Bacterial and fungal isolate sequencing with NO-MISS
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PLEASE NOTE: This webinar will be offered in two time zones. Please select your preferred option:
- 7:00 (BST) / 14:00 (SGT) / 16:00 (AEST)
- 16:00 (BST) / 08:00 (PDT) / 11:00 (EDT)
Microbial whole-genome Oxford Nanopore sequencing supports complete, reference-quality assembly production. By resolving plasmids, repeat regions, and antimicrobial resistance genes from a single workflow, this approach delivers high-resolution insight for public health, clinical microbiology, food safety, and biomanufacturing applications.
This webinar introduces the updated nanopore-only microbial isolate sequencing solution (NO-MISS), which now supports PromethION Flow Cells for high-throughput experiments. Process more samples with this end-to-end workflow spanning DNA extraction, library preparation, sequencing, and downstream analysis.
Register below to learn how you can scale microbial isolate sequencing while maintaining complete genome reconstruction across bacteria and fungi.
In this webinar, you will learn:
- How the rapid, end-to-end NO-MISS workflow enables whole-genome characterisation of bacterial and fungal isolates
- How to prepare and sequence microbial isolate research samples with the NO-MISS workflow, for small and large batches
- How to analyse microbial isolate sequencing data with the EPI2ME platform
- Where to find useful resources online
Meet the speakers
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Anna Maria Niewiadomska, Oxford Nanopore Technologies, Oxford Nanopore TechnologiesIn her role as segment market manager, Anna drives the development of new markets in the infectious disease and public health space. She received her Ph.D. in molecular microbiology and immunology from the Johns Hopkins School of Public Health. Prior to joining Oxford Nanopore, Anna worked on multiple projects focusing on host/virus interactions, mathematical modeling of antimicrobial resistance, microbial bioinformatics, and emerging infectious disease outbreaks. She combines a deep knowledge of experimental and in silico methods for generation and analysis of microbial genomic data.
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Marta Rudzite, Bioinformatics Software Developer, Oxford Nanopore TechnologiesMarta is a Bioinformatics Software Developer in the EPI2ME team, where her work focuses on development of Bacterial & Fungal Genomes workflow and work on regulated workflows. Prior to joining ONT, she worked in academic research, completing her PhD at Imperial College London and working as postdoctoral researcher at the Geisel School of Medicine at Dartmouth. Her research focused on studying microbial interactions by combining genomics, molecular biology, and biophysical approaches.
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Rebecca Deane, Automation and High Throughput Sequencing Manager, Oxford Nanopore Rebecca’s work focuses on translating workflows into robust automated solutions. She led the implementation of the NO‑MISS protocol onto the ElysION platform and contributed to the development of the V2 method, improving performance, reliability, and scalability for genomics applications.
