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1.
Viruses ; 14(2)2022 01 27.
Artigo em Inglês | MEDLINE | ID: mdl-35215847

RESUMO

(1) Background: Haloarchaea comprise extremely halophilic organisms of the Archaea domain. They are single-cell organisms with distinctive membrane lipids and a protein-based cell wall or surface layer (S-layer) formed by a glycoprotein array. Pleolipoviruses, which infect haloarchaeal cells, have an envelope analogous to eukaryotic enveloped viruses. One such member, Halorubrum pleomorphic virus 6 (HRPV-6), has been shown to enter host cells through virus-cell membrane fusion. The HRPV-6 fusion activity was attributed to its VP4-like spike protein, but the physiological trigger required to induce membrane fusion remains yet unknown. (2) Methods: We used SDS-PAGE mass spectroscopy to characterize the S-layer extract, established a proteoliposome system, and used R18-fluorescence dequenching to measure membrane fusion. (3) Results: We show that the S-layer extraction by Mg2+ chelating from the HRPV-6 host, Halorubrum sp. SS7-4, abrogates HRPV-6 membrane fusion. When we in turn reconstituted the S-layer extract from Hrr. sp. SS7-4 onto liposomes in the presence of Mg2+, HRPV-6 membrane fusion with the proteoliposomes could be readily observed. This was not the case with liposomes alone or with proteoliposomes carrying the S-layer extract from other haloarchaea, such as Haloferax volcanii. (4) Conclusions: The S-layer extract from the host, Hrr. sp. SS7-4, corresponds to the physiological fusion trigger of HRPV-6.


Assuntos
Proteínas Arqueais/metabolismo , Vírus de Archaea/fisiologia , Halorubrum/virologia , Glicoproteínas de Membrana/metabolismo , Internalização do Vírus , Vírus de Archaea/ultraestrutura , Halorubrum/ultraestrutura , Interações entre Hospedeiro e Microrganismos , Fusão de Membrana , Proteolipídeos/metabolismo
2.
Genes (Basel) ; 11(4)2020 04 08.
Artigo em Inglês | MEDLINE | ID: mdl-32276506

RESUMO

Few genomes of the HF1-group of viruses are currently available, and further examples would enhance the understanding of their evolution, improve their gene annotation, and assist in understanding gene function and regulation. Two novel HF1-group haloviruses, Serpecor1 and Hardycor2, were recovered from widely separated hypersaline lakes in Australia. Both are myoviruses with linear dsDNA genomes and infect the haloarchaeon Halorubrum coriense. Both genomes possess long, terminal direct repeat (TDR) sequences (320 bp for Serpecor1 and 306 bp for Hardycor2). The Serpecor1 genome is 74,196 bp in length, 57.0% G+C, and has 126 annotated coding sequences (CDS). Hardycor2 has a genome of 77,342 bp, 55.6% G+C, and 125 annotated CDS. They show high nucleotide sequence similarity to each other (78%) and with HF1 (>75%), and carry similar intergenic repeat (IR) sequences to those originally described in HF1 and HF2. Hardycor2 carries a DNA methyltransferase gene in the same genomic neighborhood as the methyltransferase genes of HF1, HF2 and HRTV-5, but is in the opposite orientation, and the inferred proteins are only distantly related. Comparative genomics allowed us to identify the candidate genes mediating cell attachment. The genomes of Serpecor1 and Hardycor2 encode numerous small proteins carrying one or more CxxC motifs, a signature feature of zinc-finger domain proteins that are known to participate in diverse biomolecular interactions.


Assuntos
Vírus de Archaea/genética , DNA Viral/genética , Genoma Viral/genética , Genômica , Austrália , Halorubrum/virologia , Lagos , Anotação de Sequência Molecular
3.
Environ Microbiol ; 21(6): 2129-2147, 2019 06.
Artigo em Inglês | MEDLINE | ID: mdl-30920125

RESUMO

The diversity of archaeal viruses is severely undersampled compared with that of viruses infecting bacteria and eukaryotes, limiting our understanding on their evolution and environmental impacts. Here, we describe the isolation and characterization of four new viruses infecting halophilic archaea from the saline Lake Retba, located close to Dakar on the coast of Senegal. Three of the viruses, HRPV10, HRPV11 and HRPV12, have enveloped pleomorphic virions and should belong to the family Pleolipoviridae, whereas the forth virus, HFTV1, has an icosahedral capsid and a long non-contractile tail, typical of bacterial and archaeal members of the order Caudovirales. Comparative genomic and phylogenomic analyses place HRPV10, HRPV11 and HRPV12 into the genus Betapleolipovirus, whereas HFTV1 appears to be most closely related to the unclassified Halorubrum virus HRTV-4. Differently from HRTV-4, HFTV1 encodes host-derived minichromosome maintenance helicase and PCNA homologues, which are likely to orchestrate its genome replication. HFTV1, the first archaeal virus isolated on a Haloferax strain, could also infect Halorubrum sp., albeit with an eightfold lower efficiency, whereas pleolipoviruses nearly exclusively infected autochthonous Halorubrum strains. Mapping of the metagenomic sequences from this environment to the genomes of isolated haloarchaeal viruses showed that these known viruses are underrepresented in the available viromes.


Assuntos
Vírus de Archaea/isolamento & purificação , Haloferax/virologia , Halorubrum/virologia , Lagos/virologia , Vírus de Archaea/classificação , Vírus de Archaea/genética , Metagenoma , Filogenia , Senegal , Vírion/classificação , Vírion/genética , Vírion/isolamento & purificação
4.
Nat Commun ; 10(1): 846, 2019 02 19.
Artigo em Inglês | MEDLINE | ID: mdl-30783086

RESUMO

Lipid membrane fusion is an essential function in many biological processes. Detailed mechanisms of membrane fusion and the protein structures involved have been mainly studied in eukaryotic systems, whereas very little is known about membrane fusion in prokaryotes. Haloarchaeal pleomorphic viruses (HRPVs) have a membrane envelope decorated with spikes that are presumed to be responsible for host attachment and membrane fusion. Here we determine atomic structures of the ectodomains of the 57-kDa spike protein VP5 from two related HRPVs revealing a previously unreported V-shaped fold. By Volta phase plate cryo-electron tomography we show that VP5 is monomeric on the viral surface, and we establish the orientation of the molecules with respect to the viral membrane. We also show that the viral membrane fuses with the host cytoplasmic membrane in a process mediated by VP5. This sheds light on protein structures involved in prokaryotic membrane fusion.


Assuntos
Vírus de Archaea/química , Proteínas de Fusão de Membrana/química , Proteínas do Envelope Viral/química , Microscopia Crioeletrônica , Cristalografia por Raios X , Tomografia com Microscopia Eletrônica , Halorubrum/virologia , Fusão de Membrana , Proteínas de Fusão de Membrana/genética , Proteínas de Fusão de Membrana/metabolismo , Domínios Proteicos , Dobramento de Proteína , Proteínas do Envelope Viral/genética , Proteínas do Envelope Viral/metabolismo , Vírion/química
5.
Vopr Virusol ; 63(5): 197-201, 2018.
Artigo em Russo | MEDLINE | ID: mdl-30550095

RESUMO

Тhе kingdom Archaea, as well as Bacteria, belongs to the overkingdom Prokaryota. Halophilic archaea (Halorubrum lacusprofundi) isolated from Antarctic saline lakes contain plasmids (pR1SE) that code proteins taking part in the formation of membranes of archaea vesicles. The molecular and biological properties of pR1SE and the peculiarity of its interaction with sensitive cells are considered in this article. The role of structural proteins coded by pR1S in the process of formation of vesicle membrane complex is paid special attention. Plasmid-containing archaea vesicles model some properties of viruses. Archaea plasmids can be viewed as possible ancestors of DNA-containing viruses.


Assuntos
DNA Viral/genética , Halobacteriales/genética , Halorubrum/genética , Vírus/genética , Regiões Antárticas , Archaea/genética , Archaea/virologia , Halorubrum/virologia , Lagos/microbiologia , Plasmídeos/genética , Tolerância ao Sal/genética
6.
Viruses ; 7(4): 1902-26, 2015 Apr 10.
Artigo em Inglês | MEDLINE | ID: mdl-25866903

RESUMO

Hypersaline environments around the world are dominated by archaea and their viruses. To date, very little is known about these viruses and their interaction with the host strains when compared to bacterial and eukaryotic viruses. We performed the first culture-dependent temporal screening of haloarchaeal viruses and their hosts in the saltern of Samut Sakhon, Thailand, during two subsequent years (2009, 2010). Altogether we obtained 36 haloarchaeal virus isolates and 36 archaeal strains, significantly increasing the number of known archaeal virus isolates. Interestingly, the morphological distribution of our temporal isolates (head-tailed, pleomorphic, and icosahedral membrane-containing viruses) was similar to the outcome of our previous spatial survey supporting the observations of a global resemblance of halophilic microorganisms and their viruses. Myoviruses represented the most abundant virus morphotype with strikingly broad host ranges. The other viral morphotypes (siphoviruses, as well as pleomorphic and icosahedral internal membrane-containing viruses) were more host-specific. We also identified a group of Halorubrum strains highly susceptible to numerous different viruses (up to 26). This high virus sensitivity, the abundance of broad host range viruses, and the maintenance of infectivity over a period of one year suggest constant interplay of halophilic microorganisms and their viruses within an extreme environment.


Assuntos
Vírus de Archaea/fisiologia , Microbiologia Ambiental , Halorubrum/virologia , Replicação Viral , Vírus de Archaea/genética , Vírus de Archaea/isolamento & purificação , Vírus de Archaea/ultraestrutura , Análise por Conglomerados , DNA Viral/química , DNA Viral/genética , Halorubrum/isolamento & purificação , Especificidade de Hospedeiro , Dados de Sequência Molecular , Filogenia , Análise de Sequência de DNA , Homologia de Sequência , Tailândia , Vírion/ultraestrutura , Cultura de Vírus
7.
J Bacteriol ; 194(23): 6608-9, 2012 Dec.
Artigo em Inglês | MEDLINE | ID: mdl-23144373

RESUMO

Halorubrum sp. strain T3, harboring a virus-like element, was isolated from a sample collected from a solar saltern in Yunnan, China. Several strains of Halorubrum pleomorphic viruses were reported in this genus recently; however, the virus-host interaction in haloarchaea remains unclear. To explore this issue, here we present the genome sequence of Halorubrum sp. strain T3 (3,168,011 bp, 68.48% G+C content).


Assuntos
Vírus de Archaea/genética , DNA Arqueal/química , DNA Arqueal/genética , Genoma Arqueal , Halorubrum/genética , Análise de Sequência de DNA , Composição de Bases , China , Microbiologia Ambiental , Halorubrum/isolamento & purificação , Halorubrum/virologia , Dados de Sequência Molecular
8.
J Virol ; 84(2): 788-98, 2010 Jan.
Artigo em Inglês | MEDLINE | ID: mdl-19864380

RESUMO

Only a few archaeal viruses have been subjected to detailed structural analyses. Major obstacles have been the extreme conditions such as high salinity or temperature needed for the propagation of these viruses. In addition, unusual morphotypes of many archaeal viruses have made it difficult to obtain further information on virion architectures. We used controlled virion dissociation to reveal the structural organization of Halorubrum pleomorphic virus 1 (HRPV-1) infecting an extremely halophilic archaeal host. The single-stranded DNA genome is enclosed in a pleomorphic membrane vesicle without detected nucleoproteins. VP4, the larger major structural protein of HRPV-1, forms glycosylated spikes on the virion surface and VP3, the smaller major structural protein, resides on the inner surface of the membrane vesicle. Together, these proteins organize the structure of the membrane vesicle. Quantitative lipid comparison of HRPV-1 and its host Halorubrum sp. revealed that HRPV-1 acquires lipids nonselectively from the host cell membrane, which is typical of pleomorphic enveloped viruses.


Assuntos
Vírus de Archaea/ultraestrutura , DNA de Cadeia Simples/ultraestrutura , Genoma Viral , Halorubrum/virologia , Proteínas do Envelope Viral/ultraestrutura , Vírus de Archaea/genética , Vírus de DNA/genética , Vírus de DNA/ultraestrutura , DNA de Cadeia Simples/genética , DNA Viral/genética , Genoma Viral/genética , Halorubrum/ultraestrutura , Microscopia Eletrônica , Proteínas do Envelope Viral/genética , Vírion/genética , Vírion/ultraestrutura
9.
Mol Microbiol ; 72(2): 307-19, 2009 Apr.
Artigo em Inglês | MEDLINE | ID: mdl-19298373

RESUMO

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 x 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.


Assuntos
Vírus de Archaea/genética , Vírus de DNA/genética , Halorubrum/virologia , Vírus de Archaea/classificação , Vírus de Archaea/isolamento & purificação , Vírus de Archaea/ultraestrutura , Vírus de DNA/classificação , Vírus de DNA/isolamento & purificação , Vírus de DNA/ultraestrutura , DNA de Cadeia Simples/genética , DNA Viral/genética , Genoma Viral , Microscopia Eletrônica , Análise de Sequência de DNA , Proteínas do Envelope Viral/metabolismo , Vírion/genética
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