Corrigendum: Conjugative Transfer of a Novel Staphylococcal Plasmid Encoding the Biocide Resistance Gene, qacA.

[This corrects the article DOI: 10.3389/fmicb.2018.02664.].

The authors wish to correct an improper bacterial species designation in the original article. Post publication, whole genome sequencing and targeted rpoB sequencing revealed that “S. epidermidis RN and S. epidermidis RN TC” are actually Staphylococcus capitis. Thus, all utilizations of “S. epidermidis RN and S. epidermidis RN TC” in the article should be replaced with “S. capitis RN” and “S. capitis RN TC”, respectively.

Additionally, a correction has been made to Keywords, (specific changes are underlined):

due to a misspelling.

A correction has been made to Keywords, (specific changes are underlined):

Chlorhexedine digluconate was changed to Chlorhexidine digluconate due to a misspelling.

A correction has been made to Introduction, Paragraph Number 5 (specific changes are underlined). In the original edited stage, a sentence was incorrectly pasted into the introduction. This sentence should be removed and has a strikethrough to designate the deletion.

Various studies have sought to understand the ability of individual Qac efflux pumps to mediate decreased susceptibility to antiseptics. For example, the QacA efflux pump has been shown to confer protection against quaternary ammonium compounds and to divalent organic cations like chlorhexidine. Conversely, while QacB is highly similar to QacA and is also part of the same major facilitator superfamily (MFS), QacB appears to offer little/no protection to divalent organic cations (Paulsen et al., 1996). The other Qac efflux pumps (QacC-QacJ and QacZ) are part of the Small Multidrug Transporter (SMR) family and each have various effects on antiseptic resistance (Furi et al., 2013; Wassenaar et al., 2015). The genes encoding the Qac efflux pumps are located on plasmids, which impacts possible mechanisms of spread of these genes across strains. For example, qacC, which is also known as smr, was previously found to be carried on conjugative plasmids as well as on small rolling circle plasmids (Littlejohn et al., 1991; Morton et al., 1993; Berg et al., 1998). Furthermore, transduction has been shown to facilitate transfer of plasmid-born qacB across strains. The corrected sentence should read. Conversely, qacA has only been found on large non-conjugative multidrug resistance plasmids; these plasmids lack the transfer, or tra genes, that are required for conjugative transfer (Tennent et al., 1989; McCarthy and Lindsay, 2012). As a result, horizontal transfer of qacA has not previously been documented (Nakaminami et al., 2007). Thus, it is not clear how or whether qacA is able to be horizontally spread across S. aureus strains, and if so, whether such spread could contribute to the prevalence of this factor in the S. aureus population.

The authors apologize for this error and state that this does not change the scientific conclusions of the article in any way. The original article has been updated.