Blog
Unravelling the complexity of cancer genomics and predisposition: nanopore sequencing and the potential for personalised care | Oxford Nanopore Technologies
- Whole genome
- Cancer research
- Clinical research
- Human genomics
- Structural variation
- Gene fusions
Transforming food safety with Oxford Nanopore sequencing
- Whole genome
- Food safety
- Basecalling
- Nanopore Community
- Nanopore Community Meeting
- DNA
Short, long, or ultra-long: which read length is right for you?
- Whole genome
- Education
- Short-read
- Long-read
- DNA
- RNA
Science unlocked: publication picks from May 2024 | Oxford Nanopore Technologies
- Whole genome
- Human genomics
- Animal
- Neuroscience
- Bioinformatics
- Microbiology
Science unlocked: publication picks from August 2024 | Oxford Nanopore Technologies
- Whole genome
- Long-read
- Human genomics
- Cancer research
- Animal
- Infectious disease
Applying portable nanopore sequencing technology to the conservation of the critically endangered kākāpō
- Whole genome
- Animal
- Targeted
- MinION
- GridION
Revealing hidden genetic variants in rare disease with nanopore sequencing
- Whole genome
- Clinical research
- Variant calling
- Human genomics
- Structural variation
- Epigenetics
Pushing the boundaries of rare disease research
- Whole genome
- Clinical research
- Human genomics
- Targeted
- PromethION
- MinION
A new benchmark: discussing telomere-to-telomere assemblies with the founder of GrandOmics
- Whole genome
- Assembly
- Plant
- Animal
- Human genomics
Nanopore sequencing and the Arabidopsis centromere paradox
- Whole genome
- Plant
- Long-read
- Assembly
- Methylation
- Epigenetics
The move from reference genomes to pangenomes for advancing genomic equity and personalised medicine
- Whole genome
- Long-read
- DNA
Liquid biopsies — multi-modal cell-free DNA assays using nanopore sequencing for potential cancer detection
- Whole genome
- London Calling
- Clinical research
- Cancer research
- Methylation
- Epigenetics
Highlights from NCM Houston | Oxford Nanopore Technologies
- Whole genome
- Clinical research
- Human genomics
- Methylation
- MinION
- PromethION
From finding flavonoids to the ‘dark matter’ of T-DNA insertions — investigating plant genomes with nanopore sequencing
- Whole genome
- Plant
- MinION
- Structural variation
- Assembly
Conserving a threatened North American walnut: a chromosome-scale reference genome for butternut (Julgans cinera)
- Whole genome
- Plant
The Nanopore Community Meeting 2024 in Boston showcases 'a new frontier — multiomic single-molecule sensing’ of genomics
- Whole genome
- Bacteria
- Assembly
- Cancer research
- DNA
- Epigenetics
The frontier of omics applications
- Whole genome
- Long-read
- Nanopore Community
- London Calling
- Population genomics
- SNVs
10 ways the Nanopore Community redefined genomics in 2024
- Whole genome
- Adaptive sampling
- Animal
- Bacteria
- Basecalling
- Biopharma
Discover what you're missing with comprehensive and accessible genomic research: highlights from ASHG 2024 | Oxford Nanopore Technologies
- Whole genome
- Human genomics
- Population genomics
- Long-read
- Clinical research
Deep insights into the immune response with multiomic nanopore sequencing
- Whole genome
- Cancer research
- DNA
- Epigenetics
- Human genomics
- Infectious disease