Cryptic Streptococcus mutans 5.6-kb plasmids encode a toxin-antitoxin system for plasmid stabilization

Background: In all Streptococcus mutans strains, 5-13% carry a 5.6-kb plasmid. Despite its frequency, little is known about its mediated functions with most of the information coming from a single study focussing on plasmid pUA140. Objective: Here, we describe the sequence and genetic organization o...

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Bibliographic Details
Published in:Journal of Oral Microbiology 2013-01, Vol.5 (1), p.19729-10
Main Authors: Rheinberg, Anke, Jadwiga Swierzy, Izabela, Dung Nguyen, Tuan, Horz, Hans-Peter, Conrads, Georg
Format: Article
Language:English
Subjects:
HicBA
MazEF
Original
plasmid addiction system
regulator of translation
RelBE
Streptococcus mutans
toxin-antitoxin cassette
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Summary:Background: In all Streptococcus mutans strains, 5-13% carry a 5.6-kb plasmid. Despite its frequency, little is known about its mediated functions with most of the information coming from a single study focussing on plasmid pUA140. Objective: Here, we describe the sequence and genetic organization of two S. mutans 5.6-kb plasmids, pDC09 and pNC101. Results: Based on PicoGreen dsDNA quantification and Real-Time quantitative PCR (RTQ-PCR), the plasmid copy number was found to range between 10 and 74, depending on the strain tested. In contrast to literature, we identified six instead of five open reading frames (ORFs). While the putative gene products of ORF1 (as a Rep-protein) and ORF2 (as a Mob-protein) could be confirmed as being identical to those from pUA140, the functions of ORF3 (unknown) and ORF 4 (possibly AtpE homologue) could not be further revealed. However, the product of ORF5 showed a fairly high identity (38-50%) and structural similarity (58-74%) to RelE of Streptococcus pneumoniae, Streptococcus equi, and Streptococcus downei. In addition, we identified a functionally corresponding ORF6 encoding a protein with 61-68% identity (81-86% similarity) to the S. equi and S. downei antitoxin of the RelB family. RelE and RelB together form a plasmid-encoded toxin-antitoxin (TA) system, RelBE plas . Despite its rather limited sequence similarity with chromosomal TA systems in S. mutans (RelBE chro , MazEF, HicBA), we found similar tertiary structures applying I-Tasser protein prediction analysis. Conclusion: Type II-toxins, as the plasmid-encoded RelE, are RNA endonucleases. Depending on their mRNA cleavage activity, they might 1) kill every plasmid-free progeny, thereby stabilizing plasmid transfer at the expense of the host and/or 2) help S. mutans enter a dormant state and survive unfavourable environmental conditions. Whilst a function in plasmid stabilization has been confirmed, a function in persistence under nutritional stress, tested here by inducing amino acid starvation, could not be demonstrated so far.
ISSN:2000-2297
0901-8328
2000-2297
DOI:10.3402/jom.v5i0.19729