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Oxford Nanopore Technologies Ltd

R&D/Manufacturing

Membership category
Corporate Technology

Gosling Building, Edmund Halley Road, Oxford, OX4 4DQ, United Kingdom

Oxford Nanopore Technologies Ltd at a glance

Oxford Nanopore makes Nanopore sensing devices designed to enable the analysis of any living thing, by any person, in any environment.

About Oxford Nanopore Technologies Ltd

Our goal: to enable the analysis of any living thing, by any person, in any environment Oxford Nanopore Technologies has developed the world’s first and only nanopore DNA sequencer, the MinION. The MinION is a portable, real time, long-read, low cost device that has been designed to bring easy biological analyses to anyone, whether in scientific research, education or a range of real world applications such as disease/pathogen surveillance, environmental monitoring, food chain surveillance, self-quantification or even microgravity biology. Now commercially available, the MinION is in use by a thriving community of more than 1,000 people in 34 countries, it is enabling myriad applications within the traditional laboratory environment and in the field. Nanopore sensing technology is fully scalable and the high-throughput, high-sample number PromethION is currently being prepared for release in the PromethION Early Access Programme (PEAP). Oxford Nanopore is focused on making DNA based analyses easy enough for any user and so we are working to simplify the sample preparation and data analysis processes. For sample preparation this includes a 15 minute sample prep kit, and VolTRAX (in development), a rapid, programmable, portable, disposable sample preparation device designed to convert complex samples such as blood, saliva or environmental samples directly onto a nanopore sensing device. Metrichor offers analysis solutions coupled with nanopore sensing devices, with the goal of making analyses accessible to people without bioinformatics skills or even biology qualifications. Nanopore devices can be adapted for the analysis of a range of biological molecules including DNA, RNA and proteins. Supported by a broad patent portfolio, the Oxford Nanopore pipeline includes multiple generations of nanopore-based sensing technologies, including solid-state and graphene nanopores.

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