The putative drug efflux systems of the Bacillus cereus group

Hassan, Karl A.; Fagerlund, Annette; Elbourne, Liam D. H.; Vörös, Aniko; Kroeger, Jasmin K.; Simm, Roger; Tourasse, Nicolas J.; Finke, Sarah; Henderson, Peter J. F.; Økstad, Ole Andreas; Paulsen, Ian T.; Kolstø, Anne‐Brit

doi:10.1371/journal.pone.0176188

Cited by 14 publications

(11 citation statements)

References 64 publications

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“…Genes for transcriptional regulators involved with antibiotic resistance, such as TetR and MarR, and for the response regulator OmpR, were also identified in the B. pumilus 64-1 genome ( Supplementary Table 4 ), showing that the B. pumilus 64-1 strain may be able to control the expression of these genes under the conditions imposed by these antagonist compounds. Moreover, the functional annotation of multidrug resistance proteins ( ykkC , ykkD , ebrA , ebrB , mdtI , and sugE ) and multidrug efflux pumps ( yhbJ and norM ), including those from the multidrug and toxic compound extrusion (MATE) family ( yisQ and yoeA ) and the RND (resistance-nodulation-cell division) drug exporters ( ydgH , mdtC , and swrC ), suggest a wider intrinsic resistance, as verified for the B. cereus group, either for their chloramphenicol and tetracycline genetic repertoire ( Glenwright et al, 2017 ) or by the conservation of these small molecules efflux pumps ( Hassan et al, 2017 ). This apparent intrinsic resistance genotype of the strain 64-1 may not only form part of defense strategies against the ever-changing environmental conditions but also for physiological processes, considering that some of the substrates for these multidrug transporters are cations, such as Na + and H + ( Du et al, 2018 ).…”

Section: Resultsmentioning

confidence: 99%

Peeling the Layers Away: The Genomic Characterization of Bacillus pumilus 64-1, an Isolate With Antimicrobial Activity From the Marine Sponge Plakina cyanorosea (Porifera, Homoscleromorpha)

et al. 2021

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Bacillus pumilus 64-1, a bacterial strain isolated from the marine sponge Plakina cyanorosea, which exhibits antimicrobial activity against both pathogenic and drug-resistant Gram-positive and Gram-negative bacteria. This study aimed to conduct an in-depth genomic analysis of this bioactive sponge-derived strain. The nearly complete genome of strain 64-1 consists of 3.6 Mbp (41.5% GC), which includes 3,705 coding sequences (CDS). An open pangenome was observed when limiting to the type strains of the B. pumilus group and aquatic-derived B. pumilus representatives. The genome appears to encode for at least 12 potential biosynthetic gene clusters (BGCs), including both types I and III polyketide synthases (PKS), non-ribosomal peptide synthetases (NRPS), and one NRPS-T1PKS hybrid, among others. In particular, bacilysin and other bacteriocin-coding genes were found and may be associated with the detected antimicrobial activity. Strain 64-1 also appears to possess a broad repertoire of genes encoding for plant cell wall-degrading carbohydrate-active enzymes (CAZymes). A myriad of genes which may be involved in various process required by the strain in its marine habitat, such as those encoding for osmoprotectory transport systems and the biosynthesis of compatible solutes were also present. Several heavy metal tolerance genes are also present, together with various mobile elements including a region encoding for a type III-B Clustered Regularly Interspaced Short Palindromic Repeats (CRISPR) region, four prophage segments and transposase elements. This is the first report on the genomic characterization of a cultivable bacterial member of the Plakina cyanorosea holobiont.

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Section: Resultsmentioning

confidence: 99%

Peeling the Layers Away: The Genomic Characterization of Bacillus pumilus 64-1, an Isolate With Antimicrobial Activity From the Marine Sponge Plakina cyanorosea (Porifera, Homoscleromorpha)

et al. 2021

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“…However, this is not particularly reliable as most transporters have undergone divergent evolution [187] such that moderately similar sequences or motifs can have considerably different substrates. (Note that efflux systems do seem to be more strongly conserved than are influx systems [188], and are often highly promiscuous [68,134]. )…”

Section: Finding Transporters For a Given Substrate Or Productmentioning

confidence: 99%

Control of metabolite efflux in microbial cell factories: current advances and future prospects

Kell¹

2018

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The yield and ease of purification of biotechnological products are typically greatly enhanced if they can be secreted into the external medium. Although not universally appreciated, however, small molecule biotechnological products do not ‘float across’ the phospholipid bilayer portion of biological membranes, and thus they need transporters to assist their passage into the extramembrane and extracellular spaces. Some of these transporters may be reversible, equilibrative transporters that might more normally be used for uptake, while others may have an efflux directionality imposed on them via suitable energy coupling mechanisms. Despite the energetic costs of small molecule synthesis, natural evolution does in fact provide a number of mechanisms by which the secretion of such products can actually enhance fitness. Where available these provide useful starting points, and assaying for such activities is crucial. In particular, in a systems biology approach, we first need to identify such/suitable activities before we can seek to increase them. They may then be improved through promoter engineering, via manipulation of control elements, or by directed evolution of the transporter proteins themselves. Modern methods of synthetic biology provide enormous opportunities for all kinds of efflux transporter engineering; they are just beginning to be realised.

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“…EcsA,a regulator of protein secretion27 , is essential in sporulation24 and might play a role in germination due to its inherent protein transporting capacity. The uncharacterized proteins YvrC, YkpA, YdbJ, YfmR, YknZ, YhaQ, YfmM and YhfQ from ABC transporter family are also shared by spores and cells of which YhfQ is has been linked to siderophore uptake28 .The B. cereus orthologs of YfmM and YdbJ (BC5433 and BC1359 respectively), as well as of YknZ (BC5253) are reported to be functional drug efflux pumps, more specifically for the latter is a macrolide exporter29 . Also the orthologs of YhaQ, BerA in B. thuringiensis and BcrA in B. licheniformis are concerned with β -exotoxin30 and bacitracin 31 resistance respectively.…”

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confidence: 99%

Towards the minimal proteome of life: Proteome profiles ofBacillus subtilisvegetative cells and spores

Swarge

Roseboom

et al. 2019

Preprint

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The method of 15 N metabolic labelling of Bacillus subtilis enabled mass spectrometric quantification of relative protein levels in the vegetative cells and the spores of this model organism. A total of 1501 proteins have been identified from the combined spore and vegetative cell samples. From these 1086 proteins have been relatively and reproducibly quantified between spores and vegetative cells. Of the quantified proteins, 60% are common to the vegetative cells and spores, indicating that spores host a minimal set proteins sufficient for the resumption of metabolism upon completion of germination. The shared proteins represent, the most basic 'survival kit' for life on earth that is known thus far.

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The putative drug efflux systems of the Bacillus cereus group

Cited by 14 publications

References 64 publications

Peeling the Layers Away: The Genomic Characterization of Bacillus pumilus 64-1, an Isolate With Antimicrobial Activity From the Marine Sponge Plakina cyanorosea (Porifera, Homoscleromorpha)

Peeling the Layers Away: The Genomic Characterization of Bacillus pumilus 64-1, an Isolate With Antimicrobial Activity From the Marine Sponge Plakina cyanorosea (Porifera, Homoscleromorpha)

Control of metabolite efflux in microbial cell factories: current advances and future prospects

Towards the minimal proteome of life: Proteome profiles ofBacillus subtilisvegetative cells and spores

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