Minocycline resistance in an oral Streptococcus infantis isolate is encoded by tet(S) on a novel small, low copy number plasmid

Lena Ciric; Michael S.M. Brouwer; Peter Mullany; Adam Roberts

doi:10.1111/1574-6968.12410

Minocycline resistance in an oral Streptococcus infantis isolate is encoded by tet(S) on a novel small, low copy number plasmid

Lena Ciric, Michael S.M. Brouwer, Peter Mullany, Adam Roberts

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

34 Citations (Scopus)

Abstract

We have determined the genetic basis of minocycline resistance in a strain of Streptococcus infantis isolated from a healthy human oral cavity. We demonstrate that tet(S), identical to tet(S) found on the enterococcal conjugative transposon Tn6000, is responsible for the observed resistance. The gene is located on a small, low copy number plasmid and is flanked by IS1216 elements. The tet(S) gene is capable of excising from the plasmid together with one of the IS1216 elements. The plasmid contains a putative toxin/antitoxin system related to relBE. Deletion of the toxin, relE, did not result in plasmid instability but did increase the fitness of the mutant compared to the wild-type strain.

Original language	English
Pages (from-to)	106-115
Number of pages	10
Journal	FEMS Microbiology Letters
Volume	353
Issue number	2
DOIs	https://doi.org/10.1111/1574-6968.12410
Publication status	Published - 1 Apr 2014
Externally published	Yes

Keywords

IS1216
relBE
Tn6000
Toxin-antitoxin

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1111/1574-6968.12410

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title = "Minocycline resistance in an oral Streptococcus infantis isolate is encoded by tet(S) on a novel small, low copy number plasmid",

abstract = "We have determined the genetic basis of minocycline resistance in a strain of Streptococcus infantis isolated from a healthy human oral cavity. We demonstrate that tet(S), identical to tet(S) found on the enterococcal conjugative transposon Tn6000, is responsible for the observed resistance. The gene is located on a small, low copy number plasmid and is flanked by IS1216 elements. The tet(S) gene is capable of excising from the plasmid together with one of the IS1216 elements. The plasmid contains a putative toxin/antitoxin system related to relBE. Deletion of the toxin, relE, did not result in plasmid instability but did increase the fitness of the mutant compared to the wild-type strain.",

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author = "Lena Ciric and Brouwer, \{Michael S.M.\} and Peter Mullany and Adam Roberts",

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journal = "FEMS Microbiology Letters",

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T1 - Minocycline resistance in an oral Streptococcus infantis isolate is encoded by tet(S) on a novel small, low copy number plasmid

AU - Ciric, Lena

AU - Brouwer, Michael S.M.

AU - Mullany, Peter

AU - Roberts, Adam

PY - 2014/4/1

Y1 - 2014/4/1

N2 - We have determined the genetic basis of minocycline resistance in a strain of Streptococcus infantis isolated from a healthy human oral cavity. We demonstrate that tet(S), identical to tet(S) found on the enterococcal conjugative transposon Tn6000, is responsible for the observed resistance. The gene is located on a small, low copy number plasmid and is flanked by IS1216 elements. The tet(S) gene is capable of excising from the plasmid together with one of the IS1216 elements. The plasmid contains a putative toxin/antitoxin system related to relBE. Deletion of the toxin, relE, did not result in plasmid instability but did increase the fitness of the mutant compared to the wild-type strain.

AB - We have determined the genetic basis of minocycline resistance in a strain of Streptococcus infantis isolated from a healthy human oral cavity. We demonstrate that tet(S), identical to tet(S) found on the enterococcal conjugative transposon Tn6000, is responsible for the observed resistance. The gene is located on a small, low copy number plasmid and is flanked by IS1216 elements. The tet(S) gene is capable of excising from the plasmid together with one of the IS1216 elements. The plasmid contains a putative toxin/antitoxin system related to relBE. Deletion of the toxin, relE, did not result in plasmid instability but did increase the fitness of the mutant compared to the wild-type strain.

KW - IS1216

KW - relBE

KW - Tn6000

KW - Toxin-antitoxin

U2 - 10.1111/1574-6968.12410

DO - 10.1111/1574-6968.12410

M3 - Article

SN - 0378-1097

VL - 353

SP - 106

EP - 115

JO - FEMS Microbiology Letters

JF - FEMS Microbiology Letters

IS - 2

ER -

Minocycline resistance in an oral Streptococcus infantis isolate is encoded by tet(S) on a novel small, low copy number plasmid

Abstract

Keywords

UN SDGs

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