This image compares three DNA sequencing technologies: Sanger sequencing, Massively Parallel DNA sequencing, and Nanopore DNA sequencing. Sanger sequencing (left) sequences 500-700 bases per reaction ...

In 1997, Sanger, Nicklen and Coulson described a method for determining DNA nucleotide sequences. 1 Nearly five decades later, Sanger sequencing remains an entrenched technology for targeted ...

The purpose of the whole-genome sequencing module is to provide an overview of whole-genome sequencing and next-generation sequencing, including historical, technical and utilization perspectives. The ...

Liquid biopsy is increasingly recognized as a promising tool for cancer detection and treatment monitoring, yet its ...

MUTE-Seq is a new liquid-biopsy method powered by an engineered ultra-precise CRISPR enzyme, FnCas9-AF2, which can distinguish single-base mismatches across all sgRNA positions with near-zero ...

The market for DNA Sequencing was valued at US$ 6.1 billion in 2021 and is projected to grow at a CAGR of 10.2% through 2032. The procedure used to determine a DNA’s nucleotide sequence is known as ...

Liquid biopsy is increasingly recognized as a promising tool for cancer detection and treatment monitoring, yet its ...

Traditional bisulfite sequencing damages DNA, while enzyme-based alternatives are inconsistent. A novel methylation analysis method, called UMBS-seq, has been published in Nature Communications.

With its fast analyses and ultra-long reads, nanopore sequencing has transformed genomics, transcriptomics and epigenomics. Now, thanks to advances in nanopore design and protein engineering, protein ...