Your browser doesn't support javascript.
loading
Show: 20 | 50 | 100
Results 1 - 11 de 11
Filter
Add more filters










Publication year range
1.
Proc Natl Acad Sci U S A ; 119(31): e2119439119, 2022 08 02.
Article in English | MEDLINE | ID: mdl-35895681

ABSTRACT

Archaeal viruses with a spindle-shaped virion are abundant and widespread in extremely diverse environments. However, efforts to obtain the high-resolution structure of a spindle-shaped virus have been unsuccessful. Here, we present the structure of SSV19, a spindle-shaped virus infecting the hyperthermophilic archaeon Sulfolobus sp. E11-6. Our near-atomic structure reveals an unusual sevenfold symmetrical virus tail consisting of the tailspike, nozzle, and adaptor proteins. The spindle-shaped capsid shell is formed by seven left-handed helical strands, constructed of the hydrophobic major capsid protein, emanating from the highly glycosylated tail assembly. Sliding between adjacent strands is responsible for the variation of a virion in size. Ultrathin sections of the SSV19-infected cells show that SSV19 virions adsorb to the host cell membrane through the tail after penetrating the S-layer. The tailspike harbors a putative endo-mannanase domain, which shares structural similarity to a Bacteroides thetaiotaomicro endo-mannanase. Molecules of glycerol dibiphytanyl glycerol tetraether lipid were observed in hydrophobic clefts between the tail and the capsid shell. The nozzle protein resembles the stem and clip domains of the portals of herpesviruses and bacteriophages, implying an evolutionary relationship among the archaeal, bacterial, and eukaryotic viruses.


Subject(s)
Fuselloviridae , Sulfolobus , Capsid Proteins/chemistry , Fuselloviridae/chemistry , Fuselloviridae/genetics , Fuselloviridae/isolation & purification , Genome, Viral , Glycerol , Sulfolobus/virology , Virion/chemistry , Virion/genetics , Virion/isolation & purification
2.
J Virol ; 94(4)2020 01 31.
Article in English | MEDLINE | ID: mdl-31748395

ABSTRACT

Fuselloviruses are among the most widespread and best-characterized archaeal viruses. They exhibit remarkable diversity, as the list of members of this family is rapidly growing. However, it has yet to be shown how a fuselloviral genome may undergo variation at the levels of both single nucleotides and sequence stretches. Here, we report the isolation and characterization of four novel spindle-shaped viruses, named Sulfolobus spindle-shaped viruses 19 to 22 (SSV19-22), from a hot spring in the Philippines. SSV19 is a member of the genus Alphafusellovirus, whereas SSV20-22 belong to the genus Betafusellovirus The genomes of SSV20-SSV22 are identical except for the presence of two large variable regions, as well as numerous sites of single-nucleotide polymorphisms (SNPs) unevenly distributed throughout the genomes and enriched in certain regions, including the gene encoding the putative end filament protein VP4. We show that coinfection of the host with SSV20 and SSV22 led to the formation of an SSV21-like virus, presumably through homologous recombination. In addition, large numbers of SNPs were identified in DNA sequences retrieved by PCR amplification targeting the SSV20-22 vp4 gene from the original enrichment culture, indicating the enormous diversity of SSV20-22-like viruses in the environment. The high variability of VP4 is consistent with its potential role in host recognition and binding by the virus.IMPORTANCE How a virus survives in the arms race with its host is an intriguing question. In this study, we isolated and characterized four novel fuselloviruses, named Sulfolobus spindle-shaped viruses 19 to 22 (SSV19-22). Interestingly, SSV20-22 differ primarily in two genomic regions and are apparently convertible through homologous recombination during coinfection. Moreover, sites of single-nucleotide polymorphism (SNP) were identified throughout the genomes of SSV20-22 and, notably, enriched in certain regions, including the gene encoding the putative end filament protein VP4, which is believed to be involved in host recognition and binding by the virus.


Subject(s)
Fuselloviridae/genetics , Sulfolobus/genetics , Amino Acid Sequence , Archaeal Viruses/genetics , Biological Evolution , DNA Viruses/genetics , DNA, Viral/genetics , Fuselloviridae/isolation & purification , Genetic Variation/genetics , Genome, Viral , Genomics/methods , Hot Springs/virology , Philippines , Sulfolobus/isolation & purification , Sulfolobus/virology , Viral Proteins/metabolism
3.
Environ Microbiol ; 11(11): 2849-62, 2009 Nov.
Article in English | MEDLINE | ID: mdl-19638177

ABSTRACT

Spindle-shaped virus-like particles are abundant in extreme geothermal environments, from which five spindle-shaped viral species have been isolated to date. They infect members of the hyperthermophilic archaeal genus Sulfolobus, and constitute the Fuselloviridae, a family of double-stranded DNA viruses. Here we present four new members of this family, all from terrestrial acidic hot springs. Two of the new viruses exhibit a novel morphotype for their proposed attachment structures, and specific features of their genome sequences strongly suggest the identity of the host-attachment protein. All fuselloviral genomes are highly conserved at the nucleotide level, although the regions of conservation differ between virus-pairs, consistent with a high frequency of homologous recombination having occurred between them. We propose a fuselloviral specific mechanism for interviral recombination, and show that the spacers of the Sulfolobus CRISPR antiviral system are not biased to the highly similar regions of the fusellovirus genomes.


Subject(s)
Fuselloviridae/genetics , Fuselloviridae/ultrastructure , Hot Springs/virology , Recombination, Genetic , Virion/ultrastructure , Conserved Sequence , DNA, Viral/chemistry , DNA, Viral/genetics , Fuselloviridae/isolation & purification , Gene Order , Microscopy, Electron, Transmission , Molecular Sequence Data , Sequence Analysis, DNA , Sulfolobus/virology , Viral Structural Proteins/ultrastructure
4.
Microbiology (Reading) ; 154(Pt 2): 383-391, 2008 Feb.
Article in English | MEDLINE | ID: mdl-18227242

ABSTRACT

A fusellovirus SSV4 and a pRN-like plasmid pXZ1 were co-isolated from a single strain of Sulfolobus. In contrast to the previously characterized virus-plasmid hybrids pSSVx and pSSVi, which can coexist intracellulary with a fusellovirus, pXZ1 is not packaged into viral particles and shows no viral infectivity. The virus and plasmid carry genomes of 15 135 and 6970 bp, respectively. For SSV4, 33 predicted ORFs are compactly organized with a strong preference for UGA stop codons, three-quarters of which overlap with either the Shine-Dalgarno motif or the start codon of the following gene. pXZ1 carries seven ORFs, three of which encode an atypical RepA, a PlrA and a CopG protein. A fourth ORF exhibits a high nucleotide sequence identity to the SSV4 integrase gene, which suggests that it has been transferred to the plasmid from SSV4. A single point mutation within an otherwise identical 500 bp region of the integrase gene occurs in the viral attachment site (attP), which corresponds to the anticodon region of the targeted tRNA gene in the host chromosome. This point mutation confers on pXZ1 the ability to integrate into the tRNA(Glu)[CUC] gene, which differs from the integration site of SSV4, tRNA(Glu)[UUC]. SSV4 and pXZ1 were also shown experimentally to integrate into separate sites on the host chromosome. This is believed to be the first report of a pRN plasmid sharing its natural host with a fusellovirus and carrying a highly similar integrase gene.


Subject(s)
Fuselloviridae/genetics , Gene Transfer, Horizontal , Integrases/genetics , Plasmids/genetics , Sulfolobus/genetics , Base Sequence , Fuselloviridae/enzymology , Fuselloviridae/isolation & purification , Fuselloviridae/ultrastructure , Genes, Viral , Genetic Vectors/genetics , Genome, Viral , Molecular Sequence Data , Plasmids/chemistry , Recombination, Genetic , Sequence Alignment , Sulfolobus/enzymology , Sulfolobus/virology , Virus Integration
5.
Extremophiles ; 10(1): 17-28, 2006 Feb.
Article in English | MEDLINE | ID: mdl-16397749

ABSTRACT

The crenarchaeote Sulfolobus spp. is a host for a remarkably large spectrum of viruses and plasmids. The genetic elements characterized so far indicate a large degree of novelty in terms of morphology (viruses) and in terms of genome content (plasmids and viruses). The viruses and conjugative plasmids encode a great number of conserved proteins of unknown function due to the lack of sequence similarity to functionally characterized proteins. These apparently essential proteins remain to be studied and should help to understand the physiology and genetics of the respective genetic elements as well as the host. Sulfolobus is one of the best-studied archaeons and could develop into an important model organism of the crenarchaea and the archaea.


Subject(s)
Archaeal Viruses/genetics , Plasmids/genetics , Sulfolobus/genetics , Sulfolobus/virology , Amino Acid Sequence , Archaeal Proteins/genetics , Archaeal Viruses/classification , Archaeal Viruses/isolation & purification , Base Sequence , Conjugation, Genetic , DNA, Archaeal/genetics , DNA, Archaeal/isolation & purification , Fuselloviridae/genetics , Fuselloviridae/isolation & purification , Genome, Viral , Guttaviridae/genetics , Guttaviridae/isolation & purification , Lipothrixviridae/genetics , Lipothrixviridae/isolation & purification , Molecular Sequence Data , Plasmids/isolation & purification , Rudiviridae/genetics , Rudiviridae/isolation & purification , Sequence Homology, Amino Acid , Sequence Homology, Nucleic Acid , Sulfolobus/enzymology
6.
J Bacteriol ; 185(13): 3888-94, 2003 Jul.
Article in English | MEDLINE | ID: mdl-12813083

ABSTRACT

We describe the first virus-like particle of a hyperthermophilic euryarchaeote which was discovered in a strain of "Pyrococcus abyssi" previously characterized in our laboratory. This particle, named PAV1, is lemon-shaped (120 nm x 80 nm), with a short tail terminated by fibers, and resembles the virus SSV1, the type member of the Fuselloviridae, isolated from Sulfolobus shibatae. Sensitivity of the virus-like particle to organic solvents and detergents suggested that the envelope of PAV1 may contain lipids in addition to proteins. It contains a double-stranded circular DNA of 18 kb which is also present in high copy number in a free form in the host cytoplasm. No integrated form of the PAV1 genome could be detected in the host chromosome. Under standard growth conditions, the host cells continuously release PAV1 particles into the culture supernatant without spontaneous lysis, with a maximum reached in the late stationary phase. UV, gamma irradiation, treatment with mitomycin C, and various physiological stresses had no effect on PAV1 production. Screening of a large number of Thermococcales isolates did not permit to find a sensitive host. These results suggest that PAV1 persists in the host strain in a stable carrier state rather than a prophage.


Subject(s)
Fuselloviridae/classification , Fuselloviridae/isolation & purification , Hot Temperature , Pyrococcus/virology , Virion/classification , Virion/isolation & purification , DNA/analysis , DNA, Circular/analysis , DNA, Viral/analysis , Electrophoresis/methods , Fuselloviridae/genetics , Fuselloviridae/ultrastructure , Genome, Viral , Microscopy, Electron , Seawater/microbiology , Thermococcales/virology , Viral Proteins/chemistry , Virion/genetics , Virion/ultrastructure
7.
Res Microbiol ; 154(4): 295-302, 2003 May.
Article in English | MEDLINE | ID: mdl-12798235

ABSTRACT

The fusellovirus SSV2 from an Icelandic Sulfolobus strain was isolated, characterized and its complete genomic sequence determined. SSV2 is very similar in morphology, replication, genome size and number of open reading frames (ORFs) to the type virus of the family, SSV1 from Japan, except in its high level of uninduced virus production. The nucleotide sequences are, however, only 55% identical to each other, much less than related bacteriophage, related animal viruses and the rudiviruses of Sulfolobus, SIRV1 and SIRV2. Nevertheless the genome architecture is very similar between the two viruses, indicating that despite this genomic dissimilarity the virus genomes are mostly homologous. Unlike SSV1, the sequence of SSV2 indicates integration into a glycyl tRNA gene and is completely missing a DNA packaging gene. There is a unique, perfectly tandemly directly repeated sequence of 62 nucleotides in SSV2 that has no similarity to known sequences or structures. By comparison to the SSV2 genome, an integrated partial fusellovirus genome was found in the Sulfolobus solfataricus P2 genome further confirming the dynamism of the Sulfolobus genome. Clustering of cysteine codon containing ORFs both in SSV1 and SSV2 indicates that these Fuselloviridae arose from a genome fusion event.


Subject(s)
Fuselloviridae , Sulfolobus/virology , Fuselloviridae/chemistry , Fuselloviridae/genetics , Fuselloviridae/isolation & purification , Fuselloviridae/ultrastructure , Genome, Viral , Genomics , Lysogeny/genetics , Open Reading Frames , RNA, Transfer/genetics , Sequence Homology , Viral Proteins/chemistry , Viral Proteins/genetics
8.
Arch Virol ; 147(12): 2419-29, 2002 Dec.
Article in English | MEDLINE | ID: mdl-12491107

ABSTRACT

Electron microscopic studies of the viruses in two hot springs (85 degrees C, pH 1.5-2.0, and 75-93 degrees C, pH 6.5) in Yellowstone National Park revealed particles with twelve different morphotypes. This diversity encompassed known viruses of hyperthermophilic archaea, filamentous Lipothrixviridae, rod-shaped Rudiviridae, and spindle-shaped Fuselloviridae, and novel morphotypes previously not observed in nature. Two virus types resembled head-and-tail bacteriophages from the families Siphoviridae and Podoviridae, and constituted the first observation of these viruses in a hydrothermal environment. Viral hosts in the acidic spring were members of the hyperthermophilic archaeal genus Acidianus.


Subject(s)
Archaea/virology , Archaeal Viruses/isolation & purification , Podoviridae/isolation & purification , Water Microbiology , Archaeal Viruses/ultrastructure , Culture Media , Fuselloviridae/isolation & purification , Fuselloviridae/ultrastructure , Hot Temperature , Hydrogen-Ion Concentration , Lipothrixviridae/isolation & purification , Lipothrixviridae/ultrastructure , Microscopy, Electron , Podoviridae/ultrastructure , Rudiviridae/isolation & purification , Rudiviridae/ultrastructure , Siphoviridae/isolation & purification , Siphoviridae/ultrastructure , Wyoming
10.
Extremophiles ; 2(3): 131-40, 1998 Aug.
Article in English | MEDLINE | ID: mdl-9783157

ABSTRACT

This minireview summarizes what is known about genetic elements in the archaeal crenarchaeotal genus Sulfolobus, including recent work on viruses, cryptic plasmids, a novel type of virus satellite plasmids or satellite viruses, and conjugative plasmids (CPs), mostly from our laboratory. It does not discuss IS elements and transposons.


Subject(s)
Sulfolobus/genetics , Chromosome Mapping , Cloning, Molecular , Fuselloviridae/isolation & purification , Fuselloviridae/ultrastructure , Genes, Archaeal , Genetic Vectors , Genome, Viral , Microscopy, Electron , Open Reading Frames , Plasmids/genetics , Plasmids/isolation & purification , Sulfolobus/ultrastructure , Sulfolobus/virology , Viruses/isolation & purification , Viruses/ultrastructure
11.
J Virol ; 72(11): 9392-5, 1998 Nov.
Article in English | MEDLINE | ID: mdl-9765495

ABSTRACT

A novel archaeal virus, His1, was isolated from hypersaline waters in southeastern Australia. It was lytic, grew only on Haloarcula hispanica (titers of up to 10(11) PFU/ml), and displayed a lemon-shaped morphology (74 by 44 nm) previously reported only for a virus of the extreme thermophiles (SSV1). The density of His1 was approximately 1.28 g/ml, similar to that of SSV1 (1.24 g/ml). Purified particles were resistant to low salt concentrations. The genome was linear, double-stranded DNA of 14.9 kb, similar to the genome of SSV1 (15.5 kb). Morphologically, this isolate clearly belongs to the recently proposed Fuselloviridae family of archaeal viruses. It is the first member of this family from the extremely halophilic archaea, and its host, H. hispanica, can be readily manipulated genetically.


Subject(s)
Fuselloviridae/isolation & purification , Haloarcula/virology , Fuselloviridae/genetics , Fuselloviridae/ultrastructure , Genome, Viral , Microscopy, Electron , Restriction Mapping
SELECTION OF CITATIONS
SEARCH DETAIL
...