probe; hydridizing the oligonucleotide sequence of the target-bound molecular probe to the detectable component; and detecting a signal generated from the hydridized detectable component. Various other embodiments, applications etc. are disclosed herein.