Nm) contractile tails (Figure 2D ). The third group of viruses, which

Nm) contractile tails (Figure 2D ). The third group of viruses, which

Nm) contractile tails (Figure 2D ). The third group of viruses, which comprised 19 of the population, had podovirus morphology with capsid diameters between 44 and 50 nm, and short (15?7 nm) tails or no visibleAssembly of a Viral Metagenome after FractionationFigure 2. Transmission electron micrographs of viruses in the fraction selected for sequencing. Representative viruses from the four morphological groups in the fraction are shown in A , D , G , and J . These groups comprised 44, 30, 19, and 7 of the population, respectively. doi:10.1371/journal.pone.0060604.gtail (Figure 2G ). The fourth group of viruses, which comprised 7 of the population, had siphovirus morphology with capsiddiameters between 52 and 60 nm, and long (100?02 nm) noncontractile tails (Figure 2J ).Assembly of a Viral Metagenome after FractionationSequence CompositionAfter trimming, the average read length in the library was 609 (6130) bases and the average G+C content was 36 (65) . A search in the GenBank database using BLASTx revealed that the majority (55 ) of sequences in the library had no significant similarity to other deposited sequences, 28 were similar to sequences from viruses, 13 to sequences from bacteria, and 4 to sequences from eukaryotes and archaea (Figure 3A). Of the virus-like sequences, 51 were similar to sequences derived from PF-299804 myoviruses, 25 to sequences from siphoviruses, and 13 to sequences from podoviruses (Figure 3B). The viruses from which nearly all of these most similar sequences derived were bacteriophages including three Synechococcus phages, three Pseudomonas phages, and two Prochlorococcus phages (Table 1). Matches to virusderived genes included oxygenases, helicases, structural proteins, and DNA polymerases, but nearly half (47 ) were to genes with unknown function 11967625 (Table 2).Table 1. Viruses in the GenBank database with the highest number of significant similarities from the sequence library.Virus Synechococcus phage S-SM1 (myovirus) Pseudomonas phage YuA (siphovirus) Bacteriophage phiJL001 (siphovirus) Pseudomonas phage LUZ24 (podovirus) Synechococcus phage S-PM2 (myovirus) Synechococcus phage syn9 (myovirus) Pseudomonas phage M6 (siphovirus) Prochlorococcus phage P-SSM2 (myovirus) Prochlorococcus phage P-RSM4 (myovirus) Vibrio phage VP2 (podovirus) doi:10.1371/journal.pone.0060604.tPercent of total virus hits 14.8 7.7 6.7 6.0 4.8 4.2 3.8 3.1 2.9 2.7Phylogenetic AnalysisFifty sequences in the library had significant similarity to 15755315 viral DNA polymerases, with 34 of the sequences having the greatest similarity to the DNA polymerase of bacteriophage phi-JL001 [33]. An alignment of 9 of these sequences across 96 amino acid residues of the conserved DnaQ-like region of the polymerase, as determined using the Conserved Domain Database [34], was used to construct a phylogenetic tree (Figure 4). Although there was deep-branching support for clustering of the library sequences with the siphoviruses phi-JL001, YuA, and M6 (bootstrap value 100), ?the sequences from our Kane`ohe Bay library formed their own well-supported clade (bootstrap value 100) with five groups.they were Dacomitinib primarily composed of viral sequences including repeated, highly significant hits (E-value ,10219) to ferrochelatase and 2OG-Fe(II) oxygenase genes from the Synechococcus phage SSM1 [35].DiscussionPFGE and morphological analyses supported the hypothesis ?that physical fractionation of a viral assemblage from Kane`ohe Bay could be used to enrich a limited n.Nm) contractile tails (Figure 2D ). The third group of viruses, which comprised 19 of the population, had podovirus morphology with capsid diameters between 44 and 50 nm, and short (15?7 nm) tails or no visibleAssembly of a Viral Metagenome after FractionationFigure 2. Transmission electron micrographs of viruses in the fraction selected for sequencing. Representative viruses from the four morphological groups in the fraction are shown in A , D , G , and J . These groups comprised 44, 30, 19, and 7 of the population, respectively. doi:10.1371/journal.pone.0060604.gtail (Figure 2G ). The fourth group of viruses, which comprised 7 of the population, had siphovirus morphology with capsiddiameters between 52 and 60 nm, and long (100?02 nm) noncontractile tails (Figure 2J ).Assembly of a Viral Metagenome after FractionationSequence CompositionAfter trimming, the average read length in the library was 609 (6130) bases and the average G+C content was 36 (65) . A search in the GenBank database using BLASTx revealed that the majority (55 ) of sequences in the library had no significant similarity to other deposited sequences, 28 were similar to sequences from viruses, 13 to sequences from bacteria, and 4 to sequences from eukaryotes and archaea (Figure 3A). Of the virus-like sequences, 51 were similar to sequences derived from myoviruses, 25 to sequences from siphoviruses, and 13 to sequences from podoviruses (Figure 3B). The viruses from which nearly all of these most similar sequences derived were bacteriophages including three Synechococcus phages, three Pseudomonas phages, and two Prochlorococcus phages (Table 1). Matches to virusderived genes included oxygenases, helicases, structural proteins, and DNA polymerases, but nearly half (47 ) were to genes with unknown function 11967625 (Table 2).Table 1. Viruses in the GenBank database with the highest number of significant similarities from the sequence library.Virus Synechococcus phage S-SM1 (myovirus) Pseudomonas phage YuA (siphovirus) Bacteriophage phiJL001 (siphovirus) Pseudomonas phage LUZ24 (podovirus) Synechococcus phage S-PM2 (myovirus) Synechococcus phage syn9 (myovirus) Pseudomonas phage M6 (siphovirus) Prochlorococcus phage P-SSM2 (myovirus) Prochlorococcus phage P-RSM4 (myovirus) Vibrio phage VP2 (podovirus) doi:10.1371/journal.pone.0060604.tPercent of total virus hits 14.8 7.7 6.7 6.0 4.8 4.2 3.8 3.1 2.9 2.7Phylogenetic AnalysisFifty sequences in the library had significant similarity to 15755315 viral DNA polymerases, with 34 of the sequences having the greatest similarity to the DNA polymerase of bacteriophage phi-JL001 [33]. An alignment of 9 of these sequences across 96 amino acid residues of the conserved DnaQ-like region of the polymerase, as determined using the Conserved Domain Database [34], was used to construct a phylogenetic tree (Figure 4). Although there was deep-branching support for clustering of the library sequences with the siphoviruses phi-JL001, YuA, and M6 (bootstrap value 100), ?the sequences from our Kane`ohe Bay library formed their own well-supported clade (bootstrap value 100) with five groups.they were primarily composed of viral sequences including repeated, highly significant hits (E-value ,10219) to ferrochelatase and 2OG-Fe(II) oxygenase genes from the Synechococcus phage SSM1 [35].DiscussionPFGE and morphological analyses supported the hypothesis ?that physical fractionation of a viral assemblage from Kane`ohe Bay could be used to enrich a limited n.

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