The invention discloses a composition and kit for early detection of high-grade cervical lesions and cervical cancer, wherein the composition for early detection of high-grade cervical lesions and cervical cancer includes methylation primers, a probe corresponding to methylated sites and methylation blocking primers for FAM19A4 gene; methylation primers, a probe corresponding to methylated sites and methylation blocking primers for JAM3 gene; methylation primers, a probe corresponding to methylated sites and methylation blocking primers for PAX1 gene; and 1 pair of primers and a probe corresponding to methylated sites for internal reference gene GAPDH. The methylated sites in FAM19A4, JAM3 and PAX1 genes are accurately detected using multiple multi-channel fluorescence and blocking techniques through accurate recognition between specific primers and probes and methylated sequences, full release of methylated templates under the action of multiple blocking primers and optimized special methylation DNA polymerase.

The present invention relates to a method of diagnosing or predicting the prognosis of colorectal cancer by measuring the methylation level in the intragenic region of PDXJ, EN2 and/or MSXJ. The present invention provides highly reliable biomarkers for colorectal cancer by identifying CpG regions in genes that are hypermethylated specifically in colorectal cancer patients, and also provides optimized methylation-specific PCR (MSP) primers capable of efficiently detecting the identified CpG regions. Accordingly, the present invention may provide important clinical information that makes it possible to accurately predict not only the onset of colorectal cancer, but also overall prognosis including the degree of invasion of cancer tissue, the likelihood of metastasis, and the survival rate of the patient, thereby establishing a treatment strategy early and significantly improving the survival rate of colorectal cancer patients. The present invention also provides, as guidelines for the design of primers capable of accurately detecting DNA methylation, optimal parameters for the amplicon length, the total number of CpGs in target gene-binding regions of the primers, and the range of Tm values.

The present invention provides a method of quantification of a target nucleic acid, using at least any two of the genes SYT10, EPHA3, PLEKHF1 and KBTBD4 as control genes. In particular, the combination of the genes SYT10, EPHA3, PLEKHF1 and KBTBD4, known as the 4Plex, is provided as a control for nucleic acid quantification. The 4Plex has particular utility as a control for nucleic acid quantification by methylation-specific droplet digital PCR.

The present disclosure provides methods and systems for screening or detecting a colorectal cancer or following colorectal disease progression that may be applied to cell-free nucleic acids such as cell-free DNA. The method may use detection of methylation signals within a single sequencing read in identified genomic regions as input features to train a machine learning model and generate a classifier useful for stratifying populations of individuals. The method may comprise extracting DNA from a cell-free sample obtained from a subject, converting the DNA for methylation sequencing, generating sequencing reads, and detecting colon proliferative cell disorder-associated signals in the sequencing information and training a machine learning model to provide a discriminator capable of distinguishing groups in a subject population such as healthy, cancer or distinguishing disease subtype or stage. The method may be used for, e.g., predicting, prognosticating, and/or monitoring response to treatment, tumor load, relapse, or colorectal cancer development.

Disclosed are compositions and methods for the diagnosis of Facioscapulohumeral muscular dystrophy (FSHD) using nanopore sequencing and CRISPR/Cas9 enrichment of D4Z4 containing sequences to determine the number of repeats in a D4Z repeat region and methylation of the nucleotide bases in this region.

The present invention provides methods, compositions and kits for assembling an enzyme-deoxyribonucleic acid (DNA) complex for use in preparing a double stranded DNA molecule comprising one or more loci of interest for determining the methylation status of the one or more loci of interest therein.

Methods of detecting methylated CpG are provided. Accordingly, there is provided a method of determining CpG methylation status in a DNA sample, the method comprising: (a) subjecting the DNA sample to bisulfite conversion; (b) amplifying said DNA sample following said (a) to obtain an amplified DNA sample; (c) labeling CpG sites in said amplified DNA sample with a label to obtain a labeled DNA sample; (d) contacting said labeled DNA sample on an array comprising a plurality of probes for said DNA under conditions which allow specific hybridization between said plurality of probes and said DNA; and (e)detecting said hybridization, wherein an amount of said label is indicative of the CpG methylation status in said DNA sample.

Provided herein is technology for prostate cancer screening and particularly, but not exclusively, to methods, compositions, and related uses for detecting the presence of prostate cancer.

Disclosed herein is a combination of genomic sequences whose methylation patterns have utility for the improved detection and differentiation between colorectal neoplasms. Further disclosed herein are methods, nucleic acids and kits for detecting or differentiating between colorectal neoplasms.

Disclosed herein are methods for molecularly characterizing cervical cell samples as being negative for intraepithelial lesion or malignancy (NILM), low-grade squamous intraepithelial lesion (LSIL), or high-grade squamous intraepithelial lesion (HSIL).