A multi-locus sequence typing scheme for the emerging respiratory pathogen Mycoplasma amphoriforme

Lily Simpson; Joshua Macleod; Richard S Rowlands; Owen B Spiller; Charlotte Dixon; Jorgen S Jensen; Baharak Afshar; Helena M B Seth-Smith; Victoria J Chalker; Michael L Beeton

doi:10.1093/lambio/ovaf073

A multi-locus sequence typing scheme for the emerging respiratory pathogen Mycoplasma amphoriforme

Lily Simpson, Joshua Macleod, Richard S Rowlands, Owen B Spiller, Charlotte Dixon, Jorgen S Jensen, Baharak Afshar, Helena M B Seth-Smith, Victoria J Chalker, Michael L Beeton

Research output: Contribution to journal › Article › peer-review

Abstract

Mycoplasma amphoriforme is an emerging respiratory pathogen for which little is known about the population structure or transmission dynamics. In this study, we developed the first multilocus sequence typing (MLST) scheme for M. amphoriforme and applied it to a previous genomic data set. The genomes of seven M. amphoriforme isolates from the UK and Denmark were sequenced and used to develop the MLST scheme based on loci used for previous Mycoplasma MLST schemes. The resulting MLST scheme consisted of four loci (gyrB, atpG, uvrA and rpoB) and was applied to 20 previously sequenced genomes obtained from the UK and France/Tunisia. From the 27 sequences examined, 13 sequence types were identified. A phylogenetic tree of concatenated sequences showed a comparable topology to a previously described tree based on whole genome data. Additionally, the MLST scheme corroborated the previous suggestion of possible healthcare-associated transmission of M. amphoriforme between two separate patients. The MLST scheme gave a population structure analysis comparable to previous whole-genome-based analyses.

Original language	English
Article number	ovaf073
Journal	Letters in Applied Microbiology
Volume	78
Issue number	6
Early online date	20 May 2025
DOIs	https://doi.org/10.1093/lambio/ovaf073
Publication status	Published - 20 May 2025

Keywords

common variable immunodeficiency
emerging pathogen
pathogen typing
respiratory tract infection
whole-genome sequencing

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title = "A multi-locus sequence typing scheme for the emerging respiratory pathogen Mycoplasma amphoriforme",

abstract = "Mycoplasma amphoriforme is an emerging respiratory pathogen for which little is known about the population structure or transmission dynamics. In this study, we developed the first multilocus sequence typing (MLST) scheme for M. amphoriforme and applied it to a previous genomic data set. The genomes of seven M. amphoriforme isolates from the UK and Denmark were sequenced and used to develop the MLST scheme based on loci used for previous Mycoplasma MLST schemes. The resulting MLST scheme consisted of four loci (gyrB, atpG, uvrA and rpoB) and was applied to 20 previously sequenced genomes obtained from the UK and France/Tunisia. From the 27 sequences examined, 13 sequence types were identified. A phylogenetic tree of concatenated sequences showed a comparable topology to a previously described tree based on whole genome data. Additionally, the MLST scheme corroborated the previous suggestion of possible healthcare-associated transmission of M. amphoriforme between two separate patients. The MLST scheme gave a population structure analysis comparable to previous whole-genome-based analyses.",

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AU - Dixon, Charlotte

AU - Jensen, Jorgen S

AU - Afshar, Baharak

AU - Seth-Smith, Helena M B

AU - Chalker, Victoria J

AU - Beeton, Michael L

N1 - Publisher Copyright: © The Author(s) 2025.

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N2 - Mycoplasma amphoriforme is an emerging respiratory pathogen for which little is known about the population structure or transmission dynamics. In this study, we developed the first multilocus sequence typing (MLST) scheme for M. amphoriforme and applied it to a previous genomic data set. The genomes of seven M. amphoriforme isolates from the UK and Denmark were sequenced and used to develop the MLST scheme based on loci used for previous Mycoplasma MLST schemes. The resulting MLST scheme consisted of four loci (gyrB, atpG, uvrA and rpoB) and was applied to 20 previously sequenced genomes obtained from the UK and France/Tunisia. From the 27 sequences examined, 13 sequence types were identified. A phylogenetic tree of concatenated sequences showed a comparable topology to a previously described tree based on whole genome data. Additionally, the MLST scheme corroborated the previous suggestion of possible healthcare-associated transmission of M. amphoriforme between two separate patients. The MLST scheme gave a population structure analysis comparable to previous whole-genome-based analyses.

AB - Mycoplasma amphoriforme is an emerging respiratory pathogen for which little is known about the population structure or transmission dynamics. In this study, we developed the first multilocus sequence typing (MLST) scheme for M. amphoriforme and applied it to a previous genomic data set. The genomes of seven M. amphoriforme isolates from the UK and Denmark were sequenced and used to develop the MLST scheme based on loci used for previous Mycoplasma MLST schemes. The resulting MLST scheme consisted of four loci (gyrB, atpG, uvrA and rpoB) and was applied to 20 previously sequenced genomes obtained from the UK and France/Tunisia. From the 27 sequences examined, 13 sequence types were identified. A phylogenetic tree of concatenated sequences showed a comparable topology to a previously described tree based on whole genome data. Additionally, the MLST scheme corroborated the previous suggestion of possible healthcare-associated transmission of M. amphoriforme between two separate patients. The MLST scheme gave a population structure analysis comparable to previous whole-genome-based analyses.

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A multi-locus sequence typing scheme for the emerging respiratory pathogen Mycoplasma amphoriforme

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Keywords

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