Stygiolobus rod-shaped virus and the interplay of crenarchaeal rudiviruses with the CRISPR antiviral system

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Stygiolobus rod-shaped virus and the interplay of crenarchaeal rudiviruses with the CRISPR antiviral system. / Vestergaard, Gisle Alberg; Shah, Shiraz Ali; Bize, Ariane; Reitberger, Werner; Reuter, Monika; Phan, Hien; Briegel, Ariane; Rachel, Reinhard; Garrett, Roger Antony; Prangishvili, David.

I: Journal of Bacteriology, Bind 190, Nr. 20, 2008, s. 6837-6845.

Publikation: Bidrag til tidsskriftTidsskriftartikelForskningfagfællebedømt

Harvard

Vestergaard, GA, Shah, SA, Bize, A, Reitberger, W, Reuter, M, Phan, H, Briegel, A, Rachel, R, Garrett, RA & Prangishvili, D 2008, 'Stygiolobus rod-shaped virus and the interplay of crenarchaeal rudiviruses with the CRISPR antiviral system', Journal of Bacteriology, bind 190, nr. 20, s. 6837-6845. https://doi.org/10.1128/JB.00795-08

APA

Vestergaard, G. A., Shah, S. A., Bize, A., Reitberger, W., Reuter, M., Phan, H., Briegel, A., Rachel, R., Garrett, R. A., & Prangishvili, D. (2008). Stygiolobus rod-shaped virus and the interplay of crenarchaeal rudiviruses with the CRISPR antiviral system. Journal of Bacteriology, 190(20), 6837-6845. https://doi.org/10.1128/JB.00795-08

Vancouver

Vestergaard GA, Shah SA, Bize A, Reitberger W, Reuter M, Phan H o.a. Stygiolobus rod-shaped virus and the interplay of crenarchaeal rudiviruses with the CRISPR antiviral system. Journal of Bacteriology. 2008;190(20):6837-6845. https://doi.org/10.1128/JB.00795-08

Author

Vestergaard, Gisle Alberg ; Shah, Shiraz Ali ; Bize, Ariane ; Reitberger, Werner ; Reuter, Monika ; Phan, Hien ; Briegel, Ariane ; Rachel, Reinhard ; Garrett, Roger Antony ; Prangishvili, David. / Stygiolobus rod-shaped virus and the interplay of crenarchaeal rudiviruses with the CRISPR antiviral system. I: Journal of Bacteriology. 2008 ; Bind 190, Nr. 20. s. 6837-6845.

Bibtex

@article{b5be9300db3811dd9473000ea68e967b,
title = "Stygiolobus rod-shaped virus and the interplay of crenarchaeal rudiviruses with the CRISPR antiviral system",
abstract = "A newly characterized archaeal rudivirus Stygiolobus rod-shaped virus (SRV), which infects a hyperthermophilic Stygiolobus species, was isolated from a hot spring in the Azores, Portugal. Its virions are rod-shaped, 702 (+/- 50) by 22 (+/- 3) nm in size, and nonenveloped and carry three tail fibers at each terminus. The linear double-stranded DNA genome contains 28,096 bp and an inverted terminal repeat of 1,030 bp. The SRV shows morphological and genomic similarities to the other characterized rudiviruses Sulfolobus rod-shaped virus 1 (SIRV1), SIRV2, and Acidianus rod-shaped virus 1, isolated from hot acidic springs of Iceland and Italy. The single major rudiviral structural protein is shown to generate long tubular structures in vitro of similar dimensions to those of the virion, and we estimate that the virion constitutes a single, superhelical, double-stranded DNA embedded into such a protein structure. Three additional minor conserved structural proteins are also identified. Ubiquitous rudiviral proteins with assigned functions include glycosyl transferases and a S-adenosylmethionine-dependent methyltransferase, as well as a Holliday junction resolvase, a transcriptionally coupled helicase and nuclease implicated in DNA replication. Analysis of matches between known crenarchaeal chromosomal CRISPR spacer sequences, implicated in a viral defense system, and rudiviral genomes revealed that about 10% of the 3,042 unique acidothermophile spacers yield significant matches to rudiviral genomes, with a bias to highly conserved protein genes, consistent with the widespread presence of rudiviruses in hot acidophilic environments. We propose that the 12-bp indels which are commonly found in conserved rudiviral protein genes may be generated as a reaction to the presence of the host CRISPR defense system.",
author = "Vestergaard, {Gisle Alberg} and Shah, {Shiraz Ali} and Ariane Bize and Werner Reitberger and Monika Reuter and Hien Phan and Ariane Briegel and Reinhard Rachel and Garrett, {Roger Antony} and David Prangishvili",
note = "Keywords: Azores; Chromosomes, Archaeal; DNA, Viral; Gene Order; Genes, Viral; Hot Springs; INDEL Mutation; Macromolecular Substances; Microscopy, Electron, Transmission; Models, Molecular; Molecular Sequence Data; Rudiviridae; Sequence Analysis, DNA; Sequence Homology, Amino Acid; Sulfolobaceae; Synteny; Viral Nonstructural Proteins; Viral Structural Proteins; Virion",
year = "2008",
doi = "10.1128/JB.00795-08",
language = "English",
volume = "190",
pages = "6837--6845",
journal = "Journal of Bacteriology",
issn = "0021-9193",
publisher = "American Society for Microbiology",
number = "20",

}

RIS

TY - JOUR

T1 - Stygiolobus rod-shaped virus and the interplay of crenarchaeal rudiviruses with the CRISPR antiviral system

AU - Vestergaard, Gisle Alberg

AU - Shah, Shiraz Ali

AU - Bize, Ariane

AU - Reitberger, Werner

AU - Reuter, Monika

AU - Phan, Hien

AU - Briegel, Ariane

AU - Rachel, Reinhard

AU - Garrett, Roger Antony

AU - Prangishvili, David

N1 - Keywords: Azores; Chromosomes, Archaeal; DNA, Viral; Gene Order; Genes, Viral; Hot Springs; INDEL Mutation; Macromolecular Substances; Microscopy, Electron, Transmission; Models, Molecular; Molecular Sequence Data; Rudiviridae; Sequence Analysis, DNA; Sequence Homology, Amino Acid; Sulfolobaceae; Synteny; Viral Nonstructural Proteins; Viral Structural Proteins; Virion

PY - 2008

Y1 - 2008

N2 - A newly characterized archaeal rudivirus Stygiolobus rod-shaped virus (SRV), which infects a hyperthermophilic Stygiolobus species, was isolated from a hot spring in the Azores, Portugal. Its virions are rod-shaped, 702 (+/- 50) by 22 (+/- 3) nm in size, and nonenveloped and carry three tail fibers at each terminus. The linear double-stranded DNA genome contains 28,096 bp and an inverted terminal repeat of 1,030 bp. The SRV shows morphological and genomic similarities to the other characterized rudiviruses Sulfolobus rod-shaped virus 1 (SIRV1), SIRV2, and Acidianus rod-shaped virus 1, isolated from hot acidic springs of Iceland and Italy. The single major rudiviral structural protein is shown to generate long tubular structures in vitro of similar dimensions to those of the virion, and we estimate that the virion constitutes a single, superhelical, double-stranded DNA embedded into such a protein structure. Three additional minor conserved structural proteins are also identified. Ubiquitous rudiviral proteins with assigned functions include glycosyl transferases and a S-adenosylmethionine-dependent methyltransferase, as well as a Holliday junction resolvase, a transcriptionally coupled helicase and nuclease implicated in DNA replication. Analysis of matches between known crenarchaeal chromosomal CRISPR spacer sequences, implicated in a viral defense system, and rudiviral genomes revealed that about 10% of the 3,042 unique acidothermophile spacers yield significant matches to rudiviral genomes, with a bias to highly conserved protein genes, consistent with the widespread presence of rudiviruses in hot acidophilic environments. We propose that the 12-bp indels which are commonly found in conserved rudiviral protein genes may be generated as a reaction to the presence of the host CRISPR defense system.

AB - A newly characterized archaeal rudivirus Stygiolobus rod-shaped virus (SRV), which infects a hyperthermophilic Stygiolobus species, was isolated from a hot spring in the Azores, Portugal. Its virions are rod-shaped, 702 (+/- 50) by 22 (+/- 3) nm in size, and nonenveloped and carry three tail fibers at each terminus. The linear double-stranded DNA genome contains 28,096 bp and an inverted terminal repeat of 1,030 bp. The SRV shows morphological and genomic similarities to the other characterized rudiviruses Sulfolobus rod-shaped virus 1 (SIRV1), SIRV2, and Acidianus rod-shaped virus 1, isolated from hot acidic springs of Iceland and Italy. The single major rudiviral structural protein is shown to generate long tubular structures in vitro of similar dimensions to those of the virion, and we estimate that the virion constitutes a single, superhelical, double-stranded DNA embedded into such a protein structure. Three additional minor conserved structural proteins are also identified. Ubiquitous rudiviral proteins with assigned functions include glycosyl transferases and a S-adenosylmethionine-dependent methyltransferase, as well as a Holliday junction resolvase, a transcriptionally coupled helicase and nuclease implicated in DNA replication. Analysis of matches between known crenarchaeal chromosomal CRISPR spacer sequences, implicated in a viral defense system, and rudiviral genomes revealed that about 10% of the 3,042 unique acidothermophile spacers yield significant matches to rudiviral genomes, with a bias to highly conserved protein genes, consistent with the widespread presence of rudiviruses in hot acidophilic environments. We propose that the 12-bp indels which are commonly found in conserved rudiviral protein genes may be generated as a reaction to the presence of the host CRISPR defense system.

U2 - 10.1128/JB.00795-08

DO - 10.1128/JB.00795-08

M3 - Journal article

C2 - 18723627

VL - 190

SP - 6837

EP - 6845

JO - Journal of Bacteriology

JF - Journal of Bacteriology

SN - 0021-9193

IS - 20

ER -

ID: 9513205