Improved solid supports and methods for analyzing target nucleotide sequences are provided herein. Certain improvements are directed to efficiently preparing nucleic acids that comprise nucleotide sequences identical to or substantially identical to one or more target nucleotide sequences, or complement thereof. The prepared nucleic acids include a reference sequence that facilitates sequence analysis. The solid supports and methods provided herein minimize the number of steps required by published sequence analysis methodologies, and thereby offer improved sequence analysis efficiency.

Improved solid supports and methods for analyzing target nucleotide sequences are provided herein. Certain improvements are directed to efficiently preparing nucleic acids that comprise nucleotide sequences identical to or substantially identical to one or more target nucleotide sequences, or complement thereof. The prepared nucleic acids include a reference sequence that facilitates sequence analysis. The solid supports and methods provided herein minimize the number of steps required by published sequence analysis methodologies, and thereby offer improved sequence analysis efficiency.

The present invention relates to methods and systems for the analysis of nucleic acids present in biological samples, and more specifically, relates to clustering melt curves derived from high resolution thermal melt analysis performed on a sample of nucleic acids, the resulting clusters being usable, in one embodiment, for analyzing the sequences of nucleic acids and to classify their genotypes that are useful for determining the identity of the genotype of a nucleic acid that is present in a biological sample.

The present invention relates to methods and systems for the analysis of nucleic acids present in biological samples, and more specifically, relates to clustering melt curves derived from high resolution thermal melt analysis performed on a sample of nucleic acids, the resulting clusters being usable, in one embodiment, for analyzing the sequences of nucleic acids and to classify their genotypes that are useful for determining the identity of the genotype of a nucleic acid that is present in a biological sample.

A highly sensitive and specific reverse transcription loop-mediated isothermal amplification (RT-LAMP) assay to detect ZIKV nucleic acid in biological samples is described. The disclosed assay is capable of detecting as few as one RNA copy per μl and can be performed in a clinical or field setting with minimal equipment and technological expertise. Oligonucleotide primers and kits for detecting ZIKV nucleic acid are also described.

A highly sensitive and specific reverse transcription loop-mediated isothermal amplification (RT-LAMP) assay to detect ZIKV nucleic acid in biological samples is described. The disclosed assay is capable of detecting as few as one RNA copy per μl and can be performed in a clinical or field setting with minimal equipment and technological expertise. Oligonucleotide primers and kits for detecting ZIKV nucleic acid are also described.

Devices, containers, and methods are provided for performing biological analysis in a closed environment. Illustrative biological analyses include nucleic acid amplification and detection and immuno-PCR.

Devices, containers, and methods are provided for performing biological analysis in a closed environment. Illustrative biological analyses include nucleic acid amplification and detection and immuno-PCR.

The present invention relates to the filed of diagnostic and/or prognostic and/or subject stratification biomarker assays for the prognosis and/or diagnosis and/or therapy of high risk early psychosis subjects, wherein psychotic disorder may include schizophrenia, bipolar disorder (manic depression), epilepsy, mood disorder, age-related disorders, or cognitive impairment, or another psychotic disorder. The expression markers used are miR-137 and COX6A2. The present invention also relates to the use of mitochondria-targeted antioxidant in the treatment of subjects classified as high-risk early psychosis subjects and to a kit comprising means for determining said markers.

The present disclosure relates to a structure capable of simultaneously purifying and detecting a nucleic acid by directly applying a sample, and more particularly, to a structure capable of performing sample preparation, loop-mediated isothermal amplification, detection and analysis steps on a single chip by applying lab-on-paper technology, and capable of finally determining whether the disease or bacterial is infected by moving the sample in a lateral flow method.