Mapping of Streptococcus faecalis plasmids pAD1 and pAD2 and studies relating to transposition of Tn917

Plasmids pAD1 (37.8 megadaltons) and pAD2 (17.1 megadaltons) of Streptococcus faecalis strain DS16 have been mapped with restriction enzymes. The location of a hemolysin-bacteriocin determinant on the conjugative pAD1 plasmid was derived from analyses of transposon insertions. Electron microscope and hybridization analyses located Tn917(Em) and the streptomycin (Sm) and kanamycin (Km) resistance determinants on the nonconjugative pAD2 plasmid. It was shown previously that the erythromycin (Em) resistance associated with Tn917 is inducible and that transposition from pAD2 to pAD1 is also stimulated by exposure of cells to low concentrations of Em. Here we show that inducing concentrations of Em also increase the conjugative transfer potential of pAD1; this is possibly related to a mild and short-lived inhibitory stress placed on the cells before full induction of resistance. Selection of Em-resistant transconjugants arising from matings between DS16 and a plasmid-free recipient gave rise to transconjugants which primarily harbor stable pAD1::pAD2 cointegrates. A 30-min exposure of donors to Em (0.5 microgram/ml) before mating resulted in a severalfold increase in the number of such transconjugants. However, a small fraction (e.g., 3 of 40) of these Emr Smr Kmr transconjugants harbored pAD1::Tn917 and pAD2 molecules. Since we believe pAD2 is incapable of being mobilized by pAD1 without being covalently linked, it is likely that transfer in these cases involved cointegrates representing structural intermediates in the transposition of Tn917 from pAD2 to pAD1. It follows that such intermediates probably had two copies of Tn917 and readily resolved after transfer. (These cointegrates are different from the stable cointegrates which were shown to have only a single copy of Tn917; the latter are assumed not to be related to transposition.) Two variants with altered Tn917 transposition properties were derived. One of them transposed at an elevated frequency, whereas the other showed no detectabel transposition. In neither case was transposition influenced by Em exposure; however, both remained inducible for Em resistance.     

Properties of erythromycin-inducible transposon Tn917 in Streptococcus faecalis.

Streptococcus faecalis strain DS16 harbors two plasmids, a conjugative plasmid, pAD1, which encodes hemolysin and bacteriocin activities, and a nonconjugative plasmid, pAD2, encoding resistance to streptomycin, kanamycin, and erythromycin, the latter of which is inducible. The erythromycin resistance determinant is located on a 3.3-megadalton transposable element designated Tn917, which could be transposed to pAD1 as well as to two other plasmids, pAm gamma 1 and pAM alpha 1. When strain DS16 was exposed to low (inducing) concentrations of erythromycin for a few hours, the frequency of Tn917 transposition from pAD2 to pAD1 increased by an order of magnitude. This induction paralleled induction of erythromycin resistance and was prevented by exposing the cells to inhibitors of deoxyribonucleic acid, ribonucleic acid or protein synthesis. The exposure of strain DS16 to inducing concentrations of erythromycin also enhanced the frequency of erythromycin-resistant transconjugants appearing during mating. Initially, cointegrate molecules, whose molecular weights were approximately the sum of pAD1 and pAD2, accounted for these transconjugants; however, as the induction time increased, pAD1::Tn917 became increasingly prominent.     

No correlation exists between the conjugative transfer of the autotrophic character and that of plasmids in Nocardia opaca strains

A new isolate of Nocardia opaca was obtained by enrichment culture for aerobic lithoautotrophic growth on CO2 and H2. This strain, MR22, is very similar to N. opaca MR11 (formerly 1b) in functioning as a donor for genetic information determining the ability to grow lithoautotrophically (Aut character) in matings with Aut- strains of N. opaca or closely related heterotrophic species. The strain contains a plasmid, pHG33 of about 110 kb. A mutant was isolated from strain MR22 which was plasmid-free, and had lost the Aut character, resistance to 50 microM-thallium salt and susceptibility to the nocardia-specific bacteriophage phi B1. As a recipient of the Aut character, this plasmid-free mutant was as well suited as plasmid-bearing Aut- strains of N. opaca. In matings with the mutant as recipient the frequency of Aut+ transconjugants per donor was 3 X 10(-4) with N. opaca MR11 (pHG31-a, Aut+, Tlr, Strs, phi B1s) and 2 X 10(-3) with N. opaca MR22 (pHG33, Aut+, Tlr, Strs, phi B1r) as donor. Phenotypic characterization of the transconjugants, which had been selected for the Aut marker, revealed that in many cases the Aut marker had been transferred without plasmid transfer. Furthermore, plasmid-free, Aut+ transconjugants functioned as donors for the Aut marker. Both plasmid-free and plasmid-bearing transconjugants transferred the Aut marker to the Aut- strains of N. opaca with a frequency which was one or two orders of magnitude higher than that of the wild-type strains. The plasmids pHG31-a and pHG33 code for thallium resistance (50 microM-thallium acetate). The frequency of thallium-resistant transconjugants was 10(-1) to 10(-2) per donor; all thallium-resistant transconjugants contained the donor plasmid. We conclude that the plasmids pHG31-a of strain MR11 and pHG33 of strain MR22 of N. opaca carry the genetic information for thallium resistance but not the Aut character. As plasmid-free Aut+ strains can function as donors the Aut character is assumed to reside on the chromosome and to function as an independent self-transmissible genetic element.     

Translocation of antibiotic resistance markers of a plasmid-free Streptococcus pyogenes (group A) strain into different streptococcal hemolysin plasmids

Summary Wild-type strain A454 (Streptococcus pyogenes) transferred en bloc its erythromycin (Em) and tetracycline (Tc) resistance markers into several plasmid-free streptococcal recipients. No plasmid DNA was detected in either the wild-type or the transconjugant strains. Crosses were performed between A454 and S. faecalis Rec⁺ or Rec^- recipients carrying hemolysin-bacteriocin plasmids, pIP964 or pAD1. The Em Tc-resistant transconjugants obtained harbored either the parental plasmid or an Em Tc resistance plasmid derived from pIP964 or pAD1. The restriction endonuclease analysis of 12 derivative plasmids showed insertions of various sizes into different fragments of pIP964 or pAD1. A454 and the Em Tc-resistant plasmid-free transconjugants were found to contain two EcoRI DNA fragments, that shared homology with ³²P-labeled pIP1077, one of the Em Tc resistance derivative plasmids, but not with ³²P-labeled pIP964. No homology was detected between pIP1077 and the cellular DNA of the antibiotic-susceptible recipients.Previously Thea Horodniceanu     

Isolation of indigenous wastewater bacterial strains capable of mobilizing plasmid pBR325

Members of the family Enterobacteriaceae have been isolated from raw wastewater, identified, and characterized with respect to their plasmid content and antibiotic resistance. Several strains possessing both antibiotic resistance and high-molecular-weight plasmid(s) transferred their resistance characteristics to recipient cells during a 25 h coincubation. Eight were characterized (six Escherichia coli and two Klebsiella pneumoniae); each produced 10(2) to 10(7) transconjugants per ml by the end of the incubation period. They were also able to mobilize pBR325 from a laboratory E. coli strain into plasmid-free recipients to yield 10(2) to 10(7) transconjugants per ml. These transconjugants possessed phenotypic characteristics specified by pBR325, the R plasmid, and the chromosome of the recipient. Many transconjugants exhibited recombinational rearrangements of the acquired plasmid material.     

Isolation of indigenous wastewater bacterial strains capable of mobilizing plasmid pBR325.

Members of the family Enterobacteriaceae have been isolated from raw wastewater, identified, and characterized with respect to their plasmid content and antibiotic resistance. Several strains possessing both antibiotic resistance and high-molecular-weight plasmid(s) transferred their resistance characteristics to recipient cells during a 25 h coincubation. Eight were characterized (six Escherichia coli and two Klebsiella pneumoniae); each produced 10(2) to 10(7) transconjugants per ml by the end of the incubation period. They were also able to mobilize pBR325 from a laboratory E. coli strain into plasmid-free recipients to yield 10(2) to 10(7) transconjugants per ml. These transconjugants possessed phenotypic characteristics specified by pBR325, the R plasmid, and the chromosome of the recipient. Many transconjugants exhibited recombinational rearrangements of the acquired plasmid material.     

Two conjugation systems associated with Streptococcus faecalis plasmid pCF10: identification of a conjugative transposon that transfers between S. faecalis and Bacillus subtilis.

The tetracycline resistance plasmid pCF10 (58 kilobases [kb]) of Streptococcus faecalis possesses two separate conjugation systems. A 25-kb region of the plasmid (designated TRA) was shown previously to determine pheromone response and conjugation functions required for transfer of pCF10 between S. faecalis cells (P. J. Christie and G. M. Dunny, Plasmid 15:230-241, 1986). When S. faecalis cells were mixed with Bacillus subtilis in broth, tetracycline resistance was transferred from S. faecalis. The tetracycline-resistant B. subtilis cells contained a 16-kb region of pCF10 (distinct from TRA) that carried the tetracycline resistance determinant (Tetr). This Tetr element was found to transfer between S. faecalis and B. subtilis strains in the absence of plasmids. Genetic and molecular techniques were used to establish locations of the element at several different sites on the B. subtilis chromosome. The Tetr element could be transferred in filter matings from B. subtilis to S. faecalis strains and between recombination-proficient and -deficient S. faecalis strains in the absence of any plasmid DNA. The transfer required direct cell-to-cell contact and was not inhibited by DNase. The Tetr element was shown to transpose from the S. faecalis chromosome to various locations within the hemolysin plasmid pAD1. Together, the data indicate that the Tetr element, termed transposon Tn925, is very similar to the conjugative transposon Tn916 in both structure and function. A derivative of Tn925, containing transposon Tn917 inserted into a site approximately 3 kb from one end, exhibited elevated transfer frequencies and may provide a useful means for delivering Tn917 by conjugation into various gram-positive species.     

Identification of the cAD1 sex pheromone precursor in Enterococcus faecalis

The Enterococcus faecalis virulence plasmid pAD1 encodes a mating response induced by exposure to an octapeptide sex pheromone, cAD1, secreted by plasmid-free enterococci. The determinant for the pheromone in E. faecalis FA2-2, designated cad, was found to encode a 309-amino-acid lipoprotein precursor with the last 8 residues of its 22-amino acid signal sequence representing the cAD1 moiety. The lipoprotein moiety contained two 77-amino-acid repeats (70% identity) separated by 45 residues. The nonisogenic E. faecalis strain V583 determinant encodes a homologous precursor protein, but it differs at two amino acid positions, both of which are located within the pheromone peptide moiety (positions 2 and 8). Construction of a variant of strain FA2-2 containing the differences present in V583 resulted in cells that did not produce detectable cAD1. The mutant appeared normal under laboratory growth conditions, and while significantly reduced in recipient potential, when carrying pAD1 it exhibited a normal mating response. A mutant of FA2-2 with a truncated lipoprotein moiety appeared normal with respect to recipient potential and, when carrying plasmid DNA, donor potential. A gene encoding a protein designated Eep, believed to be a zinc metalloprotease, had been previously identified as required for pheromone biosynthesis and was believed to be involved in the processing of a pheromone precursor. Our new observation that the pAD1-encoded inhibitor peptide, iAD1, whose precursor is itself a signal sequence, is also dependent on Eep is consistent with the likelihood that such processing occurs at the amino terminus of the cAD1 moiety.     

Identification of a new gene (secA) and gene product involved in the secretion of envelope proteins in Escherichia coli

Bacteroides fragilis TMP10, which is clindamycin-erythromycin resistant (Clnr) and tetracycline resistant (Tetr), contains several plasmids and is capable of transferring drug resistance markers to suitable recipients. We were able to separate a 14.6-kilobase self-transmissible Clnr plasmid, pBFTM10, from the other plasmids of TMP10 in a tetracycline-sensitive recipient strain, B. fragilis TM4000. All Clnr transconjugants acquired an unaltered pBFTM10 and became plasmid donor strains. Transfer is proposed to occur by conjugation since it required to cell-to-cell contact of filter matings and was insensitive to DNase, but sensitive to chloroform treatment of donor cells. The efficiency of transfer of pBFTM10 in a Tets background (TM4003) was not affected by pretreatment of donor cells with clindamycin. A spontaneously occurring Clns derivative, pBFTM10 delta 1, suffered a deletion of DNA, which included a 4.4-kilobase EcoRI fragment. A complex interaction between the autonomous plasmid pBFTM10 and a tetracycline transfer element also present in strain TMP10 was observed since pretreatment of this donor with tetracycline or clindamycin resulted in a marked increase in transfer of both tetracycline and clindamycin resistance.     

Enterococcal plasmid transfer: sex pheromones,transfer origins,relaxases, and the Staphylococcus aureus issue

Certain conjugative plasmids in Enterococcus faecalis encode a mating response to peptide sex pheromones encoded on the chromosome of potential recipient (plasmid-free) strains. The pheromone precursors correspond to the precursors of surface lipoproteins with the mature peptides coming from the last 7-8 residues of the related signal sequences. Processing that gives rise to the pAD1-related peptide involves a chromosome-encoded metalloprotease (Eep) that is believed to operate within the cytoplasmic membrane. Mutations in the determinants for cAD1 and cAM373, cad and camE, respectively, do not affect cell viability; and when the related plasmid is present, the pheromone response is normal. A cAM373-like activity is produce by Staphylococcus aureus, but the corresponding lipoprotein determinant (camS) is unrelated to the enterococcal determinant (camE). pAD1 has two origins of transfer, oriT1 and oriT2 and encodes a relaxase (TraX), which has been shown to specifically nick in oriT2. pAM373 has a site, oriT, that is similar to oriT2 of pAD1. Both sites (oriT2 of pAD1 and oriT of pAM373) have a series of short direct repeats (5-6 bp with 5-6 bp-spacings) adjacent to a long inverted repeat (140 bp). The direct repeats differ significantly and confer specificity to the two systems. pAD1 and pAM373 are both able to mobilize the nonconjugative plasmid pAMalpha1, which encodes two relaxases that are involved in transfer. Relevant information concerning the possible movement of vancomycin resistance from E. faecalis to S. aureus in a clinical environment is discussed.     

Transferable tetracycline resistance in Clostridium perfringens strains of porcine origin

These studies represent the first systematic survey of the incidence of conjugative antibiotic resistance in Clostridium perfringens. Ninety-two antibiotic-resistant porcine strains were examined to see if they could donate their antibiotic-resistance determinants to sensitive recipient strains. Fifteen of the 89 tetracycline-resistant strains transferred their tetracycline resistance in mixed-plate mating experiments but no transfer of macrolide-lincosamide resistance was detected. The efficiencies of transfer of tetracycline resistance varied from 1.3 X 10(-3) to 1.9 X 10(-6) transconjugants per donor cell. Significantly higher transfer efficiencies were observed when both the donor and recipient strains were derivatives of strain CW 362. These values ranged from 3.7 X 10(-1) to 4.6 X 10(-2) transconjugants per donor cell. This high frequency transfer system should prove invaluable for further genetic studies on this microorganism.     

Cloning and characterization of a region of Enterococcus faecalis plasmid pPD1 encoding pheromone inhibitor (ipd), pheromone sensitivity (traC), and pheromone shutdown (traB) genes.

Bacteriocin plasmid pPD1 in Enterococcus faecalis encodes a mating response to recipient-produced sex pheromone cPD1. Once a recipient acquires pPD1, transconjugants apparently shut off cPD1 activity in broth culture and no longer behave as recipients for pPD1. This event is performed by synthesis of the pheromone inhibitor iPD1 and also by repression of cPD1 production, the so-called "pheromone shutdown." A 5.4-kb EcoRV-HincII segment of pPD1, which expressed iPD1 in Escherichia coli, was sequenced and found to be organized as traC-traB-traA-ipd; each open reading frame is analogous to that found in other pheromone plasmids, pAD1 and pCF10, and thus is designated in accordance with the nomenclature in pAD1. The ipd gene encodes a peptide consisting of 21 amino acids, in which the C-terminal eight residues correspond to iPD1. The putative TraC product has a strong similarity to oligopeptide-binding proteins found in other bacterial species, as do pheromone-binding proteins of pCF10 and pAD1. A strain carrying traC-disrupted pPD1 required a concentration of cPD1 fourfold higher than that needed by the wild-type strain for induction of sexual aggregation. These results suggest that the TraC product contributes to pheromone sensitivity as a pheromone-binding protein. A strain transformed with traB-disrupted pPD1 produced a high level of cPD1 similar to that produced by plasmid-free recipients and underwent self-induction. Thus, the TraB product contributes to cPD1 shutdown.     

Introduction of the Streptococcus faecalis transposon Tn916 into Bacillus thuringiensis subsp. israelensis

The conjugative Streptococcus faecalis transposon Tn916 was introduced into Bacillus thuringiensis subsp. israelensis by filter matings with S. faecalis. B. thuringiensis transconjugants resistant to tetracycline (Tetr) were detected at a frequency of approximately 7.0 X 10(-7) per recipient cell during filter matings, whereas transfer of Tn916 was not observed in broth matings. The Tetr phenotype in subsp. israelensis was stable in the absence of antibiotic selection. Southern hybridization analysis revealed that Tn916 had inserted into several different sites on the B. thuringiensis subsp. israelensis chromosome but insertion into plasmid DNA was not observed. Movement of Tn916 was demonstrated when Tetr B. thuringiensis transconjugants were mated with isogenic recipients. Southern hybridizations, however, showed that the resulting Tetr isolates contained Tn916 junction fragments that were nearly identical to the donor, suggesting that this movement resulted from transfer of chromosomal DNA from donor to recipient or from a fusion of mating cells, rather than conjugative transposition of the Tn element.     

Regulation of transfer of the Enterococcus faecalis pheromone-responding plasmid pAD1: temperature-sensitive transfer mutants and identification of a new regulatory determinant, traD.

The enterococcal, conjugative, cytolysin plasmid pAD1 confers a mating response to the peptide sex pheromone cAD1 secreted by plasmid-free strains of Enterococcus faecalis. Cells carrying pAM714, a pAD1::Tn917 derivative with wild-type conjugation properties, were mutagenized with ethyl methanesulfonate to obtain variants that were induced (in the absence of pheromone) to transfer plasmid DNA upon shifting from 32 to 42 degrees C. Of 31 such mutants generated, the results of analyses of 7 are presented in detail. All seven strains were thermosensitive in the E. faecalis host FA2-2; colony morphology, clumping, and DNA transfer correlated well with each other at the two temperatures. In the nonisogenic host E. faecalis OG1X, however, only one derivative (pAM2725) exhibited correlation of all three traits at both temperatures. Three (pAM2700, pAM2703, and pAM2717) clumped and had colonies characteristic of pheromone-induced cells at 32 degrees C but transferred plasmid DNA at a higher frequency only at the elevated temperature. The other three (pAM2708, pAM2709, and pAM2712) were derepressed at both temperatures for all three characteristics. Four of the mutations, including that of pAM2725, mapped within the traA determinant, whereas two mapped identically in a previously unnoted open reading frame (designated traD) putatively encoding a short (23-amino-acid) peptide downstream of the inhibitor peptide determinant iad and in the opposite orientation. One mutant could not be located in the regions sequenced. Studies showed that the traA and traD mutations could be complemented in trans with a DNA fragment carrying the corresponding regions.     

High-frequency transfer of a naturally occurring chromosomal tetracycline resistance element in the ruminal anaerobe Butyrivibrio fibrisolvens.

Butyrivibrio fibrisolvens strains resistant to tetracycline were isolated from the bovine rumen. Two of three Tcr B. fibrisolvens tested were able to donate tetracycline resistance at frequencies ranging from 10(-7) to 10(-1) per donor cell in anaerobic filter matings to a rifampin-resistant mutant of the type strain of B.fibrisolvens, 2221R. The recipient strain 2221R exhibited rapid autoaggregation, which might be a factor in the high transfer rates observed. Tcr transconjugants of B. fibrisolvens 2221R were also capable of further transferring tetracycline resistance to a fusidic acid-resistant mutant, 2221F. Comparison of genomic DNAs by pulsed-field gel electrophoresis demonstrated altered band profiles in transconjugants, consistent with the acquisition of a large mobile chromosomal element. The transferable elements from the two B. fibrisolvens donors 1.23 and 1.230 (TnB123 and TnB1230, respectively) showed the same preferred insertion site in the B. fibrisolvens 2221R chromosome and are likely to be similar, or identical, elements. Hybridization experiments showed no close relationship between TnB1230 and int-xis regions from Tn916 or Tn5253. Although DNA from the B. fibrisolvens donor strains hybridized with probes carrying tet(M) or tet(O) sequences, transconjugants were found to have acquired a distinct band that hybridized only weakly with these probes, suggesting that a second, distantly related Tcr determinant had been transferred.     

Drug resistance of Enterococcus faecium clinical isolates and the conjugative transfer of gentamicin and erythromycin resistance traits

Drug resistance and the transferability of resistance were examined in 218 Enterococcus faecium clinical isolates obtained from in-patients of a Japanese university hospital between 1990 and 1999. One hundred and sixty one isolates (73.9%) were drug-resistant and 127 (58.2%) isolates were resistant to two or more drugs. Vancomycin resistant E. faecium (VRE) was not isolated. The transferability of drug-resistance to an E. faecium strain was examined by broth or filter mating. Six (12.5%) of the 48 gentamicin resistance traits, and fifty (50%) of the 101 erythromycin resistance traits were transferred by filter mating. The gentamicin resistance traits of five isolates and the erythromycin resistance traits of four isolates were transferred to the recipient strains by both broth mating and filter mating at a frequency of about 10(-6) and 10(-5) per donor cell, respectively. The five gentamicin resistant strains were shown to harbor pMG1-like plasmids on the basis of their Southern hybridization with pMG1 (65.1 kbp, Gm(r)), which transfers efficiently between enterococci by broth mating. Each of the four erythromycin resistant transconjugants obtained by broth mating harbored a large conjugative plasmid (more than 100 kbp). The plasmids showed no homology with well-characterized enterococcal conjugative plasmids such as pAD1, pPD1, pAM(beta)1, pIP501 and pMG1 by Southern hybridization. Of the erythromycin resistance traits that transferred only by filter mating, it was found that the erythromycin resistance trait was conferred by a 47-kbp transposable element that transferred from the chromosome of the donor strain to different sites within the pheromone responsive plasmid pAD1 (60 kbp) of the recipient strain, suggesting that the erythromycin resistance trait was encoded on a conjugative transposon, which was named Tn950.     

Influence of a Survival Process in a Freshwater System upon Plasmid Transfer Between Escherichia coli Strains

Abstract Survival and potential ability to act as recipient or donor during the survival process for one plasmid-free and four plasmid-bearing Escherichia coli strains under nonilluminated and illuminated conditions in freshwater systems were studied. The five E. coli strains showed the same behavior with respect to the microbial parameters used to characterize the survival process (culturability and viability). Under nonilluminated conditions, recipient cells did not show variation in the ability to receive and express plasmid material, while the culturability of the recipient strain remained stable. Under the same conditions, donor cells lost their ability for plasmid transfer during the survival process, in all cases more than a 90% decrease of the number of transconjugants was found after 4 days of experimentation, although viable and culturable cells of donor strains maintained the capacity to express some plasmidic genes. Under illuminated conditions, transconjugants were not detected after 2 days of experimentation. The number of transconjugants formed was dependent not only on the time donor strains remained in the water but also on the temperature (20 or 37°C) at which the mating assays were conducted. Received: 15 August 1995; Accepted: 28 November 1995     

Specific control of endogenous cCF10 pheromone by a conserved domain of the pCF10-encoded regulatory protein PrgY in Enterococcus faecalis

Conjugative transfer of Enterococcus faecalis plasmid pCF10 is induced by the heptapeptide pheromone cCF10. cCF10 produced by plasmid-free recipient cells is detected by pCF10-containing donor cells, which respond by induction of plasmid-encoded transfer functions. The pCF10-encoded membrane protein PrgY is essential to prevent donor cells from responding to endogenously produced pheromone while maintaining the ability to respond to pheromone from an exogenous source; this function has not been identified in any nonenterococcal prokaryotic signaling system. PrgY specifically inhibited endogenous cCF10 and cPD1 (a pheromone that induces transfer of closely related plasmid pPD1) but not cAD1 (which is specific for less-related plasmid pAD1). Ectopic expression of PrgY in plasmid-free recipient cells reduced pheromone activity in culture supernatants and reduced the ability of these cells to acquire pCF10 by conjugation but did not have any effect on the interaction of these cells with exogenously supplied cCF10. The cloned prgY gene could complement a pCF10 prgY null mutation, and complementation was used to identify point mutations impairing PrgY function. Such mutations also abolished the inhibitory effect of PrgY expression in recipients on pheromone production and on acquisition of pCF10. Most randomly generated point mutations identified in the genetic screen mapped to a predicted extracellular domain in the N terminus of PrgY that is conserved in a newly identified family of related proteins from disparate species including Borrelia burgdorferi, Archaeoglobus fulgidus, Arabidopsis thaliana, and Homo sapiens. The combined genetic and physiological data suggest that PrgY may sequester or inactivate cCF10 as it is released from the membrane.     

Evidence that the clindamycin-erythromycin resistance gene of Bacteroides plasmid pBF4 is on a transposable element.

We constructed a shuttle vector, pE5-2, which can replicate in both Bacteroides spp. and Escherichia coli. pE5-2 contains a cryptic Bacteroides plasmid (pB8-51), a 3.8-kilobase (kb) EcoRI-D fragment from the 41-kb Bacteroides fragilis plasmid pBF4, and RSF1010, an IncQ E. coli plasmid. pE5-2 was mobilized by R751, an IncP E. coli plasmid, between E. coli strains with a frequency of 5 X 10(-2) to 3.8 X 10(-1) transconjugants per recipient. R751 also mobilized pE5-2 from E. coli donors to Bacteroides uniformis 0061RT and Bacteroides thetaiotaomicron 5482 with a frequency of 0.9 X 10(-6) to 2.5 X 10(-6). The Bacteroides transconjugants contained only pE5-2 and were resistant to clindamycin and erythromycin. Thus, the gene for clindamycin and erythromycin resistance must be located within the Eco RI-D fragment of BF4. A second recombinant plasmid, pSS-2, which contained 33 kb of pBF4 (including the EcoRI-D fragment and contiguous regions) could also be mobilized by R751 between E. coli strains. In some transconjugants, a 5.5-kb (+/- 0.3 kb) segment of the pBF4 portion of pSS2 was inserted into one of several sites on R751. In some other transconjugants this same 5.5-kb segment was integrated into the E. coli chromosome. This segment could transfer a second time onto R751. Transfer was RecA independent. The transferred segment included the entire EcoRI-D fragment, and thus the clindamycin-erythromycin resistance determinant, from pBF4.