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Getting started guides

Preview of the microbial getting sequencing getting started guideGetting started guide

A guide to microbial sequencing with Oxford Nanopore

A guide to get started with sequencing microbial samples with Oxford Nanopore.


Most viewed

Plot showing the relationship between depth of coverage of nanopore reads and the accuracy of consensus sequences generated by EPI2ME wf-amplicon versus Sanger sequencing.Application note

A successor to Sanger: accurate, full-length, and haplotype-resolved amplicon sequencing with Oxford Nanopore

In this application note, we evaluate Oxford Nanopore sequencing for amplicon analysis using matched datasets generated with both Oxford Nanopore and Sanger sequencing.
Image of metagenomics application noteApplication note

Oxford Nanopore sequencing provides superior metagenome-assembled genome recovery and strain-level resolution from a complex microbiome

In this application note, we demonstrate the capabilities of Oxford Nanopore metagenomics by sequencing and analysing the well-characterised ZymoBIOMICS Fecal Reference.
Application note: bacterial isolate sequencing — 2 pagesApplication note

Oxford Nanopore whole-genome sequencing of foodborne pathogens

In this application note, we demonstrate the suitability of Oxford Nanopore sequencing as a standalone platform for foodborne pathogen whole-genome sequencing.
GridION flyer cover imageBrochure

GridION: one sequencer for many

Made with multiple projects and teams in mind, GridION gives you the freedom to start, stop, and scale your sequencing experiments without impacting others. Meanwhile, onboard compute keeps your real-time data optimised. Discover more.
MinION Mk1D flyer cover imageBrochure

MinION: palm sized, world ready

Discover how the portable yet powerful MinION Mk1D sequencing device can take your insights further afield. Start generating rapid, real-time results without compromise.

Workflow overviews

Preview of the NO-MISS workflow overviewWorkflow overview

Nanopore-only microbial isolate sequencing solution (NO-MISS): flexible, rapid bacterial and fungal isolate whole-genome sequencing

This end-to-end workflow provides a rapid solution for whole-genome Oxford Nanopore sequencing of bacterial and fungal isolates.
Preview of the microbial amplicon barcoding workflow.Workflow overview

Streamlined identification of bacteria, archaea, and fungi with Oxford Nanopore microbial amplicon barcoding

This end-to-end workflow introduces how to sequence the full length 16S gene and ITS region with Oxford Nanopore technology.
Workflow: plasmid sequencing — 2 pagesWorkflow overview

Rapid and complete plasmid characterisation with Oxford Nanopore sequencing

This end-to-end workflow is a rapid method for complete, high-quality whole-plasmid characterisation.
Microbiology stillWorkflow overview

Rapid viral sequencing for genomic surveillance of mpox using metagenomic or targeted approaches

This end-to-end workflow provides guidance for both metagenomic and targeted viral genome sequencing to deliver rapid and actionable results.
Image preview of the pathogen metagenomics workflow overview.Workflow overview

Rapid identification of respiratory pathogens with Oxford Nanopore metagenomics

This end-to-end workflow introduces how to rapidly identify bacterial, fungal, and viral pathogens from respiratory research samples using metagenomic Oxford Nanopore sequencing on a MinION or GridION.

Image of pathogen surveillance white paperWhite paper

Delivering the future of genomic pathogen surveillance with Oxford Nanopore sequencing

Achieve comprehensive, affordable, and real-time analysis of human and animal pathogens with nanopore sequencing.
Image of metagenomics white paperWhite paper

Addressing the challenges of metagenomics with Oxford Nanopore sequencing

Explore how reads with unrestricted length are revealing unprecedented insight into microbial communities.
Oxford Nanopore microbial profilingCase study

High-quality bacterial genomes without the complexity

In this case study, researchers show that near-complete bacterial genomes can be assembled using nanopore sequencing alone.
From_full-length_16S_to_high-resolution_metagenomics_choosing_the_right_microbial_community_workflowEvent video

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
Analyse_Oxford_Nanopore_sequencing_data_without_specialist_trainingEvent video

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

Protocols

SQK-RBK110.96 gDNA workflow v1

快速DNA测序V14 - 条形码(SQK-RBK114.24 或 SQK-RBK114.96)

本实验指南: - 使用基因组DNA - 支持为1-96个样本混样测序 - 建库用时仅需约60分钟 - 产出量高 - 包含片段化步骤 - 与R10.4.1 测序芯片兼容 仅供研究使用

基因组DNA连接法测序 - 免扩增条形码测序试剂盒-24(SQK-NBD114.24)

本文档描述了基因组 DNA 的免扩增条形码建库流程。 实验指南: - 使用免扩增条形码测序试剂盒-24 V14 (SQK-NBD114.24) - 无需PCR扩增 - 支持多达24种条形码 - 可分析天然DNA - 与R10.4.1 测序芯片兼容 仅供研究使用

基因组DNA连接法测序 - 免扩增条形码测序试剂盒-96(SQK-NBD114.96)

本文档描述了基因组 DNA 的免扩增条形码建库流程。 实验指南: - 使用免扩增条形码测序试剂盒-96 V14 (SQK-NBD114.96) - 无需PCR扩增 - 支持多达96种条形码 - 可分析天然DNA - 与R10.4.1 测序芯片兼容 仅供研究使用
GridION Dx

SARS-CoV-2 virus PCR tiling and sequencing from RNA using SQK-RBK114.96

This protocol is for the extraction and sequencing of ultra-high molecular weight (uHMW) genomic DNA.

Influenza virus sequencing from RNA using SQK-NBD114 (.24 or .96)

This document describes the sequencing of the influenza virus. For Research Use Only

Analysis workflows

wf-tb-amr

wf-tb-amr is a workflow for determining the antibiotic resistance of Mycobacterium tuberculosis targeted sequencing samples.

wf-mpx

This workflow provides a simple way to analyse mpox sequencing data; taking raw Oxford Nanopore Technologies reads and creating a draft consensus and assembly.

wf-metagenomics

This workflow can be used for the taxonomic classification of metagenomic sequencing data.

wf-flu

This analysis workflow can be used with Oxford Nanopore Technologies sequencing data from amplified segments of the Influenza Type A and Type B genomes, to determine the most likely strain of Influenza to which the sequenced sample belongs.

wf-bacterial-genomes

This workflow is primarily used to assemble genomes from bacterial reads and provide information on features of interest within those assemblies through annotations.

Latest research

tuberculosis-stillPublication

Diagnostic value of nanopore-based targeted sequencing technology for subclinical tuberculosis

Publication: Diagnostic value of nanopore-based targeted sequencing technology for subclinical tuberculosis
Microbiology_Metagenomics_STILLS_01Webinar

Understanding bacterial DNA methylation and analysis methods

In this webinar we learn how to advance microbial genomics and epigenomics research with authenticated reference resources.
Microbiology_TuberculosisResearch presentation

Building sustainable pathogen genomic surveillance across Africa

This webinar shares practical lessons from implementing surveillance at scale, to specimen collection and sequencing to bioinformatics and data interpretation. Explore real-world challenges, collaboration models and system-level strategies required to build resilient genomic surveillance.
Publication

Rapid diagnosis of common, undetected, and uncultivable bloodstream infections from positive blood cultures using Oxford Nanopore sequencing: a metagenomic pipeline analysis

Publication: Rapid diagnosis of common, undetected, and uncultivable bloodstream infections from positive blood cultures using Oxford Nanopore sequencing: a metagenomic pipeline analysis
Publication

Decentralised nanopore genomics reveals diverse Klebsiella pneumoniae and no evidence of patient-patient transmission in a New Zealand hospital

Publication: Decentralised nanopore genomics reveals diverse Klebsiella pneumoniae and no evidence of patient-patient transmission in a New Zealand hospital

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