Nucleotide sequence of a nuc gene encoding the thermonuclease of Staphylococcus intermedius

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Primary structure and biological features of a thermostable nuclease isolated from Staphylococcus hyicus

International audienceThe nucH gene, encoding a thermostable nuclease (TNase), was isolated from the cellular DNA of Staphylococcus hyicus strain E80 and sequenced. NucH, the 169-amino-acid (aa) protein encoded by this gene, contains, at its N-terminus, a signal peptide which appears to be cleaved at the same site in S. hyicus and Escherichia coli, yielding a mature protein which is exported extracellularly from S. hyicus, but not from E. coli. The aa sequence of NucH is highly homologous with that of the TNase from S. intermedius strain LRA076, whereas significant similarities are observed with the TNase from S. aureus, as well as with three other bacterial proteins of which only one has been shown to exhibit DNase activity. As seen in a multiple sequence alignment, the invariant residues are mostly located in the regions involved in the biological activity of the S. aureus TNase. The ability of crude cell extracts of E. coli strains carrying nucH to degrade various forms of nucleic acids with or without Ca2+ supplementation was studied. Under our experimental conditions, the enzyme encoded by nucH was active at 37 degrees C on both DNA and RNA, had the potential to act as an endonuclease, and functioned in the presence of Ca2+. Moreover, activity was retained after heating at 100 degrees C, suggesting that the enzyme could undergo reversible unfolding

Tn5406, a New Staphylococcal Transposon Conferring Resistance to Streptogramin A and Related Compounds Including Dalfopristin

We characterized a new transposon, Tn5406 (5,467 bp), in a clinical isolate of Staphylococcus aureus (BM3327). It carries a variant of vgaA, which encodes a putative ABC protein conferring resistance to streptogramin A but not to mixtures of streptogramins A and B. It also carries three putative genes, the products of which exhibit significant similarities (61 to 73% amino acid identity) to the three transposases of the staphylococcal transposon Tn554. Like Tn554, Tn5406 failed to generate target repeats. In BM3327, the single copy of Tn5406 was inserted into the chromosomal att554 site, which is the preferential insertion site of Tn554. In three other independent S. aureus clinical isolates, Tn5406 was either present as a single plasmid copy (BM3318), as two chromosomal copies (BM3252), or both in the chromosome and on a plasmid (BM3385). The Tn5406-carrying plasmids also contain two other genes, vgaB and vatB. The insertion sites of Tn5406 in BM3252 were studied: one copy was in att554, and one copy was in the additional SCCmec element. Amplification experiments revealed circular forms of Tn5406, indicating that this transposon might be active. To our knowledge, a transposon conferring resistance to streptogramin A and related compounds has not been previously described

Transposition of IS 1181 in the genomes of Staphylococcus and Listeria

International audienceThe recombinant plasmid pIP1713 was constructed to analyse the transpositional activity of the insertion sequence IS1181 in Staphylococcus aureus RN4220, Staphylococcus carnosus TM300 and Listeria monocytogenes EGD. This 11.3-kb plasmid contains two genetically different elements: (i) a pE194ts-derived replicon, the ermC gene of which confers resistance to erythromycin in Gram-positive bacteria of several species, and (ii) a copy of IS1181, cloned from S. aureus BM3121, in which the tetracycline resistance gene, tet(T), has been inserted between the transposase-encoded gene and the downstream inverted repeat. When introduced by electroporation into the three bacterial hosts, pIP1713 delivered IS1181 omega tet(T) to various chromosomal sites. Cointegrate structures between pIP1713 and the host chromosome were occasionally detected. Transposition was associated with 8-bp repeats at the insertion sites. IS1181 omega tet(T) could be used for random mutagenesis in Gram-positive bacteria

Several regions of the repeat domain of the Staphylococcus caprae autolysin, AtlC, are involved in fibronectin binding

International audienceThe autolysin AtlC is the only known fibronectin-binding protein in Staphylococcus caprae strain 96007. The fibronectin-binding domain of AtlC consists of three repeats (AtlCR 1 R 2 R 3), which are located between the two enzymatic domains. The AtlCR 1 R 2 R 3 domain and the AtlCR 1 R 2 and AtlCR 3 subdomains were expressed separately as His 6-tagged proteins. In Western affinity blots, only AtlCR 1 R 2 R 3 and AtlCR 3 but not AtlCR 1 R 2 appeared to recognise fibronectin; however, in ELISA and Biacore experiments, all three bound fibronectin. The interaction between AtlCR 1 R 2 R 3 and fibronectin is multivalent and involves high-and low-affinity sites that are present in a 2:1 ratio. These distinct classes of binding sites may be situated on either or on both ligands

Clonal Diversity among Streptogramin A-Resistant Staphylococcus aureus Isolates Collected in French Hospitals

We analyzed 62 clinical isolates of streptogramin A-resistant (SGA(r)) Staphylococcus aureus collected between 1981 and 2001 in 14 hospitals located in seven French cities. These isolates, including five with decreased susceptibility to glycopeptides, were distributed into 45 antibiotypes and 38 SmaI genotypes. Each of these genotypes included between 1 and 11 isolates, the SmaI patterns of which differed by no more than three bands. Although numerous clones were identified, we observed the spread of monoclonal isolates either within the same hospital or within hospitals in distinct cities and at large time intervals. Hybridization with probes directed against 10 SGA(r) genes (vatA, vatB, vatC, vatD, vatE, vgaA, vgaB, vgaAv, vgbA, and vgbB) revealed six patterns: vgaAv (21 isolates), vatA-vgbA (24 isolates), vgaAv-vatB-vgaB (14 isolates), vgaAv-vatA-vgbA (1 isolate), vgaAv-vatA-vgbA-vatB-vgaB (1 isolate), and vgaA (1 isolate). We detected at least one SGA(r) determinant in all of the tested isolates. vgaAv, which is part of the recently characterized transposon Tn5406, was found in 59.7% of the tested isolates. Of the 16 streptogramin B-susceptible isolates, 14 carried vgaAv alone and were susceptible to the mixtures of streptogramins, whereas the 2 isolates carrying vgaAv-vatB-vgaB were resistant to these mixtures. vatA-vgbA was found on plasmids of the same apparent size in 26 (42%) of the tested clinical isolates from 18 unrelated SmaI genotypes. The possible dissemination of some of the multiple clones characterized in the present study with an expected increased selective pressure of streptogramins following the recent licensing of Synercid (quinupristin-dalfopristin) must be carefully monitored

Sequence of a staphylococcal gene, vat, encoding an acetyltransferase inactivating the A-type compounds of virginiamycin-like antibiotics.

International audienceThe Staphylococcus aureus plasmids, pIP680 and pIP1156, which confer resistance to A-type compounds of virginiamycin-like antibiotics (Vml: streptogramin A, pristinamycin IIA, virginiamycin M) and to synergistic mixtures of the A and B compounds of Vml antibiotics, were shown to direct the modification of A-type compounds by acetylation. The vat gene, encoding the acetyltransferase modifying A-type compounds, was isolated from plasmid pIP680 and sequenced. This gene potentially encodes a 219-amino-acid (aa) protein, VAT, of 24 330 Da showing at least 38% aa identity with two chloramphenicol acetyltransferases encoded by cat genes isolated from Escherichia coli and Agrobacterium tumefaciens. Resistance to A-type compounds of Vml antibiotics conferred to S. aureus by vat was not expressed in E. coli, although a protein having a M(r) similar to that encoded by this gene was detected in E. coli minicells. The vat gene was detected by the polymerase chain reaction in two chromosomally located staphylococcal conjugative elements and in the conjugative plasmid, pIP1156, conferring resistance to A-type compounds