How to sequence 10,000 bacterial genomes and retain your sanity: an accessible, efficient and global approach

10KSG Consortium; Blanca M. Perez-Sepulveda; Darren Heavens; Caisey V. Pulford; Alexander V. Predeus; Ross Low; Hermione J. Webster; Gregory Dykes; Christian Schudoma; Will Rowe; James Lipscombe; Chris Watkins; Benjamin Kumwenda; Neil Shearer; Karl Costigan; Kate S. Baker; Nick Feasey; Jay C.D. Hinton; Neil Hall

doi:10.1099/acmi.ac2021.po0349

How to sequence 10,000 bacterial genomes and retain your sanity: an accessible, efficient and global approach

10KSG Consortium, Blanca M. Perez-Sepulveda, Darren Heavens, Caisey V. Pulford, Alexander V. Predeus, Ross Low, Hermione J. Webster, Gregory Dykes, Christian Schudoma, Will Rowe, James Lipscombe, Chris Watkins, Benjamin Kumwenda, Neil Shearer, Karl Costigan, Kate S. Baker, Nick Feasey, Jay C.D. Hinton, Neil Hall

Clinical Sciences

Research output: Other contribution

Abstract

Non-typhoidal Salmonella(NTS)are typically associated with enterocolitis and linked to the industrialisation of food production. In recent years, NTS has been associated with invasive disease (iNTS disease) causing an estimated 77,000 deaths each year worldwide; 80% of mortality occurs in sub-Saharan Africa. New clades of S. Typhimurium and S. Enteritidis have been identified, which are characterised by genomic degradation, altered prophage repertoires and novel multidrug resistant plasmids. To understand how these clades are contributing to the burden and severity of iNTS disease, it is crucial to expand genome-based surveillance to cover more countries, and incorporate historical isolates to generate an evolutionary timeline of the development of iNTS. We developedand validateda robust and inexpensive method for large-scale collection and sequencing of bacterial genomes. The “10,000 Salmonella genomes” project established a worldwide research collaboration to generate information relevant to the epidemiolog

Original language	English
Type	Meeting Report
Publisher	Microbiology Society
Number of pages	1
Edition	5
Volume	4
DOIs	https://doi.org/10.1099/acmi.ac2021.po0349
Publication status	Published - 27 May 2022

Publication series

Name	Access Microbiology
No.	5
Volume	4

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10.1099/acmi.ac2021.po0349Licence: CC BY

AcmiFinal published version, 1.77 MBLicence: CC BY

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10KSG Consortium, Perez-Sepulveda, B. M., Heavens, D., Pulford, C. V., Predeus, A. V., Low, R., Webster, H. J., Dykes, G., Schudoma, C., Rowe, W., Lipscombe, J., Watkins, C., Kumwenda, B., Shearer, N., Costigan, K., Baker, K. S., Feasey, N., Hinton, J. C. D., & Hall, N. (2022, May 27). How to sequence 10,000 bacterial genomes and retain your sanity: an accessible, efficient and global approach. (5 ed.) Microbiology Society. https://doi.org/10.1099/acmi.ac2021.po0349

@misc{a3eb427bfa0c44348693998af2a4531f,

title = "How to sequence 10,000 bacterial genomes and retain your sanity: an accessible, efficient and global approach",

abstract = "Non-typhoidal Salmonella(NTS)are typically associated with enterocolitis and linked to the industrialisation of food production. In recent years, NTS has been associated with invasive disease (iNTS disease) causing an estimated 77,000 deaths each year worldwide; 80\% of mortality occurs in sub-Saharan Africa. New clades of S. Typhimurium and S. Enteritidis have been identified, which are characterised by genomic degradation, altered prophage repertoires and novel multidrug resistant plasmids. To understand how these clades are contributing to the burden and severity of iNTS disease, it is crucial to expand genome-based surveillance to cover more countries, and incorporate historical isolates to generate an evolutionary timeline of the development of iNTS. We developedand validateda robust and inexpensive method for large-scale collection and sequencing of bacterial genomes. The “10,000 Salmonella genomes” project established a worldwide research collaboration to generate information relevant to the epidemiolog",

author = "\{10KSG Consortium\} and Perez-Sepulveda, \{Blanca M.\} and Darren Heavens and Pulford, \{Caisey V.\} and Predeus, \{Alexander V.\} and Ross Low and Webster, \{Hermione J.\} and Gregory Dykes and Christian Schudoma and Will Rowe and James Lipscombe and Chris Watkins and Benjamin Kumwenda and Neil Shearer and Karl Costigan and Baker, \{Kate S.\} and Nick Feasey and Hinton, \{Jay C.D.\} and Neil Hall",

year = "2022",

month = may,

day = "27",

doi = "10.1099/acmi.ac2021.po0349",

language = "English",

volume = "4",

series = "Access Microbiology",

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10KSG Consortium, Perez-Sepulveda, BM, Heavens, D, Pulford, CV, Predeus, AV, Low, R, Webster, HJ, Dykes, G, Schudoma, C, Rowe, W, Lipscombe, J, Watkins, C, Kumwenda, B, Shearer, N, Costigan, K, Baker, KS, Feasey, N, Hinton, JCD & Hall, N 2022, How to sequence 10,000 bacterial genomes and retain your sanity: an accessible, efficient and global approach. Microbiology Society. https://doi.org/10.1099/acmi.ac2021.po0349

TY - GEN

T1 - How to sequence 10,000 bacterial genomes and retain your sanity: an accessible, efficient and global approach

AU - 10KSG Consortium

AU - Perez-Sepulveda, Blanca M.

AU - Heavens, Darren

AU - Pulford, Caisey V.

AU - Predeus, Alexander V.

AU - Low, Ross

AU - Webster, Hermione J.

AU - Dykes, Gregory

AU - Schudoma, Christian

AU - Rowe, Will

AU - Lipscombe, James

AU - Watkins, Chris

AU - Kumwenda, Benjamin

AU - Shearer, Neil

AU - Costigan, Karl

AU - Baker, Kate S.

AU - Feasey, Nick

AU - Hinton, Jay C.D.

AU - Hall, Neil

PY - 2022/5/27

Y1 - 2022/5/27

N2 - Non-typhoidal Salmonella(NTS)are typically associated with enterocolitis and linked to the industrialisation of food production. In recent years, NTS has been associated with invasive disease (iNTS disease) causing an estimated 77,000 deaths each year worldwide; 80% of mortality occurs in sub-Saharan Africa. New clades of S. Typhimurium and S. Enteritidis have been identified, which are characterised by genomic degradation, altered prophage repertoires and novel multidrug resistant plasmids. To understand how these clades are contributing to the burden and severity of iNTS disease, it is crucial to expand genome-based surveillance to cover more countries, and incorporate historical isolates to generate an evolutionary timeline of the development of iNTS. We developedand validateda robust and inexpensive method for large-scale collection and sequencing of bacterial genomes. The “10,000 Salmonella genomes” project established a worldwide research collaboration to generate information relevant to the epidemiolog

AB - Non-typhoidal Salmonella(NTS)are typically associated with enterocolitis and linked to the industrialisation of food production. In recent years, NTS has been associated with invasive disease (iNTS disease) causing an estimated 77,000 deaths each year worldwide; 80% of mortality occurs in sub-Saharan Africa. New clades of S. Typhimurium and S. Enteritidis have been identified, which are characterised by genomic degradation, altered prophage repertoires and novel multidrug resistant plasmids. To understand how these clades are contributing to the burden and severity of iNTS disease, it is crucial to expand genome-based surveillance to cover more countries, and incorporate historical isolates to generate an evolutionary timeline of the development of iNTS. We developedand validateda robust and inexpensive method for large-scale collection and sequencing of bacterial genomes. The “10,000 Salmonella genomes” project established a worldwide research collaboration to generate information relevant to the epidemiolog

U2 - 10.1099/acmi.ac2021.po0349

DO - 10.1099/acmi.ac2021.po0349

M3 - Other contribution

VL - 4

T3 - Access Microbiology

PB - Microbiology Society

ER -

How to sequence 10,000 bacterial genomes and retain your sanity: an accessible, efficient and global approach

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