)
Direct RNA Sequencing Kits
In this flyer, discover how you can sequence RNA in its native form. Plus, learn how the new Direct RNA Barcoding Kit unlocks multiplexed sequencing of up to 24 samples in a single run.
)
PromethION 24: sequencing to the power of 24
Multiply your insights with PromethION 24, the production-scale nanopore sequencer that puts you in control of up to 24 high-output flow cells. Discover more.
)
PromethION 2 Integrated: small box, big picture
Explore the PromethION 2 Integrated and bring high-output Oxford Nanopore sequencing to your lab. Run up to two independent flow cells with onboard compute for real-time insights. Discover more.
)
PromethION 2 Integrated specification sheet
Explore sequencing performance data, example end-to-end workflows, technical specifications, and purchasing information to help you understand how the PromethION 2 Integrated can deliver richer insights for your laboratory.
Quick start guides
PromethION 24/48 (A-Series) Quick start guide
This Quick start guide contains everything you need to set up your PromethION™ 24/48 A-Series and to check the device is ready for use
PromethION 24 Combined Quick start guide
This Quick start guide contains everything you need to set up your PromethION™ 24/48 A-Series and to check the device is ready for use.
)
PromethION 2 Solo Quick start guide
This Quick start guide contains everything you need to set up your PromethION™ 2 Solo and to check that the device is ready for use.
PromethION 2 Integrated Quick start guide
This Quick start guide sets up your PromethIONTM 2 Integrated for use.
Device documentation
)
PromethION 2 Integrated – device and IT specifications
This document describes the device and IT specifications for the Oxford Nanopore PromethION 2 Integrated sequencer.
)
PromethION 24/48 A-Series – device and IT specifications
This document describes the device and IT specifications for the PromethION 24/48 A-Series device.
PromethION 24 A100 Technical Specification
Featured lessons
)
From full-length 16S to high-resolution metagenomics: how do I choose the right microbial community workflow for my experiment?
In this masterclass, find the right microbial community sequencing workflow to meet your experimental goals. We’ll cover microbial identification from full-length 16S/ITS sequencing through to comprehensive metagenomic assembly. In this masterclass, discover: • How Oxford Nanopore sequencing deliver
)
From speed to scale: how do I choose the right human whole-genome sequencing workflow for my experiment?
In this masterclass, find the right human whole-genome sequencing workflow to meet your experimental goals. We’ll cover whole-genome analysis in just 24 hours through to scaling sequencing for large cohort research. In this masterclass, discover: • How Oxford Nanopore sequencing is advancing human g
)
How do I analyse my Oxford Nanopore sequencing data without specialist training?
In this beginner-friendly masterclass, discover how to analyse your Oxford Nanopore sequencing data. Find out how basecalling works, the common file formats you’ll encounter, and how to use MinKNOW to set up and monitor your sequencing run. Then, discover how to analyse your data with EPI2ME — no pr
)
Which library prep workflow is right for my experiment?
Whether you’re sequencing DNA, RNA, or cDNA, a single sample or many in multiplex, there’s an Oxford Nanopore library prep kit for you. In this masterclass, discover how to choose the right one for your workflow. In this masterclass, discover: • The range of Oxford Nanopore library prep solutions av
)
How do I extract high-quality DNA and RNA for my Oxford Nanopore sequencing experiment?
Great sequencing results start with high-quality DNA and RNA extraction. In this masterclass, find out how to achieve just that — from choosing the right method for you to performing size selection, fragmentation, and sample handling. In this masterclass, discover: • How to optimise extraction for y
Product safety
)
Device safety and regulatory information
There are risks to the user if the device official documentation from the Nanopore Community is not followed instructively.