Functional Significance of the E Loop, a Novel Motif Conserved in the Lantibiotic Immunity ATP-Binding Cassette Transport Systems

Okuda, Ken Ichi; Yanagihara, Sae; Sugayama, Tomomichi; Zendo, Takeshi; Nakayama, Jiro; Sonomoto, Kenji

doi:10.1128/jb.00003-10

Cited by 22 publications

(24 citation statements)

References 43 publications

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“…While penB is responsible for dehydration of serine and threonine residues, the cyclase (penC) catalyzes the nucleophilic attack of a cysteine on the dehydrated residues. A dedicated lantibiotic ABC transporter gene (penT), which is required for the export of penisin, was also encoded with highly conserved domains such as Walker A (401-GRNGSGKTT-409), Q-loop (445-VVFQDFV-452), signature sequence (510-SGGQW QR-517), Walker B (529-LYVLDE-535), and H-loop (564-SHR-567), as described in the literature (36). Further, the genome also harbors an additional lantibiotic dehydratase gene similar to penD, which is unusual for the penisin gene cluster.…”

Section: Resultsmentioning

confidence: 99%

“…In our annotation and analysis, we found a penC gene with 92% similarity to the LanC-like protein of P. elgii B69 with all conserved domains. Unlike paenicidin A, the ABC transporter present in the biosynthetic cluster of penisin is presumed to be involved in both transportation and immunity, as observed for other lantibiotics (36). To confirm the formation of the thioether bond between cysteine amino acids present in penisin, we performed PEGylation experiments with native and reduced forms of the peptide.…”

Section: Discussionmentioning

confidence: 99%

See 1 more Smart Citation

Characterization of the Antimicrobial Peptide Penisin, a Class Ia Novel Lantibiotic from Paenibacillus sp. Strain A3

Baindara

Chaudhry

Mittal

et al. 2016

Antimicrob Agents Chemother

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Section: Resultsmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Characterization of the Antimicrobial Peptide Penisin, a Class Ia Novel Lantibiotic from Paenibacillus sp. Strain A3

Baindara

Chaudhry

Mittal

et al. 2016

Antimicrob Agents Chemother

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“…SmbT encodes permease component and is 238 residues long with six transmembrane domains. SmbF, on the other hand, encodes a 274 residues long protein with ATPase signature sequences (52). The promoter for smb locus lies ϳ3.0 kb upstream of the smbFT genes.…”

Section: Resultsmentioning

confidence: 99%

“…Several recent studies suggest that, unlike general ABC transporters that transport substrates across the membranes, the ABC transporters related to immunity function transport specific lantibiotics from the membrane to the extracellular space (28,29,55). A recent study identified the presence of a conserved motif, termed the E-loop, in the ABC transporters belonging to LanFEG and BcrAB families (52). This E-loop structure plays an important role in the function of these transporters and perhaps induces structural changes in the transmembrane domains.…”

Section: Discussionmentioning

confidence: 99%

SmbFT, a Putative ABC Transporter Complex, Confers Protection against the Lantibiotic Smb in Streptococci

Biswas

2013

J Bacteriol

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Streptococcus mutans, a dental pathogen, secretes different kinds of lantibiotic and nonlantibiotic bacteriocins. For self-protection, a bacteriocin producer strain must possess one or more cognate immunity mechanisms. We report here the identification of one such immunity complex in S. mutans strain GS-5 that confers protection against Smb, a two-component lantibiotic. The immunity complex that we identified is an ABC transporter composed of two proteins: SmbF (the ATPase component) and SmbT (the permease component). Both of the protein-encoding genes are located within the smb locus. We show that GS-5 becomes sensitized to Smb upon deletion of smbT, which makes the ABC transporter nonfunctional. To establish the role SmbFT in providing immunity, we heterologously expressed this ABC transporter complex in four different sensitive streptococcal species and demonstrated that it can confer resistance against Smb. To explore the specificity of SmbFT in conferring resistance, we tested mutacin IV (a nonlantibiotic), nisin (a single peptide lantibiotics), and three peptide antibiotics (bacitracin, polymyxin B, and vancomycin). We found that SmbFT does not recognize these structurally different peptides. We then tested whether SmbFT can confer protection against haloduracin, another two-component lantibiotic that is structurally similar to Smb; SmbFT indeed conferred protection against haloduracin. SmbFT can also confer protection against an uncharacterized but structurally similar lantibiotic produced by Streptococcus gallolyticus. Our data suggest that SmbFT truly displays immunity function and confer protection against Smb and structurally similar lantibiotics.

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“…In at least some lantibiotic transporters, the E-loop is necessary for immunity toward the produced compound. In NukF of Staphylococcus warneri ISK-1, E85Q and E85A substitutions in the E loop impaired immunity to nukacin ISK-1, while ATPase activity remained at wild-type (WT) levels (46). Both PspT and PspZ contain a Q-loop, while PspF contains an E-loop.…”

Section: Identification Of P Alba As a Planosporicin Producer Fourmentioning

confidence: 99%

Cloning and Analysis of the Planosporicin Lantibiotic Biosynthetic Gene Cluster of Planomonospora alba

2013

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The increasing prevalence of antibiotic resistance in bacterial pathogens has renewed focus on natural products with antimicrobial properties. Lantibiotics are ribosomally synthesized peptide antibiotics that are posttranslationally modified to introduce (methyl)lanthionine bridges. Actinomycetes are renowned for their ability to produce a large variety of antibiotics, many with clinical applications, but are known to make only a few lantibiotics. One such compound is planosporicin produced by Planomonospora alba, which inhibits cell wall biosynthesis in Gram-positive pathogens. Planosporicin is a type AI lantibiotic structurally similar to those which bind lipid II, the immediate precursor for cell wall biosynthesis. The gene cluster responsible for planosporicin biosynthesis was identified by genome mining and subsequently isolated from a P. alba cosmid library. A minimal cluster of 15 genes sufficient for planosporicin production was defined by heterologous expression in Nonomuraea sp. strain ATCC 39727, while deletion of the gene encoding the precursor peptide from P. alba, which abolished planosporicin production, was also used to confirm the identity of the gene cluster. Deletion of genes encoding likely biosynthetic enzymes identified through bioinformatic analysis revealed that they, too, are essential for planosporicin production in the native host. Reverse transcription-PCR (RT-PCR) analysis indicated that the planosporicin gene cluster is transcribed in three operons. Expression of one of these, pspEF, which encodes an ABC transporter, in Streptomyces coelicolor A3(2) conferred some degree of planosporicin resistance on the heterologous host. The inability to delete these genes from P. alba suggests that they play an essential role in immunity in the natural producer.

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Functional Significance of the E Loop, a Novel Motif Conserved in the Lantibiotic Immunity ATP-Binding Cassette Transport Systems

Cited by 22 publications

References 43 publications

Characterization of the Antimicrobial Peptide Penisin, a Class Ia Novel Lantibiotic from Paenibacillus sp. Strain A3

Characterization of the Antimicrobial Peptide Penisin, a Class Ia Novel Lantibiotic from Paenibacillus sp. Strain A3

SmbFT, a Putative ABC Transporter Complex, Confers Protection against the Lantibiotic Smb in Streptococci

Cloning and Analysis of the Planosporicin Lantibiotic Biosynthetic Gene Cluster of Planomonospora alba

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