David Stoddart scite author profile

The sequencing of individual DNA strands with nanopores is under investigation as a rapid, low-cost platform in which bases are identified in order as the DNA strand is transported through a pore under an electrical potential. Although the preparation of solid-state nanopores is improving, biological nanopores, such as ␣-hemolysin (␣HL), are advantageous because they can be precisely manipulated by genetic modification. Here, we show that the transmembrane ␤-barrel of an engineered ␣HL pore contains 3 recognition sites that can be used to identify all 4 DNA bases in an immobilized single-stranded DNA molecule, whether they are located in an otherwise homopolymeric DNA strand or in a heteropolymeric strand. The additional steps required to enable nanopore DNA sequencing are outlined.␣-hemolysin ͉ DNA sequencing ͉ genomics ͉ protein engineering ͉ protein pore

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Improvements to the ARTIC multiplex PCR method for SARS-CoV-2 genome sequencing using nanopore

Tyson

James

Stoddart

et al. 2020

Preprint

356

381

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Genome sequencing has been widely deployed to study the evolution of SARS-CoV-2 with more than 90,000 genome sequences uploaded to the GISAID database. We published a method for SARS-CoV-2 genome sequencing (https://www.protocols.io/view/ncov-2019-sequencing-protocol-bbmuik6w) online on January 22, 2020. This approach has rapidly become the most popular method for sequencing SARS-CoV-2 due to its simplicity and cost-effectiveness. Here we present improvements to the original protocol: i) an updated primer scheme with 22 additional primers to improve genome coverage, ii) a streamlined library preparation workflow which improves demultiplexing rate for up to 96 samples and reduces hands-on time by several hours and iii) cost savings which bring the reagent cost down to £10 per sample making it practical for individual labs to sequence thousands of SARS-CoV-2 genomes to support national and international genomic epidemiology efforts.

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Linear assembly of a human centromere on the Y chromosome

et al. 2018

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The human genome reference sequence remains incomplete owing to the challenge of assembling long tracts of near-identical tandem repeats in centromeres. We implemented a nanopore sequencing strategy to generate high-quality reads that span hundreds of kilobases of highly repetitive DNA in a human Y chromosome centromere. Combining these data with short-read variant validation, we assembled and characterized the centromeric region of a human Y chromosome.

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Analysis of Single Nucleic Acid Molecules with Protein Nanopores

et al. 2010

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We describe the methods used in our laboratory for the analysis of single nucleic acid molecules with protein nanopores. The technical section is preceded by a review of the variety of experiments that can be done with protein nanopores. The end goal of much of this work is single-molecule DNA sequencing, although sequencing is not discussed explicitly here. The technical section covers the equipment required for nucleic acid analysis, the preparation and storage of the necessary materials, and aspects of signal processing and data analysis.

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Identification of epigenetic DNA modifications with a protein nanopore

et al. 2010

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David Stoddart

Single-nucleotide discrimination in immobilized DNA oligonucleotides with a biological nanopore

Improvements to the ARTIC multiplex PCR method for SARS-CoV-2 genome sequencing using nanopore

Linear assembly of a human centromere on the Y chromosome

Analysis of Single Nucleic Acid Molecules with Protein Nanopores

Identification of epigenetic DNA modifications with a protein nanopore

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