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1.
Previously Unknown Virus Infects Marine Diatom   总被引:8,自引:0,他引:8  
Diatoms are a major phytoplankton group that play important roles in maintaining oxygen levels in the atmosphere and sustaining the primary nutritional production of the aquatic environment. Among diatoms, the genus Chaetoceros is one of the most abundant and widespread. Temperature, climate, salinity, nutrients, and predators were regarded as important factors controlling the abundance and population dynamics of diatoms. Here we show that a viral infection can occur in the genus Chaetoceros and should therefore be considered as a potential mortality source. Chaetoceros salsugineum nuclear inclusion virus (CsNIV) is a 38-nm icosahedral virus that replicates within the nucleus of C. salsugineum. The latent period was estimated to be between 12 and 24 h, with a burst size of 325 infectious units per host cell. CsNIV has a genome structure unlike that of other viruses that have been described. It consists of a single molecule of covalently closed circular single-stranded DNA (ssDNA; 6,005 nucleotides), as well as a segment of linear ssDNA (997 nucleotides). The linear segment is complementary to a portion of the closed circle creating a partially double-stranded genome. Sequence analysis reveals a low but significant similarity to the replicase of circoviruses that have a covalently closed circular ssDNA genome. This new host-virus system will be useful for investigating the ecological relationships between bloom-forming diatoms and other viruses in the marine system. Our study supports the view that, given the diversity and abundance of plankton, the ocean is a treasury of undiscovered viruses.  相似文献   

2.
Diatoms are one of the most significant primary producers in the ocean, and the importance of viruses as a potential source of mortality for diatoms has recently been recognized. Thus far, eight different diatom viruses infecting the genera Rhizosolenia and Chaetoceros have been isolated and characterized to different extents. We report the isolation of a novel diatom virus (ClorDNAV), which causes the lysis of the bloom-forming species Chaetoceros lorenzianus, and show its physiological, morphological, and genomic characteristics. The free virion was estimated to be ~34 nm in diameter. The arrangement of virus particles appearing in cross-section was basically a random aggregation in the nucleus. Occasionally, distinctive formations such as a ring-like array composed of 9 or 10 spherical virions or a centipede-like array composed of rod-shaped particles were also observed. The latent period and the burst size were estimated to be <48 h and 2.2 × 10(4) infectious units per host cell, respectively. ClorDNAV harbors a covalently closed circular single-stranded DNA (ssDNA) genome (5,813 nucleotides [nt]) that includes a partially double-stranded DNA region (979 nt). At least three major open reading frames were identified; one showed a high similarity to putative replicase-related proteins of the other ssDNA diatom viruses, Chaetoceros salsugineum DNA virus (previously reported as CsNIV) and Chaetoceros tenuissimus DNA virus. ClorDNAV is the third member of the closed circular ssDNA diatom virus group, the genus Bacilladnavirus.  相似文献   

3.
Diatoms are very significant primary producers in the world''s oceans. Various environmental factors affect the depletion of diatom populations. The importance of viruses as a potential mortality source has recently been recognized. We isolated and characterized a new diatom virus (Chaetoceros socialis f. radians RNA virus [CsfrRNAV]) causing the lysis of the bloom-forming species Chaetoceros socialis Lauder f. radians (Schütt) Proschkina-Lavrenko. The virus infectious to C. socialis f. radians was isolated from water samples collected in Hiroshima Bay. Here we show the physiology, morphology, and genome characteristics of the virus clone. Virions were 22 nm in diameter and accumulated in the cytoplasm of the host cells. The latent period and the burst size were estimated to be <48 h and 66 infectious units per host cell, respectively. CsfrRNAV harbors a single-stranded RNA (ssRNA) genome and encodes at least three polypeptides of 32.0, 28.5, and 25.0 kDa. Sequencing analysis shows the length of the genome is 9,467 bases, excluding a poly(A) tail. The monophyly of CsfrRNAV and other diatom-infecting RNA viruses, Rhizosolenia setigera RNA virus and Chaetoceros tenuissimus RNA virus, was strongly supported by phylogenetic analysis based on the amino acid sequence of the RNA-dependent RNA polymerase domains. This suggested a new ssRNA virus family, Bacillariornaviridae. This discovery of CsfrRNAV may aid in further understanding the ecological dynamics of the C. socialis f. radians population in nature and the relationships between ssRNA diatom viruses and their hosts.Diatoms (Bacillariophyceae) account for a large part of the marine primary production, up to 35% in oligotrophic oceans and 75% in nutrient-rich systems (13). They play an important role in various marine systems as a food source for zooplankton and animal larvae. Moreover, diatoms are the primary oxygen producers for the atmosphere (25). Therefore, to understand diatom dynamics in nature is significant for biogeochemical science and fisheries studies. Phytoplankton population dynamics are the result of reproduction and losses. Losses include grazing, sinking, and natural mortality. Since the early 1990s, the importance of viruses infectious to microalgae is recognized as one of the principal causes of phytoplankton mortality. The direct evidence for the existence of diatom viruses was reported recently in 2004 (11). Since the discovery of the first diatom virus, the isolation and characterization of new viruses have been conducted. As a result, several new diatom viruses infecting ecologically important diatom members have been successfully isolated and reported.The first diatom virus, Rhizosolenia setigera RNA virus (RsRNAV), is a small icosahedral virus (32 nm) with a single-stranded RNA (ssRNA) genome at 8,877 nucleotides (nt), excluding a poly(A) tail (11, 15). Thereafter, two Chaetoceros-infecting single-stranded DNA (ssDNA) viruses were isolated and characterized: Chaetoceros salsugineum nuclear inclusion virus (CsNIV), a small (38-nm) virus harboring a covalently closed circular ssDNA (6,000 nt) and a segment of linear ssDNA (997 nt) (12) (H. Mizumoto, unpublished data), and Chaetoceros debilis DNA virus, whose partial genome sequence is highly similar to that of CsNIV (22). The genome analyses of the two ssDNA viruses showed that they are distinctive from previously reported viruses. The isolation of Chaetoceros nuclear inclusion virus (CspNIV) infectious to Chaetoceros cf. gracilis (a Chaetoceros sp. that looks like Chaetoceros gracilis) was also reported (1); however, its nucleic acid type is still unknown. A recent study reports the isolation of the second ssRNA diatom virus infectious to Chaetoceros tenuissimus (CtenRNAV). A phylogenetic analysis showed a putative RNA-dependent RNA polymerase (RdRp) domain from a genome sequence of CtenRNAV is highly similar to RsRNAV but less similar to other marine stramenopile organism viruses (16): Schizochytrium single-stranded RNA virus (SssRNAV) infecting a fungoid protist Aurantiochytrium sp. (formerly Schizochytrium sp.) (19) and Heterosigma akashiwo RNA virus (HaRNAV; Marnaviridae) infecting the bloom-forming raphidophyte H. akashiwo (7, 8). The ssRNA diatom viruses are unlike other known viruses at the family level. These reports suggest that the diatom viruses are an exclusively unique group distinct from previously described viruses where further study of diatom virus biology is significant to understand diatom ecology.Here we report the isolation and characterization of a new ssRNA virus (Chaetoceros socialis f. radians RNA virus [CsfrRNAV]) infecting Chaetoceros socialis Lauder f. radians (Schütt) Proschkina-Lavrenko, one of the dominant phytoplankton species in the marine environments in especially productive areas during spring blooms; e.g., in the North Water polynya, the maximum concentration of C. socialis was as high as 3.0 × 104 cells ml−1 (2). Here, we also propose a new ssRNA virus family (Bacillariornaviridae), composed of three diatom-infecting ssRNA viruses based on phylogenetic analysis using the RdRp domain and other genomic characters.  相似文献   

4.
Since the first discovery of the very high virus abundance in marine environments, a number of researchers were fascinated with the world of "marine viruses", which had previously been mostly overlooked in studies on marine ecosystems. In the present paper, the possible role of viruses infecting marine eukaryotic microalgae is enlightened, especially summarizing the most up-to-the-minute information of marine viruses infecting bloom-forming dinoflagellates and diatoms. To author's knowledge, approximately 40 viruses infecting marine eukaryotic algae have been isolated and characterized to different extents. Among them, a double-stranded DNA (dsDNA) virus "HcV" and a single-stranded RNA (ssRNA) virus "HcRNAV" are the only dinoflagellate-infecting (lytic) viruses that were made into culture; their hosts are a bivalve-killing dinoflagellate Heterocapsa circularisquama. In this article, ecological relationship between H. circularisquama and its viruses is focused. On the other hand, several diatom-infecting viruses were recently isolated and partially characterized; among them, one is infectious to a pen-shaped bloom-forming diatom species Rhizosolenia setigera; some viruses are infectious to genus Chaetoceros which is one of the most abundant and diverse diatom group. Although the ecological relationships between diatoms and their viruses have not been sufficiently elucidated, viral infection is considered to be one of the significant factors affecting dynamics of diatoms in nature. Besides, both the dinoflagellate-infecting viruses and diatom-infecting viruses are so unique from the viewpoint of virus taxonomy; they are remarkably different from any other viruses ever reported. Studies on these viruses lead to an idea that ocean may be a treasury of novel viruses equipped with fascinating functions and ecological roles.  相似文献   

5.
Evolution of the linear DNA replicons of the Borrelia spirochetes.   总被引:9,自引:0,他引:9  
Members of the spirochete genus Borrelia carry numerous linear DNA replicons with covalently closed hairpin telomeres. The genome of one member of this genus, B. burgdorferi B31, has now been completely characterized and contains a linear chromosome, twelve linear plasmids and nine circular extra-chromosomal elements. The phylogenetic position of the Borrelia spirochetes strongly suggests that a progenitor with circular replicons acquired the ability to replicate linear DNA molecules.  相似文献   

6.
Archaeal organisms are generally known as diverse extremophiles, but they play a crucial role also in moderate environments. So far, only about 50 archaeal viruses have been described in some detail. Despite this, unusual viral morphotypes within this group have been reported. Interestingly, all isolated archaeal viruses have a double-stranded DNA (dsDNA) genome. To further characterize the diversity of archaeal viruses, we screened highly saline water samples for archaea and their viruses. Here, we describe a new haloarchaeal virus, Halorubrum pleomorphic virus 1 (HRPV-1) that was isolated from a solar saltern and infects an indigenous host belonging to the genus Halorubrum . Infection does not cause cell lysis, but slightly retards growth of the host and results in high replication of the virus. The sequenced genome (7048 nucleotides) of HRPV-1 is single-stranded DNA (ssDNA), which makes HRPV-1 the first characterized archaeal virus that does not have a dsDNA genome. In spite of this, similarities to another archaeal virus were observed. Two major structural proteins were recognized in protein analyses, and by lipid analyses it was shown that the virion contains a membrane. Electron microscopy studies indicate that the enveloped virion is pleomorphic (approximately 44 × 55 nm). HRPV-1 virion may represent commonly used virion architecture, and it seems that structure-based virus lineages may be extended to non-icosahedral viruses.  相似文献   

7.
A non-integrated form of Epstein-Barr virus DNA was purified from the Burkitt lymphoma-derived human lymphoid cell line Raji by CsCl density gradient centrifugation and neutral glycerol gradient centrifugation. This intracellular form of the virus DNA sediments at a rate typical of a covalently closed circular DNA molecule of the size of the virus genome in both neutral and alkaline solution. Treatment with low doses of X-rays leads to a discontinuous conversion of the molecules to a form with the sedimentation properties of open circular DNA (a circular duplex molecule containing one or more single-strand breaks). The direct observation of large circular DNA molecules by electron microscopy further confirms the covalently closed circular duplex structure of part of the intracellular viral DNA. Such circular molecules were not detected in corresponding DNA fractions from Epstein-Barr virus-negative human lymphoid cell lines. In ethidium bromide/CsCl density gradient centrifugation experiments, the purified non-integrated virus DNA behaves as twisted, covalently closed DNA circles with the same initial superhelix density as polyoma virus DNA. The latter additional purification technique permits the isolation of intracellular Epstein-Barr virus DNA in > 90% pure form from non-producer cells. The molecular weight of the circular virus DNA from Raji cells, determined by contour length measurements, is the same within experimental error as that of the linear DNA from virus particles.  相似文献   

8.
Virus was isolated from the lumen of the calyx region of ovaries in the parasitoid wasp Campoletis sonorensis (Hymenoptera: Ichneumonidae), and the nature of the viral DNA was analyzed. DNA purified from a homogeneous band of virus contained double-stranded superhelical molecules which were polydisperse in molecular weight. At least 25 different covalently closed circles were present, ranging in molecular weight from 4.0 x 10(6) to 13.6 x 10(6). The virus DNA was analyzed with restriction enzymes, and the nature of the genetic complexity was evaluated by Southern blot hybridization of native superhelical and relaxed circular virus DNA and of SalI- and HindIII-digested DNA. The data suggest that most of the variously sized covalently closed DNAs were composed primarily of nonhomologous sequences. The different size classes of covalently closed viral DNAs did not appear to exist in equimolar concentrations. However, there was no evidence from observation of virus particles in the electron microscope or from virus fractionation experiments that a mixture of viruses was present in the calyx fluid. The results from this study suggest' that the virus isolated from C. sonorensis, like those isolated from other endoparasitic hymenoptera, may belong to a new class of DNA viruses in which the genome is multipartite, with each DNA existing as a superhelical molecule.  相似文献   

9.
A newly discovered group of spherical plant viruses contains a bipartite genome consisting of a single-strand linear RNA molecule (RNA 1, Mr 1.5 x 10(6) ), and a single-strand, covalently closed circular viroid-like RNA molecule (RNA 2, Mr approximately 125,000). The nucleotide sequences of the RNA 2 of two of these, velvet tobacco mottle virus and solanum nodiflorum mottle virus, have been determined. RNA 2 of solanum nodiflorum mottle virus consists of 377 residues whereas that of velvet tobacco mottle virus consists of two approximately equimolar species, one of 366 residues and the other, with a single nucleotide deletion, of 365 residues. There is 92-95% sequence homology between the RNA 2 species of the two viruses. The predicted secondary structures possess extensive intramolecular base pairing to give rod-like structures similar to those of viroids. The structural similarities between the RNAs 2 of velvet tobacco mottle virus and solanum nodiflorum mottle virus and viroids may reflect functional similarities.  相似文献   

10.
The genus Borrelia includes the causative agents of Lyme disease and relapsing fever. An unusual feature of these bacteria is a genome that includes linear DNA molecules with covalently closed hairpin ends referred to as telomeres. We have investigated the mechanism by which the hairpin telomeres are processed during replication. A synthetic 140 bp sequence having the predicted structure of a replicated telomere was shown to function as a viable substrate for telomere resolution in vivo, and was sufficient to convert a circular replicon to a linear form. Our results suggest that the final step in the replication of linear Borrelia replicons is a site-specific DNA breakage and reunion event to regenerate covalently closed hairpin ends. The telomere substrate described here will be valuable both for in vivo manipulation of linear DNA in Borrelia and for in vitro studies to identify and characterize the telomere resolvase.  相似文献   

11.
12.

Background

Animal faeces comprise a community of many different microorganisms including bacteria and viruses. Only scarce information is available about the diversity of viruses present in the faeces of pigs. Here we describe a protocol, which was optimized for the purification of the total fraction of viral particles from pig faeces. The genomes of the purified DNA and RNA viruses were simultaneously amplified by PCR and subjected to deep sequencing followed by bioinformatic analyses. The efficiency of the method was monitored using a process control consisting of three bacteriophages (T4, M13 and MS2) with different morphology and genome types. Defined amounts of the bacteriophages were added to the sample and their abundance was assessed by quantitative PCR during the preparation procedure.

Results

The procedure was applied to a pooled faecal sample of five pigs. From this sample, 69,613 sequence reads were generated. All of the added bacteriophages were identified by sequence analysis of the reads. In total, 7.7% of the reads showed significant sequence identities with published viral sequences. They mainly originated from bacteriophages (73.9%) and mammalian viruses (23.9%); 0.8% of the sequences showed identities to plant viruses. The most abundant detected porcine viruses were kobuvirus, rotavirus C, astrovirus, enterovirus B, sapovirus and picobirnavirus. In addition, sequences with identities to the chimpanzee stool-associated circular ssDNA virus were identified. Whole genome analysis indicates that this virus, tentatively designated as pig stool-associated circular ssDNA virus (PigSCV), represents a novel pig virus.

Conclusion

The established protocol enables the simultaneous detection of DNA and RNA viruses in pig faeces including the identification of so far unknown viruses. It may be applied in studies investigating aetiology, epidemiology and ecology of diseases. The implemented process control serves as quality control, ensures comparability of the method and may be used for further method optimization.  相似文献   

13.
Epstein-Barr virus infects resting B cells in vitro and activates them to continuously proliferating lymphoblasts. Activation is essential for the virus to convert its linear genome to the covalently closed circular episomal form in which it persists in proliferating cells. However, in vivo, Epstein-Barr virus persists in resting B cells. We found that in these cells also the virus is present as an episome, suggesting that the cells must, at some time, have been activated and then returned to a resting state. This is the first direct demonstration, for any herpesvirus, of this form of the viral genome in normal persistently infected tissue. Since no linear viral DNA was detected, we estimate that fewer than 1 in 40 cells replicates the virus in the peripheral blood of healthy donors.  相似文献   

14.
The genus Borrelia includes the causative agents of Lyme disease and relapsing fever. An unusual feature of these bacteria is a segmented genome consisting mostly of a number of linear DNA molecules with covalently closed hairpin ends or telomeres. In this study we show that the BBB03 locus encodes the B. burgdorferi telomere resolvase, ResT. The purified protein catalyzes telomere resolution in vitro through a unique reaction: breakage of two phosphodiester bonds in a single DNA duplex (one on each strand) and joining of each end with the opposite DNA strand to form covalently closed hairpin telomeres. Telomere resolution by ResT occurs through a two-step transesterification reaction involving the formation of a covalent protein-DNA intermediate at a position three nucleotides from the axis of symmetry in each strand of the substrate.  相似文献   

15.
Microsatellites or Simple Sequence Repeats (SSRs) are tandem iterations of one to six base pairs, non-randomly distributed throughout prokaryotic and eukaryotic genomes. Limited knowledge is available about distribution of microsatellites in single stranded DNA (ssDNA) viruses, particularly vertebrate infecting viruses. We studied microsatellite distribution in 118 ssDNA virus genomes belonging to three families of vertebrate infecting viruses namely Circoviridae, Parvoviridae, and Anelloviridae, and found that microsatellites constitute an important component of these virus genomes. Mononucleotide repeats were predominant followed by dinucleotide and trinucleotide repeats. A strong positive relationship existed between number of mononucleotide repeats and genome size among all the three virus families. A similar relationship existed for the occurrence of DTTPH (di-, tri-, tetra-, penta- and hexa-nucleotide) repeats in the families Anelloviridae and Parvoviridae only. Relative abundance and relative density of mononucleotide repeats showed a strong positive relationship with genome size in Circoviridae and Parvoviridae. However, in the case of DTTPH repeats, these features showed a strong relationship with genome size in Circoviridae only. On the other hand, relative microsatellite abundance and relative density of mononucleotide repeats were negatively correlated with GC content (%) in Parvoviridae genomes. On the basis of available annotations, our analysis revealed maximum occurrence of mononucleotide as well as DTTPH repeats in the coding regions of these virus genomes. Interestingly, after normalizing the length of the coding and non-coding regions of each virus genome, we found relative density of microsatellites much higher in the non-coding regions. We understand that the present study will help in the better characterization of the stability, genome organization and evolution of these virus classes and may provide useful leads to decipher the etiopathogenesis of these viruses.  相似文献   

16.
The family Bunyaviridae is the most diversified family of RNA viruses. We describe a novel prototypic bunyavirus, tentatively named Gouléako virus, isolated from various mosquito species trapped in Côte d''Ivoire. The S segment comprised 1,087 nucleotides (nt), the M segment 3,188 nt, and the L segment 6,358 nt, constituting the shortest bunyavirus genome known so far. The virus had shorter genome termini than phleboviruses and showed no evidence of encoded NSs and NSm proteins. An uncharacterized 105-amino-acid (aa) putative open reading frame (ORF) was detected in the S segment. Genetic equidistance to other bunyaviruses (74 to 88% aa identity) and absence of serological cross-reactivity with phleboviruses suggested a proposed novel Bunyaviridae genus.  相似文献   

17.
To initiate homologous recombination, sequence similarity between two DNA molecules must be searched for and homology recognized. How the search for and recognition of homology occurs remains unproven. We have examined the influences of DNA topology and the polarity of RecA–single-stranded (ss)DNA filaments on the formation of synaptic complexes promoted by RecA. Using two complementary methods and various ssDNA and duplex DNA molecules as substrates, we demonstrate that topological constraints on a small circular RecA–ssDNA filament prevent it from interwinding with its duplex DNA target at the homologous region. We were unable to detect homologous pairing between a circular RecA–ssDNA filament and its relaxed or supercoiled circular duplex DNA targets. However, the formation of synaptic complexes between an invading linear RecA–ssDNA filament and covalently closed circular duplex DNAs is promoted by supercoiling of the duplex DNA. The results imply that a triplex structure formed by non-Watson–Crick hydrogen bonding is unlikely to be an intermediate in homology searching promoted by RecA. Rather, a model in which RecA-mediated homology searching requires unwinding of the duplex DNA coupled with local strand exchange is the likely mechanism. Furthermore, we show that polarity of the invading RecA–ssDNA does not affect its ability to pair and interwind with its circular target duplex DNA.  相似文献   

18.
19.
A simple gel technique is described for the detection of large, covalently closed, circular DNA molecules in eucaryotic cells. The procedure is based on the electrophoretic technique of Eckhardt (T. Eckhardt, Plasmid 1:584-588, 1978) for detecting bacterial plasmids and has been modified for the detection of circular and linear extrachromosomal herpesvirus genomes in mammalian cells. Gentle lysis of suspended cells in the well of an agarose gel followed by high-voltage electrophoresis allows separation of extrachromosomal DNA from the bulk of cellular DNA. Circular viral DNA from cells which carry the genomes of Epstein-Barr virus, Herpesvirus saimiri, and Herpesvirus ateles can be detected in these gels as sharp bands which comigrate with bacterial plasmid DNA of 208 kilobases. Epstein-Barr virus producer cell lines also show a sharp band of linear 160-kilobase DNA. The kinetics of the appearance of this linear band after induction of viral replication after temperature shift parallels the known kinetics of Epstein-Barr virus production in these cell lines. Hybridization of DNA after transfer to filters shows that the circular and linear DNA bands are virus specific and that as little as 0.25 Epstein-Barr virus genome per cell can be detected. The technique is simple, rapid, and sensitive and requires relatively low amounts of cells (0.5 X 10(6) to 2.5 X 10(6)).  相似文献   

20.
Three principal forms of viral DNA have been identified in cells infected with avian sarcoma virus: (i) a linear duplex molecule synthesized in the cytoplasm, (ii) a covalently closed circular molecule found in the nucleus, and (iii) proviral DNA covalently linked to high-molecular-weight cell DNA. To define precursor product relationships among these forms of viral DNA, we performed pulsechase experiments using 5-bromodeoxyuridine to label by density the linear species of viral DNA in the cytoplasm during the first 4 h after infection. After a 4-to 8-h chase with thymidine, a portion of the density-labeled viral DNA was transported to the nucleus and converted to a covalently closed circular form. We conclude that linear viral DNA, synthesized in the cytoplasm, is the precursor to closed circular DNA observed in the nucleus.  相似文献   

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