A new nanopore-based method uses AI to recognize proteins from their electrical signatures, enabling fast, single-molecule, ...
Nanopore sequencing offers comparable accuracy to short-read NGS for IGH clonotyping in CLL, with advantages in cost and laboratory footprint. The study confirms reliable somatic hypermutation status ...
Proteins are responsible for most functions in the human body. However, their analysis, which is essential for understanding ...
First-in-class solution consolidates multiple assays into a single test, enabling broader viral detection, faster time-to-result and more confident decision-making in regulated biopharmaceutical ...
Living systems such as cells rely on membrane pores and channels to transport molecules, exchange signals, and organize biochemical reactions. These functions emerge from dynamic interactions between ...
OXFORD, England, & LOS ANGELES--(BUSINESS WIRE)--Oxford Nanopore Technologies, the company behind a new generation of molecular sensing technology based on nanopores, and Plasmidsaurus, the LA-based ...
How Does Nanopore Technology Work? In practical terms, nanopore technology involves applying a voltage across a thin membrane with a nanopore. When molecules such as DNA pass through the nanopore, ...
Nanopore technology involving single-molecule detection originated from the recording technology of single-channel current, with the single-molecule analysis method being developed in 1966. Such a ...
Since the 1990s, nanopores have been used for sequencing strands of DNA. A voltage is applied across the nanopore, which is embedded in a thin lipid membrane, causing a stretch of DNA to thread ...
Oxford Nanopore Technologies is looking forward to “the year of the proteome,” as co-founder and CEO Gordon Sanghera, PhD, labeled 2025 during his presentation at the recent 43rd Annual J.P. Morgan ...
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