Hybracter: enabling scalable, automated, complete and accurate bacterial genome assemblies

Bouras, George; Houtak, Ghais; Wick, Ryan R.; Mallawaarachchi, Vijini; Roach, Michael J.; Papudeshi, Bhavya; Judd, Lousie M.; Sheppard, Anna E.; Edwards, Robert A.; Vreugde, Sarah

doi:10.1099/mgen.0.001244

Cited by 8 publications

References 77 publications

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pQEB1: a hospital outbreak plasmid lineage carrying bla KPC-2

Moran,

Behruznia,

Holden

et al. 2024

Microbial Genomics

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While conducting genomic surveillance of carbapenemase-producing Enterobacteriaceae (CPE) from patient colonisation and clinical infections at Birmingham’s Queen Elizabeth Hospital (QE), we identified an N-type plasmid lineage, pQEB1, carrying several antibiotic resistance genes, including the carbapenemase gene bla KPC-2. The pQEB1 lineage is concerning due to its conferral of multidrug resistance, its host range and apparent transmissibility, and its potential for acquiring further resistance genes. Representatives of pQEB1 were found in three sequence types (STs) of Citrobacter freundii, two STs of Enterobacter cloacae, and three species of Klebsiella. Hosts of pQEB1 were isolated from 11 different patients who stayed in various wards throughout the hospital complex over a 13 month period from January 2023 to February 2024. At present, the only representatives of the pQEB1 lineage in GenBank were carried by an Enterobacter hormaechei isolated from a blood sample at the QE in 2016 and a Klebsiella pneumoniae isolated from a urine sample at University Hospitals Coventry and Warwickshire (UHCW) in May 2023. The UHCW patient had been treated at the QE. Long-read whole-genome sequencing was performed on Oxford Nanopore R10.4.1 flow cells, facilitating comparison of complete plasmid sequences. We identified structural variants of pQEB1 and defined the molecular events responsible for them. These have included IS26-mediated inversions and acquisitions of multiple insertion sequences and transposons, including carriers of mercury or arsenic resistance genes. We found that a particular inversion variant of pQEB1 was strongly associated with the QE Liver speciality after appearing in November 2023, but was found in different specialities and wards in January/February 2024. That variant has so far been seen in five different bacterial hosts from six patients, consistent with recent and ongoing inter-host and inter-patient transmission of pQEB1 in this hospital setting.

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pQEB1: a hospital outbreak plasmid lineage carrying bla KPC-2

Moran,

Behruznia,

Holden

et al. 2024

Microbial Genomics

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Matching excellence: Oxford Nanopore Technologies’ rise to parity with Pacific Biosciences in genome reconstruction of non-model bacterium with high G+C content

Soto-Serrano,

Li,

Panah

et al. 2024

Microbial Genomics

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The reconstruction of complete bacterial genomes is essential for microbial research, offering insights into genetic content, ontology and regulation. While Pacific Biosciences (PacBio) provides high-quality genomes, its cost remains a limitation. Oxford Nanopore Technologies (ONT) offers long reads at a lower cost, yet its error rate raises scepticism. Recent ONT advancements, such as new Flow cells (R10.4.1), chemistry (V14) and duplex mode, improve data quality. Our study compares ONT with PacBio and Illumina, including hybrid data. We used Propionibacterium freudenreichii, a bacterium with a genome known for being difficult to reconstruct. By combining data from ONT’s Native Barcoding and a custom-developed BARSEQ method, we achieved high-quality, near-perfect genome assemblies. Our findings demonstrate, for the first time, that the combination of nanopore-only long-native with shorter PCR DNA reads (~3 kb) results in high-quality genome reconstruction, comparable to hybrid data assembly from two sequencing platforms. This endorses ONT as a cost-effective, stand-alone strategy for bacterial genome reconstruction. Additionally, we compared methylated motif detection between PacBio and ONT R10.4.1 data, showing that results comparable to PacBio are achievable using ONT, especially when utilizing the advanced Nanomotif tool.

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pQEB1: a hospital outbreak plasmid lineage carryingbla_KPC-2

Moran,

Behruznia,

Holden

et al. 2024

Preprint

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While conducting genomic surveillance of carbapenemase-producing Enterobacteriaceae (CPEs) from patient colonisation and clinical infections at Birmingham’s Queen Elizabeth Hospital (QE), we identified an N-type plasmid lineage, pQEB1, carrying several antibiotic resistance genes including the carbapenemase geneblaKPC-2. The pQEB1 lineage is concerning due to its conferral of multi-drug resistance, its host range and apparent transmissibility, and its potential for acquiring further resistance genes. Representatives of pQEB1 were found in three sequence types (STs) ofCitrobacter freundii, two STs ofEnterobacter cloacae, and three species ofKlebsiella. Hosts of pQEB1 were isolated from 11 different patients who stayed in various wards throughout the hospital complex over a 13-month period from January 2023 to February 2024. At present, the only representatives of the pQEB1 lineage in GenBank were carried by anEnterobacter hormaecheiisolated from a blood sample at the QE in 2016 and aKlebsiella pneumoniaeisolated from a urine sample at University Hospitals Coventry and Warwickshire (UHCW) in May 2023. The UHCW patient had been treated at the QE.Long-read whole-genome sequencing was performed on Oxford Nanopore R10.4.1 flow cells, facilitating comparison of complete plasmid sequences. We identified structural variants of pQEB1 and defined the molecular events responsible for them. These have included IS26-mediated inversions and acquisitions of multiple insertion sequences and transposons, including carriers of mercury or arsenic resistance genes. We found that a particular inversion variant of pQEB1 was strongly associated with the QE Liver speciality after appearing in November 2023, but was found in different specialities and wards in January/February 2024. That variant has so far been seen in five different bacterial hosts from six patients, consistent with recent and ongoing inter-host and inter-patient transmission of pQEB1 in this hospital setting.

show abstract

Hybracter: enabling scalable, automated, complete and accurate bacterial genome assemblies

Cited by 8 publications

References 77 publications

pQEB1: a hospital outbreak plasmid lineage carrying bla KPC-2

pQEB1: a hospital outbreak plasmid lineage carrying bla KPC-2

Matching excellence: Oxford Nanopore Technologies’ rise to parity with Pacific Biosciences in genome reconstruction of non-model bacterium with high G+C content

pQEB1: a hospital outbreak plasmid lineage carryingbla_KPC-2

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Hybracter: enabling scalable, automated, complete and accurate bacterial genome assemblies

Cited by 8 publications

References 77 publications

pQEB1: a hospital outbreak plasmid lineage carrying bla KPC-2

pQEB1: a hospital outbreak plasmid lineage carrying bla KPC-2

Matching excellence: Oxford Nanopore Technologies’ rise to parity with Pacific Biosciences in genome reconstruction of non-model bacterium with high G+C content

pQEB1: a hospital outbreak plasmid lineage carryingblaKPC-2

Contact Info

Product

Resources

About

pQEB1: a hospital outbreak plasmid lineage carryingbla_KPC-2