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Short, long, or ultra-long: which read length is right for you?
- RNA
- Education
- Short-read
- Long-read
- DNA
- cDNA
Science unlocked: publication picks from July 2024
- RNA
- Animal
- Methylation
- Epigenetics
- Infectious disease
- Plant
Science unlocked: publication picks from November 2024
- RNA
- AMR
- Infectious disease
- Human genomics
- Methylation
- Epigenetics
Science unlocked: publication picks from May 2025
- RNA
- AMR
- Methylation
- Virus
- Bacteria
- Biopharma
Science unlocked: publication picks from March 2025
- RNA
- Cancer research
- Variant calling
- Bioinformatics
- Human genomics
- Transcriptomics
Science unlocked: publication picks from June 2025
- RNA
- Human genomics
- Infectious disease
- Single cell
- Neuroscience
- Structural variation
Science unlocked: publication picks from January 2025
- RNA
- AMR
- Cancer research
- Methylation
- Structural variation
- Adaptive sampling
Science unlocked: publication picks from April 2025
- RNA
- Human genomics
- Bioinformatics
- Cancer research
- Fungi
Pushing the boundaries of rare disease research
- RNA
- Clinical research
- Human genomics
- Whole genome
- Targeted
- PromethION
My research in 60 seconds — Improvements in direct RNA sequencing and its potential to transform clinical research
- RNA
- Transcriptome
- Cancer research
- PromethION
Multiomic single-cell cancer analysis — from mutation detection to understanding disease mechanisms
- RNA
- Cancer research
- Clinical research
- Human genomics
- Single cell
- Transcriptome
Characterising alternative splicing in the human cortex with ultra-deep nanopore sequencing
- RNA
- Transcriptome
- Transcriptomics
- Methylation
- Human genomics
- cDNA
MLO: Solving rare paediatric disease mysteries
- RNA
- Long-read
- DNA
- Clinical
- Clinical research
- Direct analysis
London Calling 2024 opens with a day of masterclasses delivering everything you need to know for sample-to-answer nanopore sequencing
- RNA
- 16S
- Adaptive sampling
- Amplicons
- AMR
- Assembly
Latest Direct RNA Sequencing Kit enables higher accuracy and output
- RNA
- Direct analysis
- Epigenetics
- Gene expression
- mRNA
- Transcriptome
How Oxford Nanopore sequencing works
- RNA
- Adaptive sampling
- Basecalling
- DNA
- Education
- Flow cell
10 ways the Nanopore Community redefined genomics in 2024
- RNA
- Adaptive sampling
- Animal
- Bacteria
- Basecalling
- Biopharma
Celebrating a decade of innovation: reflecting on London Calling and the future of nanopore sequencing
- RNA
- MinION
- Methylation
- Biopharma
- London Calling
- Clinical research
cDNA and RNA sequencing: revealing the transcriptome
- RNA
- Assembly
- Direct analysis
- Isoforms
- Transcriptome
- Transcriptomics