Draft genome sequence of Staphylococcus aureus 118 (ST772), a major disease clone from India

We report the draft genome sequence of an ST772 Staphylococcus aureus disease isolate carrying staphylococcal cassette chromosome mec (SCCmec) type V from a pyomyositis patient. Our de novo short read assembly is ∼2.8 Mb and encodes a unique Panton-Valentine leukocidin (PVL) phage with structural genes similar to those of φ7247PVL and novel lysogenic genes at the N termini.     

Draft Genome Sequence of Staphylococcus aureus ST672, an Emerging Disease Clone from India

We report the draft genome sequence of methicillin-resistant Staphylococcus aureus (MRSA) strain ST672, an emerging disease clone in India, from a septicemia patient. The genome size is about 2.82 Mb with 2,485 open reading frames (ORFs). The staphylococcal cassette chromosome mec (SCCmec) element (type V) and immune evasion cluster appear to be different from those of strain ST772 on preliminary examination.     

Complete Genome of Staphylococcus aureus Phage SA11

A novel lytic bacteriophage, SA11, infecting Staphylococcus aureus was isolated, and the whole genome was sequenced. It belongs to the siphoviridae based on electron microscopic observation. It has a linear double-stranded DNA genome of 136,326 bp. Genomic analysis showed that it is distantly related to Staphylococcus phages A5W, K, ISP, Sb-1, and G1.     

Complete Genome Sequence of Wide-Host-Range Staphylococcus aureus Phage JD007

Methicillin-resistant Staphylococcus aureus-related infections have become a serious problem worldwide. Bacteriophage therapy is an alternative approach against this threat. S. aureus phage JD007, which belongs to the Myoviridae family according to transmission electron microscopic imaging, could lyse nearly 30% of the S. aureus strains from Ruijin Hospital, Shanghai, China, and was isolated from chicken feces in Shanghai, China. The complete genome showed that JD007 is a linear, double-stranded DNA phage 141,836 bp in length with a GC content of 30.4% encoding 217 open reading frames. A BLAST search of the JD007 genome revealed that it was very similar to that of phage GH15.     

Novel Rearrangements in the Staphylococcal Cassette Chromosome Mec Type V Elements of Indian ST772 and ST672 Methicillin Resistant Staphylococcus aureus Strains

Staphylococcus aureus is a commensal gram positive bacteria which causes severe and non severe infections in humans and livestock. In India, ST772 is a dominant and ST672 is an emerging clone of Staphylococcus aureus. Both cause serious human diseases, and carry type V SCCmec elements. The objective of this study was to characterize SCCmec type V elements of ST772 and ST672 because the usual PCR methods did not amplify all primers specific to the type. Whole genome sequencing analysis of seven ST772 and one ST672 S. aureus isolates revealed that the SCCmec elements of six of the ST772 isolates were the smallest of the extant type V elements and in addition have several other novel features. Only one ST772 isolate and the ST672 isolate carried bigger SCCmec cassettes which were composites carrying multiple ccrC genes. These cassettes had some similarities to type V SCCmec element from M013 isolate (ST59) from Taiwan in certain aspects. SCCmec elements of all Indian isolates had an inversion of the mec complex, similar to the bovine SCCmec type X. This study reveals that six out of seven ST772 S. aureus isolates have a novel type V (5C2) SCCmec element while one each of ST772 and ST672 isolates have a composite SCCmec type V element (5C2&5) formed by the integration of type V SCCmec into a MSSA carrying a SCC element, in addition to the mec gene complex inversions and extensive recombinations.     

Single-molecule sequencing reveals the molecular basis of multidrug-resistance in ST772 methicillin-resistant Staphylococcus aureus

Background

Methicillin-resistant Staphylococcus aureus (MRSA) is a major cause of hospital-associated infection, but there is growing awareness of the emergence of multidrug-resistant lineages in community settings around the world. One such lineage is ST772-MRSA-V, which has disseminated globally and is increasingly prevalent in India. Here, we present the complete genome sequence of DAR4145, a strain of the ST772-MRSA-V lineage from India, and investigate its genomic characteristics in regards to antibiotic resistance and virulence factors.

Results

Sequencing using single-molecule real-time technology resulted in the assembly of a single continuous chromosomal sequence, which was error-corrected, annotated and compared to nine draft genome assemblies of ST772-MRSA-V from Australia, Malaysia and India. We discovered numerous and redundant resistance genes associated with mobile genetic elements (MGEs) and known core genome mutations that explain the highly antibiotic resistant phenotype of DAR4145. Staphylococcal toxins and superantigens, including the leukotoxin Panton-Valentinin Leukocidin, were predominantly associated with genomic islands and the phage φ-IND772PVL. Some of these mobile resistance and virulence factors were variably present in other strains of the ST772-MRSA-V lineage.

Conclusions

The genomic characteristics presented here emphasize the contribution of MGEs to the emergence of multidrug-resistant and highly virulent strains of community-associated MRSA. Antibiotic resistance was further augmented by chromosomal mutations and redundancy of resistance genes. The complete genome of DAR4145 provides a valuable resource for future investigations into the global dissemination and phylogeography of ST772-MRSA-V.

Electronic supplementary material

The online version of this article (doi:10.1186/s12864-015-1599-9) contains supplementary material, which is available to authorized users.     

The Genome Sequence of a Type ST239 Methicillin-Resistant Staphylococcus aureus Isolate from a Malaysian Hospital

We report the genome sequence of a healthcare-associated MRSA type ST239 clone isolated from a patient with septicemia in Malaysia. This clone typifies the characteristics of ST239 lineage, including resistance to multiple antibiotics and antiseptics.     

Identification of the third type of PVL phage in ST59 methicillin-resistant Staphylococcus aureus (MRSA) strains

The genes lukS-PV and lukF-PV for Panton-Valentine leukocidin (PVL) that confers high virulence to Staphylococcus aureus are located on the prophages (PVL phages) which have been classified into group 1 and 2 sfi21-like Siphoviridae. We report novel PVL phages lysogenized in ST59 methicillin-resistant Staphylococcus aureus (MRSA) strains isolated in Japan (JCSC7247) and Taiwan (JCSC5967). The genomes of φ7247PVL and φ5967PVL showed more than 99% identity, and the regions containing the five genes located at both ends of the prophages, int (integrase), hol (holin), ami (amidase), lukS-PV, and lukF-PV, are highly homologous to extant PVL phages. The genes for the structural module are less homologous to these phages, but are highly homologous to non-PVL phages belonging to group 3 Sfi21-like Siphoviridae, for example φN315. Subsequent PCR identification and nucleotide sequencing of an additional 11 Taiwanese ST59 MRSA isolates suggested they all carry the same phage as φ5967PVL, which differed from φ7247PVL by a single base. This study adds evidence to the notion that novel PVL phages would be generated through illegitimate recombination events by acquiring the region at which hol, ami, luk, and int genes would line up upon lytic growth, and suggests that the PVL-positive MRSA clones that have emerged worldwide may carry distinct phages.     

Phage release from biofilm and planktonic Staphylococcus aureus cells

The ability of pathogenic staphylococci to form biofilms facilitates colonization and the development of chronic infections. Therapy is hampered by the high tolerance of biofilms towards antibiotic treatment and the immune system. We found evidence that lysogenic Staphylococcus aureus cells in a biofilm and in planktonic cultures spontaneously release phages into their surroundings. Phages were detected over a much longer period in biofilm cultures than in planktonic supernatants because the latter were degraded by secreted proteases. Phage release in planktonic and biofilm cultures was artificially increased by adding mitomycin C. Two morphologically distinct phages in the S. aureus strain used in this work were observed by electron microscopy. We postulate that phage-release is a frequent event in biofilms. The resulting lysis of cells in a biofilm might promote the persistence and survival of the remaining cells, as they gain a nutrient reservoir from their dead and lysed neighboring cells. This might therefore be an early differentiation and apoptotic mechanism.     

Complete Genome Sequence of Staphylococcus aureus Strain JKD6159, a Unique Australian Clone of ST93-IV Community Methicillin-Resistant Staphylococcus aureus

Community methicillin-resistant Staphylococcus aureus (cMRSA) is an emerging issue that has resulted in multiple worldwide epidemics. We report the first complete genome sequence of an ST93-MRSA-IV clinical isolate that caused severe invasive infection and a familial outbreak of skin infection. This isolate is a representative of the most common Australian clone of cMRSA that is more distantly related to the previously sequenced genomes of S. aureus.Staphylococcus aureus is a major cause of both hospital- and community-acquired infections, with rapid emergence of antibiotic resistance, in particular methicillin resistance, adding complexity to the treatment of this organism (3). While previously a hospital problem, methicillin-resistant S. aureus (MRSA) is now being increasingly documented in healthy patients in the community, and these isolates are termed “community MRSA” (cMRSA). A number of cMRSA genomes have been sequenced; however, these are phylogenetically closely related to each other. In contrast, ST93-MRSA-IV, a unique Australian clone, is a singleton by multilocus sequence typing (MLST) eBURST analysis (4). It is now the dominant cMRSA clone in Australia and is associated with both skin infection and severe invasive infection, including necrotizing pneumonia, deep-seated abscesses, and septicemia (5, 10). JKD6159 is a representative ST93-MRSA-IV clinical isolate which caused septicemia and multifocal pulmonary and musculoskeletal abscesses in a previously well intravenous drug user and also resulted in a familial outbreak of skin infection.The genome sequence of S. aureus strain JKD6159 was determined by high-throughput whole-genome shotgun sequencing, using both Illumina GAII (Illumina, CA) and Roche GS FLX Titanium (Roche Diagnostics, Basel, Switzerland) sequencing technologies, producing approximately 164× and 32× coverage of the genome, respectively. The GS FLX Titanium reads were assembled using Newbler 2.0.01.12, resulting in 56 contigs totaling 2.8 Mbp (9). The paired GAII reads were aligned to the contigs using SHRiMP 1.3.2 to identify and correct 74 homopolymeric sequencing errors (11). Optical mapping was used to produce a high-resolution XbaI chromosome restriction map, and the contigs were ordered and oriented against this map using MapSolver 2.1.1 (Opgen). Gap closures were performed by PCR followed by Sanger sequencing of amplification products (3730S genetic analyzer sequencer; Applied Biosystems, CA). The finished sequence was validated by reference to the XbaI optical map, Roche GS FLX Titanium mate pair analysis, and Illumina paired-end-read analysis.Protein coding regions were predicted using GeneMarkS 4.6b, tRNA genes using tRNAscan-SE 1.23, and rRNA genes using RNAmmer 1.2 (2, 7, 8). Gene products were assigned using HMMER 3.0 against the Pfam database (release 23) and BLAST 2.2.23 against RefSeq Proteins (April 2010) and the Conserved Domain Database (v2.22) (1, 6). These automated analyses were followed by manual curation, including comparison with other completed S. aureus genomes.The genome of S. aureus strain JKD6159 consists of a circular 2,811,435-bp chromosome with 33% G+C content—similar to those of other staphylococci—and one circular plasmid of 20,730 bp. A total of 2,605 coding regions, 57 tRNA genes, and 5 rRNA loci were detected. Over 67% of genes were assigned to specific Clusters of Orthologous Groups (COG) Database functional groups, and 40% were assigned an enzyme classification number (12).Initial analysis of the whole-genome sequence of JKD6159 confirms that ST93-MRSA-IV is distantly related to other previously sequenced S. aureus genomes. ST93-MRSA-IV has a distinct accessory genome. There were a number of regions of difference in JKD6159 that contain coding sequences (CDS) not present in any other published S. aureus genomes. Additionally, the ssl gene cluster in JKD6159 appears distinct from other sequenced S. aureus isolates. Comparison with other S. aureus genomes also shows that although JKD6159 carries lukSF-PV (the genes encoding Panton-Valentine leukocidin), there is a relative paucity of virulence factors such as tst-1, genes encoding staphylococcal enterotoxins A to U, and the ACME locus. Further analysis of the genome is now under way to identify factors that might explain the emergence of this MRSA strain in the community.     

Role of the ø11 Phage Genome in Competence of Staphylococcus aureus

Both phage ?11 and 83A, when present as prophage or when used as helper phage, induce competence for transfection and transformation to the same level in Staphylococcus aureus, strain 8325-4. Cells lysogenized with certain temperature-sensitive (ts) mutants of phage ?11 show competence at the nonpermissive temperature (41 C) without production of infectious phages. Phage ?11ts allele 31 can neither as a prophage nor as a helper phage develop competence under nonpermissive conditions. This mutant appears, therefore, to be mutated in the region of the phage genome controlling competence. The competence level for both transfection and transformation is increased by superinfecting strain 8325-4 (?11) or 8325-4 (83A) at high multiplicities with phage ?11 with some of its mutants or with phage 83A. This superinfection enhancement appears to require protein synthesis but not deoxyribonucleic acid synthesis as judged from studies with inhibitors of macromolecular synthesis. Besides the phage particle, no extracellular or cell-bound factors so far detected can induce competence. The phage-induced product conferring competence is rapidly synthesized by strain 8325-4 (ts?11(31)) after shift to permissive conditions, but requires deoxyribonucleic acid and protein synthesis to be expressed. Recombination between the sus mutants of phage ?11 of Kretschmer and Egan and ts?11(31) indicate that competence is controlled by an early gene in the lytic cycle which may be expressed also in lysogenic cells. The phage product inducing competence appears to have a half-life of 10 to 15 min in the conditional lethal mutant at shift to nonpermissive temperature. Ultraviolet inactivation of phage ?11 infectivity occurs more rapidly than inactivation of competence induction. In fact, the number of transformants is increased at low doses of irradiation. Competence induction is, however, decreased at high does of ultraviolet irradiation.     

Complete Genome Sequence of Staphylococcus aureus Strain JKD6008, an ST239 Clone of Methicillin-Resistant Staphylococcus aureus with Intermediate-Level Vancomycin Resistance

We report here the complete 2.92-Mb genome sequence of a clinical isolate of methicillin-resistant Staphylococcus aureus subsp. aureus that demonstrates intermediate-level vancomycin resistance. The strain, named JKD6008, belongs to multilocus sequence type 239 and was isolated from the bloodstream of a patient in New Zealand in 2003.We have previously described the in vivo evolution of low-level vancomycin resistance in Staphylococcus aureus through comparative and functional genomic assessment of a pair of isogenic methicillin-resistant Staphylococcus aureus (MRSA) strains. The vancomycin-susceptible S. aureus (VSSA) strain JKD6009 was a patient wound isolate, whereas vancomycin-intermediate S. aureus (VISA) strain JKD6008 was recovered from the bloodstream of the same patient after 42 days of vancomycin treatment (5). Comparison of the partially assembled genomes of the two isolates revealed a single-point mutation in the sensor region of the two-component regulatory gene graS, which caused a significant reduction in the vancomycin susceptibility of JKD6008 (6). Here we report the fully assembled and annotated genome of S. aureus JKD6008.The genome sequence of S. aureus strain JKD6008 was determined by whole-genome shotgun sequencing using single-read 454 GS20 (Roche Diagnostics, Basel, Switzerland), Sanger (Applied Biosystems), and SOLiD (Applied Biosystems) sequencing technologies, producing approximately 20 times, 4 times, and 225 times coverage of the genome, respectively. GS20 reads were assembled using gsAssembler v2.0 software, resulting in 131 contigs (≥500 bp) totaling 2.83 Mbp (6, 10). Sanger paired-end reads (clone insert size, 3 to 5 kb) were combined with the GS20 contigs using Gap4 v4.11 software (3). Mate-pair SOLiD reads (3 to 5 kb) were aligned to the contigs using SHRiMP 1.3.2 software to identify and correct sequencing errors (11). Optical mapping produced a high-resolution XbaI chromosome restriction map, to which the contigs were aligned using MapSolver 2.1.1 (Opgen) to determine misassemblies. Gap closures were performed by PCR, followed by Sanger sequencing and primer walking of amplification products (3730S DNA Analyzer sequencer; Applied Biosystems). The assembly of the completed genome was confirmed to be correct by reference to the XbaI optical map.Protein-coding regions were predicted using GeneMarkS 4.6b software, tRNA genes using tRNAscan-SE 1.23, and rRNA genes using RNAmmer 1.2 (2, 8, 9). Gene products were assigned using HMMER 3.0 against the Pfam database (release 23) and BLAST 2.2.23 against RefSeq proteins (April 2010) and the Conserved Domain Database (v2.22) (1, 4). These automated analyses were followed by manual curation and comparisons with other completed S. aureus genomes.The genome of S. aureus strain JKD6008 consists of a circular 2,924,344-bp chromosome with a 34% G+C content and no extrachromosomal elements. A total of 2,766 coding DNA sequences, 82 tRNA genes, and 5 rRNA loci were detected. Over 70% of genes were assigned to specific Clusters of Orthologous Groups (COG) functional groups, and 42% were assigned an enzyme classification number (12).Initial analysis of the whole-genome sequence of JKD6008 confirmed it as a member of the ST239 complex, sharing 2,504 orthologous coding sequences (CDSs) with the recently described ST239 member TW20 (EMBL accession no. {"type":"entrez-nucleotide","attrs":{"text":"FN433596.1","term_id":"269939526","term_text":"FN433596.1"}}FN433596.1). There are 17 copies of IS256 and a type III staphylococcal cassette chromosome mec element (SCCmec). Comparisons with 19 published S. aureus genomes revealed 20 CDS not present in any other S. aureus genome, although some of these 20 CDS have orthologs in other Staphylococcus species. JKD6008 also harbors a 28-kb integrated pSK1-like plasmid that is predicted to confer resistance to aminoglycosides and trimethoprim, as well as efflux-mediated antiseptic and disinfectant resistance (7).Nucleotide sequence accession number. The complete genome sequence has been deposited in NCBI GenBank under accession number {"type":"entrez-nucleotide","attrs":{"text":"CP002120","term_id":"302749911","term_text":"CP002120"}}CP002120.     

Characterization of community acquired Staphylococcus aureus associated with skin and soft tissue infection in Beijing: high prevalence of PVL+ ST398

Adult community-associated methicillin-resistant Staphylococcus aureus (CA-MRSA) and methicillin-susceptible S. aureus (CA-MSSA) skin and soft tissue infection (SSTI) in China is not well described. A prospective cohort of adults with SSTI was established between January 2009 and August 2010 at 4 hospitals in Beijing. Susceptibility testing and molecular typing, including multilocus sequence typing, spa, agr typing, and toxin detection were assessed for all S. aureus isolates. Overall, 501 SSTI patients were enrolled. Cutaneous abscess (40.7%) was the most common infection, followed by impetigo (6.8%) and cellulitis (4.8%). S. aureus accounted for 32.7% (164/501) of SSTIs. Five isolates (5/164, 3.0%) were CA-MRSA. The most dominant ST in CA-MSSA was ST398 (17.6%). The prevalence of Panton-Valentine Leukocidin (pvl) gene was 41.5% (66/159) in MSSA. Female, younger patients and infections requiring incision or drainage were more commonly associated with pvl-positive S. aureus (P<0.03); sec gene was more often identified in CC5 (P<0.03); seh gene was more prevalent in CC1 (P?=?0.001). Importantly, ST59 isolates showed more resistance to erythromycin, clindamycin and tetracycline, and needed more surgical intervention. In conclusion, CA-MRSA infections were rare among adult SSTI patients in Beijing. Six major MSSA clones were identified and associated with unique antimicrobial susceptibility, toxin profiles, and agr types. A high prevalence of livestock ST398 clone (17.1% of all S. aureus infections) was found with no apparent association to animal contact.     

Methicillin-resistant Staphylococcus aureus ST9 in pigs in Thailand

Background

Methicillin-resistant Staphylococcus aureus (MRSA) is an important nosocomial and community-associated pathogen. Recently, livestock-associated MRSA (LA-MRSA) has emerged and disseminated in Europe and North America and now constitutes a considerable zoonotic burden in humans with risk factors of pig exposure, whereas the extent of the livestock reservoir is relatively unknown on other continents.

Methodology/Principal Findings

From March through April 2011, MRSA was identified in pigs from 3 out of 30 production holdings in Chang Mai Province, Thailand. Representative isolates were subjected to molecular characterization and antimicrobial susceptibility testing; all isolates had genotypic and phenotypic characteristics of LA-MRSA previously characterized in the region: they belonged to ST9, lacked the lukF-lukS genes encoding Panton-Valentine leukocidin, and were resistant to multiple non-β-lactam antimicrobials. However, unlike other Asian LA-MRSA-ST9 variants, they were spa type t337 and harbored a different staphylococcal cassette chromosome mec IX.

Conclusions/Significance

A novel MRSA-ST9 lineage has been established in the pig population of Thailand, which differs substantially from LA-MRSA lineages found in other areas of the continent. The emergence of novel LA-MRSA lineages in the animal agriculture setting is worrisome and poses a serious threat to global public health.     

Phage conversion of exfoliative toxin A production in Staphylococcus aureus

The staphylococcal exfoliative toxins (ETs) are extracellular proteins that cause splitting of human skin at the epidermal layer during infection in infants. Two antigenically distinct toxins possessing identical activity have been isolated from Staphylococcus aureus, ETA and ETB. The gene for ETA (eta) is located on the chromosome, whereas that for ETB is located on a large plasmid. The observation that relatively few clinical isolates produce ETA suggests that the eta gene is acquired by horizontal gene transfer. In this study, we isolated a temperate phage (phiETA) that encodes ETA and determined the complete nucleotide sequence of the phiETA genome. phiETA has a head with a hexagonal outline and a non-contractile and flexible tail. The genome of phiETA is a circularly permuted linear double-stranded DNA, and the genome size is 43 081 bp. Sixty-six open reading frames (ORFs) were identified on the phiETA genome, including eta, which was found to be located very close to a putative attachment site (attP). phiETA converted ETA non-producing strains into ETA producers. Southern blot analysis of chromosomal DNA from clinical isolates suggested that phiETA or related phages are responsible for the acquisition of eta genes in S. aureus.     

Genome sequence of Staphylococcus aureus strain 11819-97, an ST80-IV European community-acquired methicillin-resistant isolate

The European methicillin-resistant Staphylococcus aureus (MRSA) clone ST80-IV has historically dominated community-associated infections in major parts of Europe and is a lineage strongly linked to skin and soft tissue infections. Here, we report the genome sequence of an ST80-IV representative, 11819-97, isolated from a skin infection in Denmark in 1997.