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1.
The production of pediocin PA-1, a small heat-stable bacteriocin, is associated with the presence of the 9.4-kbp plasmid pSRQ11 in Pediococcus acidilactici PAC1.0. It was shown by subcloning of pSRQ11 in Escherichia coli cloning vectors that pediocin PA-1 is produced and, most probably, secreted by E. coli cells. Deletion analysis showed that a 5.6-kbp SalI-EcoRI fragment derived from pSRQ11 is required for pediocin PA-1 production. Nucleotide sequence analysis of this 5.6-kbp fragment indicated the presence of four clustered open reading frames (pedA, pedB, pedC, and pedD). The pedA gene encodes a 62-amino-acid precursor of pediocin PA-1, as the predicted amino acid residues 19 to 62 correspond entirely to the amino acid sequence of the purified pediocin PA-1. Introduction of a mutation in pedA resulted in a complete loss of pediocin production. The pedB and pedC genes, encoding proteins of 112 and 174 amino acid residues, respectively, are located directly downstream of the pediocin structural gene. Functions could not be assigned to their gene products; mutation analysis showed that the PedB protein is not involved in pediocin PA-1 production. The mutation analysis further revealed that the fourth gene, pedD, specifying a relatively large protein of 724 amino acids, is required for pediocin PA-1 production in E. coli. The predicted pedD protein shows strong similarities to several ATP-dependent transport proteins, including the E. coli hemolysin secretion protein HlyB and the ComA protein, which is required for competence induction for genetic transformation in Streptococcus pneumoniae.(ABSTRACT TRUNCATED AT 250 WORDS)  相似文献   

2.
The production of pediocin PA-1, a small heat-stable bacteriocin, is associated with the presence of the 9.4-kbp plasmid pSRQ11 in Pediococcus acidilactici PAC1.0. It was shown by subcloning of pSRQ11 in Escherichia coli cloning vectors that pediocin PA-1 is produced and, most probably, secreted by E. coli cells. Deletion analysis showed that a 5.6-kbp SalI-EcoRI fragment derived from pSRQ11 is required for pediocin PA-1 production. Nucleotide sequence analysis of this 5.6-kbp fragment indicated the presence of four clustered open reading frames (pedA, pedB, pedC, and pedD). The pedA gene encodes a 62-amino-acid precursor of pediocin PA-1, as the predicted amino acid residues 19 to 62 correspond entirely to the amino acid sequence of the purified pediocin PA-1. Introduction of a mutation in pedA resulted in a complete loss of pediocin production. The pedB and pedC genes, encoding proteins of 112 and 174 amino acid residues, respectively, are located directly downstream of the pediocin structural gene. Functions could not be assigned to their gene products; mutation analysis showed that the PedB protein is not involved in pediocin PA-1 production. The mutation analysis further revealed that the fourth gene, pedD, specifying a relatively large protein of 724 amino acids, is required for pediocin PA-1 production in E. coli. The predicted pedD protein shows strong similarities to several ATP-dependent transport proteins, including the E. coli hemolysin secretion protein HlyB and the ComA protein, which is required for competence induction for genetic transformation in Streptococcus pneumoniae.(ABSTRACT TRUNCATED AT 250 WORDS)  相似文献   

3.
Expression of the pedA gene from Pediococcus acidilactici, coding for mature bacteriocin Pediocin PA-1, was investigated using the yeast Pichia pastoris to obtain larger quantities of pediocin to support additional studies, including structure-function research. Following various cloning strategies, a KM71H (Mut(s)) strain was selected. A significant concentration (74 microg/ml) of extracellular recombinant pediocin was obtained but the pediocin showed no biological activity. Supernatant fluids from P. pastoris cultures, harboring or not pedA, inhibited the biological activity of natural pediocin PA-1. The recombinant pediocin appeared as a mixture of three main fractions (7-8, 11, 20 kDa vs. 4.6 kDa for natural pediocin PA-1). The recombinant pediocin was also less hydrophobic and behaved differently when subjected to isoelectric focusing. Strong evidence indicated that some "collagen-like" material was tightly associated, most probably via covalent binding, to the recombinant pediocin. The "collagen-like" material was most probably responsible for the lack of biological activity of the recombinant pediocin and for the differences observed regarding some of the physico-chemical properties. Both the recombinant pediocin and natural pediocin were sensitive to collagenase, suggesting that pediocin PA-1 may possess a somewhat "collagen-like" nature. Interestingly, recombinant pediocin preparations showed the ability to assemble into fibrils.  相似文献   

4.
Bacteriocins are antimicrobial peptides produced by several bacterial species. Among the bacteriocins pediocin-like bacteriocins have a significant inhibitory activity on the foodborne pathogens especially on Listeria monocytogenes. This study aims to select a simple and usable purification method to purify/concentrate the antimicrobial peptide and characterization of the bacteriocin produced by Pediococcus acidilactici 13 by using proteomic approaches which is a recent omic technology. For purification dialysis, ultrafiltration method was used, and as a result of this study the bacteriocin activity reached 819,200 AU/mL from 102,400 AU/mL initially. Two dimensional gel electrophoresis and then matrix-assisted laser desorption ionization/time of flight mass spectrometry (MALDI-TOF MS) analysis were carried out to identify the current bacteriocin and related proteins. Obtained data revealed similarity to pediocin PA-1 transport/processing ATP-binding protein PedD (accession number: P36497), pediocin operon PedC (accession number: Q68GC4) and bacteriocin pediocin PA-1 (accession number: P29430) from UniProtKB/Swiss-Prot databank, thus the bacteriocin produced by P. acidilactici 13 is considered similar to pediocin PA-1.  相似文献   

5.
Expression of lactococcin A and pediocin PA-1 in heterologous hosts   总被引:4,自引:1,他引:3  
Pediocin PA-1 production, immunity and secretion are specified by a cluster of four genes in Pediococcus acidilactici PAC1.0. The production by, secretion of, and immunity to lactococcin A of Lactococcus lactis are also determined by four genes. Here, expression of the pediocin operon in Lactococcus lactis is reported, which could only be achieved by placing it under control of a lactococcal promoter. Expression of the lactococcin A operon in Pediococcus is also described: recombinant clones of Pediococcus were obtained that produced and secreted both active pediocin PA-1 and lactococcin A.  相似文献   

6.
M Bukhtiyarova  R Yang    B Ray 《Applied microbiology》1994,60(9):3405-3408
The 3,500-bp pap operon in the 8,877-bp plasmid pSMB74 contains a cluster of four genes, papABCD, of which papA encodes prepediocin (A. M. Motlagh, M. Bukhtiyarova, and B. Ray, Lett. Appl. Microbiol. 18:305-312, 1994). The cluster without the promoter was cloned in the shuttle vector pHPS9. An Escherichia coli strain and a pediocin-sensitive Pediococcus acidilactici strain transformed with the recombinant plasmid, pMBR1.0, produced pediocin AcH. Deletion analysis by introducing mutations in the four genes in pMBR1.0 revealed that only papA and papD were required for pediocin AcH production and that the gene product of papD has both translocation and processing functions. In the transformed minicells of E. coli chi 925 the proteins of the pap cluster were synthesized, indicating no polar effect due to deletion.  相似文献   

7.
Pediocin PA-1 is a bacteriocin which is produced by Pediococcus acidilactici PAC1.0. We demonstrate that pediocin PA-1 kills sensitive Pediococcus cells and acts on the cytoplasmic membrane. In contrast to its lack of impact on immune cells, pediocin PA-1 dissipates the transmembrane electrical potential and inhibits amino acid transport in sensitive cells. Pediocin interferes with the uptake of amino acids by cytoplasmic membrane vesicles derived from sensitive cells, while it is less effective with membranes derived from immune cells. In liposomes fused with membrane vesicles derived from both sensitive and immune cells, pediocin PA-1 elicits an efflux of small ions and, at higher concentrations, an efflux of molecules having molecular weights of up to 9,400. Our data suggest that pediocin PA-1 functions in a voltage-independent manner but requires a specific protein in the target membrane.  相似文献   

8.
Plantaricin 423 is a class IIa bacteriocin produced by Lactobacillus plantarum isolated from sorghum beer. It has been previously determined that plantaricin 423 is encoded by a plasmid designated pPLA4, which is now completely sequenced. The plantaricin 423 operon shares high sequence similarity with the operons of coagulin, pediocin PA-1, and pediocin AcH, with small differences in the DNA sequence encoding the mature bacteriocin peptide and the immunity protein. Apart from the bacteriocin operon, no significant sequence similarity could be detected between the DNA or translated sequence of pPLA4 and the available DNA or translated sequences of the plasmids encoding pediocin AcH, pediocin PA-1, and coagulin, possibly indicating a different origin. In addition to the bacteriocin operon, sequence analysis of pPLA4 revealed the presence of two open reading frames (ORFs). ORF1 encodes a putative mobilization (Mob) protein that is homologous to the pMV158 superfamily of mobilization proteins. Highest sequence similarity occurred between this protein and the Mob protein of L. plantarum NCDO 1088. ORF2 encodes a putative replication protein that revealed low sequence similarity to replication proteins of plasmids pLME300 from Lactobacillus fermentum and pYIT356 from Lactobacillus casei. The immunity protein of plantaricin 423 contains 109 amino acids. Although plantaricin 423 shares high sequence similarity with the pediocin PA-1 operon, no cross-reactivity was recorded between the immunity proteins of plantaricin 423 and pediocin PA-1.  相似文献   

9.
A plasmid-linked antimicrobial peptide, named coagulin, produced by Bacillus coagulans I(4) has recently been reported (B. Hyronimus, C. Le Marrec and M. C. Urdaci, J. Appl. Microbiol. 85:42-50, 1998). In the present study, the complete, unambiguous primary amino acid sequence of the peptide was obtained by a combination of both N-terminal sequencing of purified peptide and the complete sequence deduced from the structural gene harbored by plasmid I(4). Data revealed that this peptide of 44 residues has an amino acid sequence similar to that described for pediocins AcH and PA-1, produced by different Pediococcus acidilactici strains and 100% identical. Coagulin and pediocin differed only by a single amino acid at their C terminus. Analysis of the genetic determinants revealed the presence, on the pI(4) DNA, of the entire 3.5-kb operon of four genes described for pediocin AcH and PA-1 production. No extended homology was observed between pSMB74 from P. acidilactici and pI(4) when analyzing the regions upstream and downstream of the operon. An oppositely oriented gene immediately dowstream of the bacteriocin operon specifies a 474-amino-acid protein which shows homology to Mob-Pre (plasmid recombination enzyme) proteins encoded by several small plasmids extracted from gram-positive bacteria. This is the first report of a pediocin-like peptide appearing naturally in a non-lactic acid bacterium genus.  相似文献   

10.
Aims:  The aim of this study was to purify and identify the bacteriocin produced by Pediococcus acidilactici MM33, a strain previously isolated from human gut.
Methods and Results:  Purification of the bacteriocin was performed by cationic exchange chromatography followed by a reverse phase step. Biochemical and mass spectrometry analysis showed homology with pediocin PA-1. To verify if P. acidilactici MM33 carried the pediocin PA-1 gene, total DNA was used to amplify the pediocin gene. The PCR product obtained was then sequenced and the nucleotide sequence revealed to be identical to that of pediocin PA-1. Treatment of P. acidilactici MM33 with novobiocin resulted in a plasmid-cured strain without bacteriocin-producing capacity. Antimicrobial assay and molecular analysis demonstrated that this strain was ped suggesting that the ped cluster is plasmid encoded. Antimicrobial assay revealed that pediocin was bactericidal against Listeria monocytogenes , showing a minimal inhibitory concentration (MIC) of 200 AU ml−1.
Conclusions:  A two-step purification procedure was elaborated in this study. The bacteriocin secreted by the human strain P. acidilactici MM33 is carried on a plasmid and the amino acid sequence is identical to pediocin PA-1.
Significance and Impact of the Study:  Pediococcus acidilactici MM33 is the first human pediocin-producing strain reported and could be used as probiotic to prevent enteric pathogen colonization.  相似文献   

11.
The production and secretion of class II bacteriocins share a number of features that allow the interchange of genetic determinants between certain members of this group of antimicrobial peptides. Lactococcus lactis IL1403 encodes translocatory functions able to recognize and mediate secretion of lactococcin A. The ability of this strain to also produce the pediococcal bacteriocin pediocin PA-1, has been demonstrated previously by the introduction of a chimeric gene, composed of sequences encoding the leader of lactococcin A and the mature part of pediocin PA-1 (N. Horn, M. I. Martínez, J. M. Martínez, P. E. Hernández, M. J. Gasson, J. M. Rodríguez, and H. M. Dodd, Appl. Environ. Microbiol. 64:818-823, 1998). This heterologous expression system has been developed further with the introduction of the lactococcin A-dedicated translocatory function genes, lcnC and lcnD, and their effect on bacteriocin yields in various lactococcal hosts was assessed. The copy number of lcnC and lcnD influenced production levels, as did the particular strain employed as host. Highest yields were achieved with L. lactis IL1403, which generated pediocin PA-1 at a level similar to that for the parental strain, Pediococcus acidilactici 347, representing a significant improvement over previous systems. The genetic determinants required for production of pediocin PA-1 were introduced into the nisin-producing strain L. lactis FI5876, where both pediocin PA-1 and nisin A were simultaneously produced. The implications of coproduction of these two industrially relevant antimicrobial agents by a food-grade organism are discussed.  相似文献   

12.
Several Pediococcus acidilactici strains produce a plasmid-encoded bacteriocin, pediocin AcH. Previous studies have shown that this plasmid, designated as pSMB 74, encodes genes associated with the production of prepediocin, its post-translation processing to pediocin AcH, transmembrane translocation of these molecules, and immunity of producer cells against pediocin AcH. We report here the complete nucleotide sequence of pSMB 74. The plasmid has a total of 8877 bp. Four genes have been located on pSMB 74. The genes are arranged in a gene cluster of 3500 bp and share a common promoter and rho-independent stem-loop terminator. The four genes, each with independent ribosome binding sites (rbs), initiation and termination codons and spacer sequences in between, were designated as pap A, pap B, pap C and pap D and encode respectively for proteins of 62, 112, 174 and 724 amino acids. The results of this study can be useful either to introduce a suitable marker at a unique restriction site in pSMB 74 and use it as a vector or to clone the pap gene cluster in a suitable plasmid and transform desirable strains for pediocin AcH production. The gene sequence has been submitted to Gene Bank (Acc. No. U02482).  相似文献   

13.
Production of bacteriocin activity designated pediocin PA-1 was associated with the presence of a 6.2-megadalton plasmid in Pediococcus acidilactici PAC1.0. The bacteriocin exhibited activity against P. acidilactici, P. pentosaceus, Lactobacillus plantarum, L. casei, L. bifermentans, and Leuconostoc mesenteroides subsp. dextranicum. Partial characterization of pediocin PA-1 is described. The molecular weight of pediocin PA-1 was ca. 16,500. Additionally, strain PAC1.0 was found to contain a 23-megadalton plasmid associated with sucrose-fermenting ability.  相似文献   

14.
A plasmid-linked antimicrobial peptide, named coagulin, produced by Bacillus coagulans I4 has recently been reported (B. Hyronimus, C. Le Marrec and M. C. Urdaci, J. Appl. Microbiol. 85:42–50, 1998). In the present study, the complete, unambiguous primary amino acid sequence of the peptide was obtained by a combination of both N-terminal sequencing of purified peptide and the complete sequence deduced from the structural gene harbored by plasmid I4. Data revealed that this peptide of 44 residues has an amino acid sequence similar to that described for pediocins AcH and PA-1, produced by different Pediococcus acidilactici strains and 100% identical. Coagulin and pediocin differed only by a single amino acid at their C terminus. Analysis of the genetic determinants revealed the presence, on the pI4 DNA, of the entire 3.5-kb operon of four genes described for pediocin AcH and PA-1 production. No extended homology was observed between pSMB74 from P. acidilactici and pI4 when analyzing the regions upstream and downstream of the operon. An oppositely oriented gene immediately dowstream of the bacteriocin operon specifies a 474-amino-acid protein which shows homology to Mob-Pre (plasmid recombination enzyme) proteins encoded by several small plasmids extracted from gram-positive bacteria. This is the first report of a pediocin-like peptide appearing naturally in a non-lactic acid bacterium genus.  相似文献   

15.
The lactic acid bacteria (LAB) are of great interest because of their food grade quality and industrial importance. In the recent past, the pediocin PA-1 like bacteriocin was found to be synthesized in cross-species and cross-genera. Hence, the present work was carried out in order to determine the transfer of plasmid encoded pediocin PA-1 like bacteriocin among LAB. The objective of this study is to demonstrate the dissemination of bacteriocin-encoded plasmid from Pediococcus acidilactici NCIM 5424, Enterococcus faecium NCIM 5423 and Lactobacillus plantarum Acr2 to Enterococcus faecalis JH2-2 under in vitro (filter mating method) and in situ (soymilk model) conditions. The fermentation of the soymilk was determined by the selected pediocin producers. E. faecium NCIM 5423 was able to transfer the bacteriocin only under in situ conditions, whereas the native pediocin producer P. acidilactici NCIM 5424 transferred the bacteriocin under both the methods used. The in situ method gave more transfer frequency, ranging from 10?7 to 10?4 transconjugants per recipient cell. No conjugal transfer by L. plantarum Acr2 was observed. The physiological conditions like pH and temperature were found to influence the production of bacteriocin in the obtained transconjugants. The results suggest the horizontal gene transfer (HGT) and the natural spread of pediocin PA-1-like bacteriocin among LAB present in their close vicinity by means of conjugation. The dissemination of pediocin PA-1-like bacteriocin under in situ conditions is noteworthy, and such bacteriocin producers can be useful in the fermentation of dairy products and construction of novel cultures.  相似文献   

16.
Production of pediocin in Pediococcus acidilactici is associated with pMBR1.0, which encodes prepediocin, a pediocin immunity protein, and two proteins involved in secretion and precursor processing. These four genes are organized as an operon under control of a single promoter. We have constructed shuttle vectors that contain all four structural genes, the chromosomal promoter STP2201 from Streptococcus thermophilus, and repA from the 2-kbp S. thermophilus plasmid pER8. The recombinant plasmid, pPC318, expressed and secreted active pediocin in Escherichia coli. Streptococcus thermophilus, Lactococcus lactis subsp. lactis, and Enterococcus faecalis were electrotransformed with pPC418, a modified vector fitted with an erythromycin resistance tracking gene. Pediocin was produced and secreted in each of the lactic acid bacteria, and production was stable for up to ten passages. The expression of pediocin in dairy fermentation microbes has important implications for bacteriocins as food preservatives in dairy products. Received: 7 June 1999 / Accepted: 6 July 1999  相似文献   

17.
Antimicrobial peptides possess cationic and amphipathic properties that allow for interactions with the membrane of living cells. Bacteriocins from lactic acid bacteria, in particular, are currently being studied for their potential use as food preservatives and for applications in health care. However, bacteriocin exploitation is often limited owing to low production yields. Gene cloning and heterologous protein or peptide production is one way to possibly achieve overexpression of bacteriocins to support biochemical studies. In this work, production of recombinant active pediocin PA-1 (PedA) was accomplished in Escherichia coli using a thioredoxin (trx) gene fusion (trx-pedA) expression approach. Trx-PedA itself did not show any biological activity, but upon cleavage by an enterokinase, biologically active pediocin PA-1 was obtained. Recombinant pediocin PA-1 characteristics (molecular mass, biological activity, physicochemical properties) were very similar to those of native pediocin PA-1. In addition, a 4- to 5-fold increase in production yield was obtained, by comparison with the PA-1 produced naturally by Pediococcus acidilactici PAC 1.0. The new production method, although not optimized, offers great potential for supporting further investigations on pediocin PA-1 and as a first-generation process for the production of pediocin PA-1 for high-value applications.  相似文献   

18.
The class II bacteriocins pediocin PA-1, from Pediococcus acidilactici, and lactococcin A, from Lactococcus lactis subsp. lactis bv. diacetylactis WM4 have a number of features in common. They are produced as precursor peptides containing similar amino-terminal leader sequences with a conserved processing site (Gly-Gly at positions −1 and −2). Translocation of both bacteriocins occurs via a dedicated secretory system. Because of the strong antilisterial activity of pediocin PA-1, its production by lactic acid bacteria strains adapted to dairy environments would considerably extend its application in the dairy industry. In this study, the lactococcin A secretory system was adapted for the expression and secretion of pediocin PA-1. A vector containing an in-frame fusion of sequences encoding the lcnA promoter, the lactococcin A leader, and the mature pediocin PA-1, was introduced into L. lactis IL1403. This strain is resistant to pediocin PA-1 and encodes a lactococcin translocation apparatus. The resulting L. lactis strains secreted a bacteriocin with an antimicrobial activity of approximately 25% of that displayed by the parental pediocin-producing P. acidilactici 347. A noncompetitive indirect enzyme-linked immunosorbent assay with pediocin PA-1-specific antibodies and amino-terminal amino acid sequencing confirmed that pediocin PA-1 was being produced by the heterologous host.Bacteriocins of lactic acid bacteria have received considerable attention in recent years due to their potential application in the food industry as natural preservatives. Most interest has focused on lantibiotics (class I bacteriocins), e.g., nisin, and small heat-stable non-lanthionine-containing bacteriocins (class II) (22, 23). A major subgroup of class II bacteriocins (IIa) has been given the generic name of pediocin family (28) after its most extensively studied member, pediocin PA-1. Members of this class have a number of features in common, including a very strong antimicrobial activity against Listeria species (28). The food-borne pathogen Listeria monocytogenes is a major concern in the dairy industry since it can grow in a variety of dairy products at low temperature and pH (13). Although a pediocin PA-1-producing Lactobacillus plantarum strain has recently been isolated (12), this bacteriocin is generally produced by Pediococcus acidilactici strains of meat origin (3, 16, 18, 29, 31). Because of its antilisterial activity, the expression of pediocin PA-1 in strains of dairy origin would be highly desirable.Pediocin PA-1 production, immunity, and secretion are determined by an operon containing four genes (26). The structural gene, pedA, encodes the pediocin PA-1 precursor, pedB specifies immunity, and the pedC and pedD gene products are membrane-bound proteins required for secretion of the active peptide (39). Homologs of these genes have been described for related peptides. Biosynthesis of the well-characterized class II bacteriocin, lactococcin A, produced by strains of Lactococcus lactis also involves four genes (20, 36, 40). In addition to the structural gene (lcnA) and immunity gene (lciA), there are two genes (lcnC and lcnD) whose products together form a transport system dedicated to the translocation of lactococcin through the host membrane. The LcnC protein belongs to the family of ATP-binding cassette transporter proteins (40), and LcnD acts as an accessory protein (14). These two proteins have considerable homology to PedD and PedC, respectively (39), suggesting that the latter proteins play a similar role in the transport of active pediocin. The two bacteriocins also share the double glycine-processing site found in many lactic acid bacteria class II bacteriocins, some lantibiotics, and the Escherichia coli bacteriocin, colicin V (17).Van Belkum et al. (38) have recently investigated the role of leader sequences of the class II bacteriocins in the recognition of the precursor peptide by the dedicated translocation machinery of the host organism. By constructing hybrid genes, they demonstrated that the leader peptides of leucocin A, lactococcin A, and colicin V, which are cleaved at the Gly-Gly (positions −2 and −1) site, can direct the secretion of the nonrelated bacteriocin divergicin A. Our studies have focused on the class II bacteriocins pediocin PA-1 and lactococcin A. Since these peptides have a number of features in common, it might be expected that a pediocin PA-1 precursor could be secreted and processed by using the lactococcin A translocation machinery. L. lactis IL1403 is a plasmid-free strain that does not produce bacteriocin but contains chromosomal copies of genes analogous to lcnC and lcnD (33, 40). In addition, the natural resistance of this strain to pediocin PA-1 (8) makes it an ideal candidate for a production host to investigate the expression of pediocin PA-1 in lactococci.This paper describes the development of an expression system geared to the production of heterologous peptides in L. lactis. Testing the system with pediocin PA-1 involved the construction of a vector containing an in-frame fusion between sequences encoding the lactococcin A leader and the structural part of mature pediocin PA-1. The hybrid genes were introduced into L. lactis IL1403, and the ability of these strains to produce and secrete pediocin PA-1 was investigated.  相似文献   

19.
The bacteriocins pediocin PA-1 and lactococcin A are synthesized as precursors carrying N-terminal extensions with a conserved cleavage site preceded by two glycine residues in positions -2 and -1. Each bacteriocin is translocated through the cytoplasmic membrane by an integral membrane protein of the ABC cassette superfamily which, in the case of pediocin PA-1, has been shown to possess peptidase activity responsible for proteolytic cleavage of the pre-bacteriocin. In each case, another integral membrane protein is essential for bacteriocin production. In this study, a two-step PCR approach was used to permutate the leaders of pediocin PA-1 and lactococcin A. Wild-type and chimeric pre-bacteriocins were assayed for maturation by the processing/export machinery of pediocin PA-1 and lactococcin A. The results show that pediocin PA-1 can be efficiently exported by the lactococcin machinery whether it carries the lactococcin or the pediocin leader. It can also compete with wild-type lactococcin A for the lactococcin machinery. Pediocin PA-1 carrying the lactococcin A leader or lactococcin A carrying that of pediocin PA-1 was poorly secreted when complemented with the pediocin PA-1 machinery, showing that the pediocin machinery is more specific for its bacteriocin substrate. Wild-type pre-pediocin and chimeric pre-pediocin were shown to be processed by the lactococcin machinery at or near the double-glycine cleavage site. These results show the potential of the lactococcin LcnC/LcnD machinery as a maturation system for peptides carrying double-glycine-type amino-terminal leaders.  相似文献   

20.
Several lactic acid bacteria produce so-called pediocin-like bacteriocins that share sequence characteristics, but differ in activity and target cell specificity. The significance of a C-terminal disulfide bridge present in only a few of these bacteriocins was studied by site-directed mutagenesis of pediocin PA-1 (which naturally contains the bridge) and sakacin P (which lacks the bridge). Introduction of the C-terminal bridge into sakacin P broadened the target cell specificity of this bacteriocin, as illustrated by the fact that the mutants were 10 to 20 times more potent than the wild-type toward certain indicator strains, whereas the potency toward other indicator strains remained essentially unchanged. Like pediocin PA-1, disulfide-containing sakacin P mutants had the same potency at 20 and 37 degrees C, whereas wild-type sakacin P was approximately 10 times less potent at 37 degrees C than at 20 degrees C. Reciprocal effects on target cell specificity and the temperature dependence of potency were observed upon studying the effect of removing the C-terminal disulfide bridge from pediocin PA-1 by Cys-->Ser mutations. These results clearly show that a C-terminal disulfide bridge in pediocin-like bacteriocins contributes to widening of the antimicrobial spectrum as well as to higher potency at elevated temperatures. Interestingly, the differences between sakacin P and pediocin PA-1 in terms of the temperature dependency of their activities correlated well with the optimal temperatures for bacteriocin production and growth of the bacteriocin-producing strain.  相似文献   

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