Complete Genome Sequence of Bacteriophage BC-611 Specifically Infecting Enterococcus faecalis Strain NP-10011

Enterococcus faecalis is an opportunistic pathogen that causes serious infections in humans and animals and is also an important bacterium for dairy and probiotic supplement production. Therefore, bacteriophages infecting E. faecalis may be useful for phage therapy against multidrug-resistant strains or may threaten industrial fermentation. We isolated a virulent Siphoviridae bacteriophage, BC-611, specifically infecting E. faecalis strain NP-10011 but not infecting other E. faecalis strains or other enterococci. Although the genome sequence of BC-611 resembled that of enterococcal bacteriophage SAP6, BC-611 was marked by its narrow host specificity.     

Complete Genome Sequence of the Diesel-Degrading Acinetobacter sp. Strain DR1

The genus Acinetobacter is ubiquitous in soil, aquatic, and sediment environments and includes pathogenic strains, such as A. baumannii. Many Acinetobacter species isolated from various environments have biotechnological potential since they are capable of degrading a variety of pollutants. Acinetobacter sp. strain DR1 has been identified as a diesel degrader. Here we report the complete genome sequence of Acinetobacter sp. DR1 isolated from the soil of a rice paddy.The genus Acinetobacter appears to be metabolically versatile and has the ability to degrade aliphatic hydrocarbon, thus making it an organism of interest for its possible bioremediational potential (9). Despite its biotechnological potential, the majority of genome projects conducted with Acinetobacter species have focused on pathogenic strains of A. baumannii. Currently, the only available whole-genome sequence of environmental isolates is that of A. baylyi ADP1 (2). Acinetobacter sp. strain DR1 was isolated from the soil of rice paddies, located in Deok-So (Korea University Agricultural Station), in the Kyonggi province of South Korea. Strain DR1 is capable of utilizing aliphatic hydrocarbons and diesel oil (5). Similarly to A. baylyi ADP1, this strain is also competent for natural transformation. We demonstrated previously that sodium chloride added to the medium induces the overproduction of exopolysaccharide (EPS), which evidences protective activity against diesel toxicity (4). Interestingly, DR1 possesses a quorum sensing (QS) system, which has been shown to play a significant role in biofilm formation and hexadecane biodegradation. The results of proteomic studies have demonstrated that the QS system regulates a broad variety of proteins (6). Collectively, our findings demonstrate that DR1 has profound potential for environmental applications and is an environmental isolate distinct from pathogenic strains, thus indicating that the whole-genome sequencing of DR1 is a worthwhile pursuit.Initial pyrosequencing using a GS-FLX system (454 Life Science Corporation) generated 652,162 reads (264,482,836 nucleotides; 64.3-fold coverage), which were assembled into 56 contigs. To determine the order of the contigs, 1,248 fosmid clones were constructed with an average insert size of 35 kb (10.5-fold coverage). The fosmid-end sequencing of 936 clones generated 1,372,452 bp. These high-quality Sanger reads allowed the assembly of 41 large contigs into 2 scaffolds containing 38 gaps. The gaps were filled via primer walking. All procedures for genome sequencing and gap filling were conducted by Macrogen (Seoul, South Korea). Protein coding regions were predicted with the GLIMMER3 software program (3), and automatic genome annotation was conducted on a RAST server (1) and the NCBI Prokaryotic Genomes Automatic Annotation Pipeline (PGAAP). The tRNA and rRNA genes were annotated using the tRNAScan-SE (8) and RNAmmer software programs (7), respectively. The genome of Acinetobacter sp. DR1 consists of a circular 4,152,543-bp chromosome with a G+C content of 38%, 3,874 predicted coding sequences, and 71 tRNAs. There are 6 rRNA operons with a 16S, tRNA-Ile, tRNA-Ala, 23S, 5S organization. The genes studied previously were clearly identified via genome sequencing (4, 5, 6). The availability of the complete genome sequence of Acinetobacter sp. strain DR1 will contribute to an in-depth understanding of the genetic potentials of Acinetobacter species.     

Draft Genome Sequence of a Multidrug-Resistant bla NDM-1-Producing Acinetobacter soli Isolate in China

Acinetobacter spp. are one of the most prevalent opportunistic pathogens causing nosocomial infections and have become a major clinical and public health threat. In this study, we presented the first draft genome sequence of A. soli TCM341, a multidrug resistant isolate that carried the bla _NDM-1 gene in China. Genome sequencing of A. soli TCM341 was carried out in Illumina Hiseq 2000 next-generation sequencer. The data obtained revealed 74 contigs with genome size of 3.49 Mb and G+C content of 41.37 %.     

Complete Genome Sequence of Vibrio parahaemolyticus Bacteriophage vB_VpaM_MAR

Vibrio parahaemolyticus is a major pathogen that is mainly associated with seafood and is a global food safety issue. Our objective was to isolate and completely sequence a specific phage against this bacterium. Phage vB_VpaM_MAR is able to lyse 76% of the V. parahaemolyticus strains tested. MAR belongs to the Myoviridae family and has a genome comprised of double-stranded DNA with a size of 41,351 bp, a G+C content of 51.3%, and 62 open reading frames (ORFs). Bioinformatic analysis showed that phage MAR is closely related to Vibrio phages VHML, VP58.5, and VP882 and Halomonas aquamarina phage ΦHAP-1.     

Complete Genome Sequence of Mycoplasma hyorhinis Strain HUB-1

Mycoplasma hyorhinis is generally considered a swine pathogen yet is most commonly found infecting laboratory cell lines. An increasing body of evidence suggests that chronic infections with M. hyorhinis may cause oncogenic transformation. Here, we announce the complete genome sequence of M. hyorhinis strain HUB-1.Mycoplasma hyorhinis is generally considered to be a swine pathogen causing lung lesions, inflammation in the chest and abdominal lining, and arthritis (8). This agent also frequently contaminates laboratory cell cultures, impinging on many aspects of biological research (3). Recent studies have demonstrated that M. hyorhinis infections induce a malignant phenotype in human prostate (7) and gastric (4) cells, suggesting that M. hyorhinis infections are associated with oncogenic transformation. These properties of M. hyorhinis have increased its profile to researchers. The complete genome sequence of this microbe has yet to be determined.We sequenced the genome of M. hyorhinis strain HUB-1, a pathogenic strain isolated from the respiratory tract of swine. Whole-genome sequencing was performed by combining GS FLX (6) and Solexa paired-end sequencing technologies (1). Genomic libraries containing 3-kb inserts were constructed, and 308,604 reads (79.7% paired end) were produced using the GS FLX system, giving 65.9-fold coverage of the genome. About 93.4% of reads were assembled into one large scaffold using Newbler software (454 Life Sciences, Branford, CT). A total of 822,579 reads were generated using an Illumina Solexa Genome Analyzer IIx and were mapped to the scaffold using the Burrows-Wheeler alignment (BWA) tool (5). Gaps were filled by local assembly of the Solexa/Roche 454 reads or by sequencing PCR products by using an ABI 3730 capillary sequencer. Open reading frames containing more than 30 amino acid residues were predicted using Glimmer 3.0 (2) and verified by comparison with six other closely related genome sequences.The complete genome of M. hyorhinis HUB-1 consists of an 839,615-bp single circular chromosome with an average G+C content of 25.88%. A total of 654 protein-encoding genes are predicted. The average protein size is 364 amino acids, and the mean coding percentage is 85.2%. The genome includes 30 tRNA genes, and only a single copy of the 16S-23S rRNA operon can be found. The 5S rRNA operon is separate from the 16S-23S rRNA operon. Protein secretion occurs through a truncated membrane protein secretion system, consisting of SecA, SecD, SecY, PrsA, DnaK, Tig, and LepA. Additionally, 20 pseudogenes, which become truncated or inactivated, are identified in the genome.M. hyorhinis contains a special variable lipoprotein (Vlp) system that constitutes its major coat protein (9) and provides a mutational strategy for evasion of the host immune system. Different M. hyorhinis strains carry a variable number of vlp genes (9). M. hyorhinis HUB-1 is characterized to contain seven vlp genes displayed in the order 5′-vlpD-vlpE-vlpF-insertion sequence (IS)-vlpG-vlpA-IS-vlpB-vlpC-3′.This is the first complete genome sequence of M. hyorhinis, and its availability will provide a better-defined genetic background for future studies of gene expression and regulation.     

Complete Genome Sequence of Pectobacterium carotovorum subsp. carotovorum Bacteriophage My1

Pectobacterium carotovorum subsp. carotovorum, a member of the Enterobacteriaceae family, is an important plant-pathogenic bacterium causing significant economic losses worldwide. P. carotovorum subsp. carotovorum bacteriophage My1 was isolated from a soil sample. Its genome was completely sequenced and analyzed for the development of an effective biological control agent. Sequence and morphological analyses revealed that phage My1 is a T5-like bacteriophage and belongs to the family Siphoviridae. To date, there is no report of a Pectobacterium-targeting siphovirus genome sequence. Here, we announce the complete genome sequence of phage My1 and report the results of our analysis.     

Complete Genome Sequence of Salmonella Bacteriophage SS3e

A Salmonella lytic bacteriophage, SS3e, was isolated, and its genome was sequenced completely. This phage is able to lyse not only various Salmonella serovars but also Escherichia coli, Shigella sonnei, Enterobacter cloacae, and Serratia marcescens, indicating a broad host specificity. Genomic sequence analysis of SS3e revealed a linear double-stranded DNA sequence of 40,793 bp harboring 58 open reading frames, which is highly similar to Salmonella phages SETP13 and MB78.     

Complete Genome Sequence of Staphylococcus aureus Bacteriophage GH15

GH15 is a polyvalent phage that shows activity against a wide range of Staphylococcus aureus strains. In this work, the complete genome sequence of GH15 was determined. With a genome size of 139,806 bp (double-stranded DNA), GH15 is the largest staphylococcal phage sequenced to date. The complete genome encodes 214 open reading frames (ORFs) and 4 tRNAs. The closest relatives are the class III staphylococcal myobacteriophages, including K, A5W, ISP, Sb-1, and G1. Interestingly, although corresponding gene sequences demonstrate very high similarity, all the introns and inteins present in the phages listed above are absent in GH15. As such, GH15 can be considered phylogenetically unique among the staphylococcal myobacteriophages, indicating the diversity of this family.     

Complete Genome Sequence of Croceibacter Bacteriophage P2559S

Croceibacter atlanticus HTCC2559(T), a marine bacterium isolated from the Sargasso Sea, is a phylogenetically unique member of the family Flavobacteriaceae. Strain HTCC2559(T) possesses genes related to interaction with primary producers, which makes studies on bacteriophages infecting the strain interesting. Here we report the genome sequence of bacteriophage P2559S, which was isolated off the coast of the Republic of Korea and lytically infects HTCC2559(T). Many genes predicted in the P2559S genome had their homologs in Bacteroides phages.     

Complete Genome Sequence of Cronobacter sakazakii Bacteriophage vB_CsaM_GAP161

Cronobacter sakazakii is an opportunistic pathogen that causes infant meningitis and is often associated with milk-based infant formula. We have fully sequenced the genome of a newly isolated lytic C. sakazakii myovirus, vB_CsaM_GAP161, briefly named GAP161. It consists of 178,193 bp and has a G+C content of 44.5%. A total of 277 genes, including 275 open reading frames and two tRNA-encoding genes, were identified. This phage is closely related to coliphages RB16 and RB43 and Klebsiella pneumoniae phage KP15.     

Complete Genome Sequence of Porcine Circovirus 2b Strain CC1

A porcine circovirus 2 (PCV2) strain, designated CC1, was isolated and purified from tissue samples from pigs with wasting syndromes in China. We report the complete genome sequence of PCV2b strain CC1 with a deletion of C at position 1053 resulting in elongation of open reading frame 2 (ORF2) and formation of ORF5. There were 11 ORFs in the genome.     

Complete Genome Sequence of Phytopathogenic Pectobacterium carotovorum subsp. carotovorum Bacteriophage PP1

Pectobacterium carotovorum subsp. carotovorum is a phytopathogen causing soft rot disease on diverse plant species. To control this plant pathogen, P. carotovorum subsp. carotovorum-targeting bacteriophage PP1 was isolated and its genome was completely sequenced to develop a novel biocontrol agent. Interestingly, the 44,400-bp genome sequence does not encode any gene involved in the formation of lysogen, suggesting that this phage may be very useful as a biocontrol agent because it does not make lysogen after host infection. This is the first report on the complete genome sequence of the P. carotovorum subsp. carotovorum-targeting bacteriophage, and it will enhance our understanding of the interaction between phytopathogens and their targeting bacteriophages.     

Complete Genome Sequence of the Enterobacter cancerogenus Bacteriophage Enc34

Enterobacter cancerogenus is widely distributed in nature and is generally recovered from environmental or vegetal sources. In some cases, it has also been associated with human infections. In this study, the complete genomic sequence of virulent E. cancerogenus bacteriophage Enc34 was determined. The Enc34 genome is 60,364 bp in length and contains 80 open reading frames. To our knowledge, this is the first report of a bacteriophage infecting E. cancerogenus.     

Complete Genome Sequence of Mycoplasma wenyonii Strain Massachusetts

Mycoplasma wenyonii is a hemotrophic mycoplasma that causes acute and chronic infections in cattle. Here, we announce the first complete genome sequence of this organism. The genome is a single circular chromosome with 650,228 bp and G+C% of 33.9. Analyses of M. wenyonii genome will provide insights into its biology.     

Complete Genome Sequence of Caulobacter crescentus Bacteriophage {varphi}CbK

?CbK is a B3 morphotype bacteriophage of the Siphoviridae family that infects Caulobacter crescentus, the preeminent model system for bacterial cell cycle studies. The last 4 decades of research with ?CbK as a genetic and cytological tool to study the biology of the host warrant an investigation of the phage genome composition. Herein, we report the complete genome sequence of ?CbK and highlight unusual features that emerged from its annotation. The complete genome analysis of the ?CbK phage provides new insight into its characteristics and potential interactions with its Caulobacter crescentus host, setting the stage for future functional studies with ?CbK.     

Complete Genome Sequence of Streptococcus thermophilus Strain MN-ZLW-002

Streptococcus thermophilus MN-ZLW-002 was originally isolated from traditionally fermented Chinese dairy products. One of the strain-dependent characteristics of this bacterium is its ability to produce exopolysaccharides (EPSs). This study determined and analyzed the genome sequence of MN-ZLW-002. Its complete genome comprised 2,046 genes and 1,848,520 nucleotides with an average GC content of 39%. The EPS cluster of MN-ZLW-002 includes 25 open reading frames (ORFs), and some results indicate a horizontal gene transfer between MN-ZLW-002 and other lactic acid bacteria (LAB).     

Genome Sequence of Acinetobacter baumannii TYTH-1

Acinetobacter baumannii has emerged recently as a major cause of health care-associated infections due to the extent of its antimicrobial resistance and its propensity to cause large nosocomial outbreaks. Here we report the genome sequence of Acinetobacter baumannii TYTH-1 isolated in Taiwan during 2008.     

Draft Genome Sequence of the Hydrocarbon-Degrading and Emulsan-Producing Strain Acinetobacter venetianus RAG-1T

We report the draft genome sequence of Acinetobacter venetianus strain RAG-1(T), which is able to degrade hydrocarbons and to synthesize a powerful biosurfactant (emulsan) that can be employed for oil removal and as an adjuvant for vaccine delivery. The genome sequence of A. venetianus RAG-1(T) might be useful for bioremediation and/or clinical purposes.     

Complete Genome Sequence of the Pyrene-Degrading Bacterium Cycloclasticus sp. Strain P1

Cycloclasticus sp. strain P1 was isolated from deep-sea sediments of the Pacific Ocean and characterized as a unique bacterium in the degradation of pyrene, a four-ring polycyclic aromatic hydrocarbon (PAH). Here we report the complete genome of P1 and genes associated with PAH degradation.