The present invention provides a reagent and method for detecting a replication-competent lentivirus (RCL) by fluorescence quantitative real-time polymerase chain reaction (PCR). In particular, the present invention provides a primer and probe combination for detecting RCL, and a method for performing detection using said primer and probe; the present invention also provides a reagent kit comprising said primer and probe. The primer and probe combination of the present invention detects RCL with high amplification efficiency and good specificity, and can be used for RCL detection and RCL monitoring of clinical patient peripheral blood samples which may occur during a production process.

The purpose of the present invention is to provide a method for predicting the effectiveness of an angiogenesis inhibitor in a subject suffering from a tumor. Provided is a method comprising a step of testing for the presence or absence of an a mutation or loss of expression of B-Raf and PTEN in a sample of tumor tissue from the subject. By using the presence or absence of or a mutation or loss of expression of B-Raf and PTEN as an indicator, this method enables the antitumor effectiveness of the angiogenesis inhibitor to be predicted without administering the angiogenesis inhibitor to the subject.

Provided herein is technology for colorectal neoplasia screening and particularly, but not exclusively, to methods, compositions, and related uses for detecting the presence of colorectal neoplasia in 1) individuals at, older or younger than 50 years of age, or 2) individuals having Lynch Syndrome.

The present invention relates to a method for determining presence of a pre-determined nucleic acid sequence in a sample, the method comprising the steps of adding one or more enzyme(s) providing activities of RNA- and/or DNA-dependent DNA polymerase activity and strand-displacement activity to the sample to be analysed for the presence of the pre-determined nucleic acid sequence; adding at least five DNA primers to the sample to be analysed for the presence of the pre-determined nucleic acid sequence, wherein at least one DNA primer comprises a sequence hybridisable to the nucleic acid sequence and at least one DNA primer comprises a sequence hybridisable to the DNA sequence reverse-complementary to the nucleic acid sequence; incubating the sample resulting at a fixed temperature; determining whether a double-stranded elongated DNA sequence is present in the sample, wherein presence of the double-stranded elongated DNA sequence in the sample is indicative of the presence of the pre-determined nucleic acid sequence in the sample, wherein the pre-determined nucleic acid sequence is of a bacterium of the Mollicutes class and wherein no F3 primer is used.

The oligonucleotide nanostructures enable pattern-recognized targeting of diseases, particularly useful as high-specificity detectors and inhibitors of viruses and toxins, such as for Dengue virus particles. The nanostructures include an oligonucleotide scaffold with a plurality of binders arranged in a pattern conforming to a plurality of surface epitopes of a target disease. Binding of the scaffolds to these surface epitopes has been shown to have inhibitory effects against the target disease. The scaffolds can also include functional domains that activate upon target binding. Assembly of the scaffolds can be achieved via annealing of separate oligonucleotide segments of predetermined length and sequence, which also advantageously define locations of binding domains in the resulting structure. This approach provides precise control over the spacing and orientation of epitope binding sites in the scaffold.

The disclosure provides methods for the use of gene expression measurements to classify or identify neuroendocrine cancer in samples obtained from a subject in a clinical setting, such as in cases of formalin fixed, paraffin embedded (FFPE) samples.

The present invention determines lymphocyte clonality by contacting a sample comprising nucleic acid molecules (1) of lymphocytes with forward and reverse primers (10, 20) and amplifying the nucleic acid molecules (1) by performing PCR pre-amplification to form barcoded PCR products (50). The barcoded PCR products (50) are amplified using adapter-specific forward and reverse primers (30, 40) in a PCR application into amplified barcoded PCR products (60), which are sequenced. The sequence reads are demultiplexed, mapped to respective TCR or BCR clonotypes and used to determine lymphocyte clonality for the sample. The forward and/or reverse primers (10, 20) are barcoded by comprising UMIs (14, 24) protected inside hairpin loops.

A primer composition, a kit and a method for detecting microhaplotype loci based on next generation sequencing technology and applications thereof are provided, relating to the technical field of forensic medicine, which are used to amplify 163 microhaplotype loci on human genome. The primer composition includes one or more pairs of primers with sequences as shown in SEQ ID NO: 1˜326. The primer composition involves 163 microhaplotype loci covering 22 autosomes, which can provide more new genetic information in Asian population than the system constructed in the past. In addition, compared with the next generation sequencing kit of STR loci, the kit has better mixture detection capability. Moreover, the microhaplotype genetic markers have high ancestry information content and can distinguish populations in Africa, Europe, South Asia, and East Asia. Therefore, the microhaplotype genetic markers can also be used for ancestry inference in addition to individual identification and parentage testing.

A method of detecting a presence of Francisella tularensis (F. tularensis). The method includes amplifying a first nucleic acid from said specimen using a first plurality of primers, said first plurality of primers comprising SEQ ID NO 4 and SEQ ID NO 5. When the first nucleic acid is detected, then the presence of F. tularensis is determined.

The present invention provides a rapid viral nucleic acid detection kit prepared by using a novel RecA enzyme and the detection method thereof. By editing the recombinase RecA gene, the expressed RecA protein has better solubility and recombinase activity. The RecA protein is used to prepare recombinase dry powder, further the formula of the recombinase dry powder and the ratio are optimized; and specific primers for the ASFV p72 gene are designed for the rapid nucleic acid detection of ASFV, significantly improving the detection sensitivity. In addition, the detection time is short, which effectively avoids missed detection and false detection, and helps prevention of epidemic.