Mutational Analysis of the
            <i>sbo-alb</i>
            Locus of
            <i>Bacillus subtilis</i>
            : Identification of Genes Required for Subtilosin Production and Immunity

Zheng, Guolu; Hehn, Robin; Zuber, Peter

doi:10.1128/jb.182.11.3266-3273.2000

Cited by 91 publications

(78 citation statements)

References 55 publications

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“…TrnC exhibited sequence similarity to conserved domains of the Fe-S oxidoreductase arylsulfatase regulatory proteins (AslB), and TrnD had sequences similar to the MoaA family of molybdenum cofactor enzymes. Radical SAM enzymes rarely occur in bacteriocin gene clusters, but they are included in those of subtilosin A and propiocin F (26,27). Sequence alignments indicated that AlbA of subtilosin A exhibits only 19% and 17% identity to TrnC and TrnD, respectively, although AlbA exhibits some features of each individual thuricin CD protein.…”

Section: Resultsmentioning

confidence: 99%

Thuricin CD, a posttranslationally modified bacteriocin with a narrow spectrum of activity against Clostridium difficile

Rea

Sit

Clayton

et al. 2010

Proc. Natl. Acad. Sci. U.S.A.

452

392

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The last decade has seen numerous outbreaks of Clostridium difficile-associated disease (CDAD), which presented significant challenges for healthcare facilities worldwide. We have identified and purified thuricin CD, a two-component antimicrobial that shows activity against C. difficile in the nanomolar range. Thuricin CD is produced by Bacillus thuringiensis DPC 6431, a bacterial strain isolated from a human fecal sample, and it consists of two distinct peptides, Trn-α and Trn-β, that act synergistically to kill a wide range of clinical C. difficile isolates, including ribotypes commonly associated with CDAD (e.g., ribotype 027). However, this bacteriocin thuricin CD has little impact on most other genera, including many gastrointestinal commensals. Complete amino acid sequencing using infusion tandem mass spectrometry indicated that each peptide is posttranslationally modified at its respective 21st, 25th, and 28th residues. Solution NMR studies on [ 13 C, 15 N] Trn-α and [ 13 C, 15 N]Trn-β were used to characterize these modifications. Analysis of multidimensional NOESY data shows that specific cysteines are linked to the α-carbons of the modified residues, forming three sulfur to α-carbon bridges. Complete sequencing of the thuricin CD gene cluster revealed genes capable of encoding two S′-adenosylmethionine proteins that are characteristically associated with unusual posttranslational modifications. Thuricin CD is a two-component antimicrobial peptide system with sulfur to α-carbon linkages, and it may have potential as a targeted therapy in the treatment of CDAD while also reducing collateral impact on the commensal flora.two-component bacteriocin | posttranslational modifications | Clostridium difficile-associated disease | peptide | NMR

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Section: Resultsmentioning

confidence: 99%

Thuricin CD, a posttranslationally modified bacteriocin with a narrow spectrum of activity against Clostridium difficile

Rea

Sit

Clayton

et al. 2010

Proc. Natl. Acad. Sci. U.S.A.

452

392

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“…PCR sequences were identified using the basic local alignment search tool and GenBank nucleotide data bank from the National Center for Biotechnology Information, Bethesda, MD, USA (http://www.ncbi.nlm.nih.gov). sboX, encoded a bacteriocinlike product, a new gene with an unknown function, in strain 168 [19], which resides in an open reading frame overlapping the coding region of sbo. While the expression of sboX would result in a 22-amino-acid curtailed peptide in W23-like strains compared to the peptide produced by 168-like strains, which makes it unlikely that SboX is produced by W23-like strains.…”

Section: Subtilosin Genementioning

confidence: 99%

“…The spectrum of activity was investigated and proved antagonism against a wide range of bacteria including Gram-positive and Gram-negative bacteria and both aerobes and anaerobes [18]. The production of mature subtilosin is based on the expression of the sbo-alb *Address correspondence to this author at the Department of Microbiology and Molecular Genetics, University of the Punjab, Quaid-e-Azam Campus, Lahore, Pakistan; Tel: +92-42-99238530; Fax +92-42-99230481: E-mail: shahida@mmg.pu.edu.pk, genetic@brain.net.pk gene cluster encompassing the subtilosin structural gene sbo and genes involved in posttranslational modification, processing of presubtilosin and immunity [17,19].…”

Section: Introductionmentioning

confidence: 99%

Bacteria Exhibiting Antimicrobial Activities; Screening for Antibiotics and the Associated Genetic Studies

Al-Ajlani¹,

Hasnain²

2010

TOPROCJ

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A total of 118 bacterial strains were isolated from six different soil samples from different parts of Pakistan. 50 out of these strains exhibited antagonistic activities against at least two or more strain from a panel of pathogenic and nonpathogenic microorganisms. Tested strains included three sets; environmental, laboratory and multidrug resistant clinical isolates. Twelve strains exhibited diverse spectrum of activity are focus of further work. The bacterial species identified include Bacillus subtilis, B. amyloliquefaciens, B. cereus, and B. licheniformis. Identified strains showed interesting biological activities e.g. inhibiting the growth of clinical isolates (Klebsilla species), strong antifungal and anti-algal activities and high toxicity against Artemia sp., while their TLC and HPLC profile showed an impressive chemical diversity. All the strains were able to produce number of peptides (surfactins, iturins, fengycins, subtilin and subtilosin) in different combinations. Presence of sboX gene was not correlated with subtilosin production, however, subtilosin and sboX were confirmed in Bacillus amyloliquefaciens for the first time.

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“…AlbB, AlbC, and AlbD are required for subtilosin A immunity. AlbB was postulated to be an immunity peptide and AlbC to be involved in subtilosin A export (37). The albABCDEF genes are transcribed from the sboA promoter despite a putative factor-independent transcription terminator present between sboA and albA.…”

mentioning

confidence: 99%

“…The sboA gene, encoding the 43-amino-acid precursor of subtilosin A, was identified with the downstream albABCDEF genes, which are required for processing and modification of the precursor as well as immunity to subtilosin A (37,38). AlbA and AlbF are essential for subtilosin A production and are likely involved in modification and processing of the precursor, respectively.…”

mentioning

confidence: 99%

Isolation of a Variant of Subtilosin A with Hemolytic Activity

et al. 2009

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Bacillus subtilis produces an anionic bacteriocin called subtilosin A that possesses antibacterial activity against certain gram-positive bacteria. In this study, we uncovered a hemolytic mutant of B. subtilis that produces an altered form of subtilosin A. The mutant bacteriocin, named subtilosin A1, has a replacement of threonine at position 6 with isoleucine. In addition to the hemolytic activity, subtilosin A1 was found to exhibit enhanced antimicrobial activity against specific bacterial strains. The B. subtilis albB mutant that does not produce a putative immunity peptide was more sensitive to both subtilosin A and subtilosin A1. A spontaneous suppressor mutation of albB that restored resistance to subtilosin A and subtilosin A1 was obtained. The sbr (subtilosin resistance) mutation conferring the resistance is not linked to the sboA-alb locus. The sbr mutation does not increase the resistance of B. subtilis to other cell envelope-targeted antimicrobial agents, indicating that the mutation specifically confers the resistance to subtilosins. The findings suggest possible bioengineering approaches for obtaining anionic bacteriocins with enhanced and/or altered bactericidal activity. Furthermore, future identification of the subtilosin-resistant mutation could provide insights into the mechanism of subtilosin A activity.Bacteria produce a variety of secondary metabolites, such as antibiotics and bacteriocins. Bacteriocins are proteinaceous antimicrobial substances that are often distinguished from traditional antibiotics by their narrow range of activity against closely related bacteria. However, bacteriocins produced by gram-positive bacteria show a relatively broader spectrum than those from gram-negative bacteria (reviewed in references 14 and 22). Various gram-positive bacteria produce small bacteriocins that are ribosomally synthesized peptides but that are often heavily modified during posttranslational processing. The target of these bacteriocins is primarily the cytoplasmic membrane, where they create pores through which ions can pass, leading eventually to cell death.Subtilosin A is a 35-amino-acid bacteriocin originally isolated from Bacillus subtilis by Babasaki et al. (2) but was also found in Bacillus atrophaeus (26) and Bacillus amyloliquefaciens isolated from a dairy product (29). It is a unique macrocyclic bacteriocin in part due to its having an anionic nature unlike many other membrane-targeting cationic bacteriocins. Subtilosin A is formed from its precursor by proteolytic cleavage of the N-terminal leader peptide and cyclization through covalent linkage between the N-terminal asparagine and the C-terminal glycine. Structure analysis of subtilosin A by 1 H nuclear magnetic resonance (NMR) spectrometry suggested the formation of thioether bonds between Cys4/Phe31, Cys7/ Thr28, and Cys13/Phe22, but the actual sites of connection were unknown (15). Subsequent isotopic labeling and multidimensional NMR analysis demonstrated unprecedented crosslinking between sulfurs of the cysteines and the ␣ ca...

show abstract

Mutational Analysis of the sbo-alb Locus of Bacillus subtilis : Identification of Genes Required for Subtilosin Production and Immunity

Cited by 91 publications

References 55 publications

Thuricin CD, a posttranslationally modified bacteriocin with a narrow spectrum of activity against Clostridium difficile

Thuricin CD, a posttranslationally modified bacteriocin with a narrow spectrum of activity against Clostridium difficile

Bacteria Exhibiting Antimicrobial Activities; Screening for Antibiotics and the Associated Genetic Studies

Isolation of a Variant of Subtilosin A with Hemolytic Activity

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