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  1. Article ; Online: Architecture of viral replication factories.

    Zhang, Yongliang / Cao, Xiuling / Li, Dawei

    Oncotarget

    2015  Volume 6, Issue 31, Page(s) 30439–30440

    MeSH term(s) Animals ; Electron Microscope Tomography ; Endoplasmic Reticulum/ultrastructure ; Endoplasmic Reticulum/virology ; Host-Pathogen Interactions ; Humans ; Imaging, Three-Dimensional ; Virus Replication ; Viruses/genetics ; Viruses/growth & development ; Viruses/ultrastructure
    Language English
    Publishing date 2015-09-29
    Publishing country United States
    Document type Editorial
    ZDB-ID 2560162-3
    ISSN 1949-2553 ; 1949-2553
    ISSN (online) 1949-2553
    ISSN 1949-2553
    DOI 10.18632/oncotarget.5900
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  2. Article: Architecture and biogenesis of plus-strand RNA virus replication factories.

    Paul, David / Bartenschlager, Ralf

    World journal of virology

    2013  Volume 2, Issue 2, Page(s) 32–48

    Abstract: ... viral replication factories. This compartmentalization allows coordination of the different steps ... RNA virus replication factories. ... of the viral replication cycle, highly efficient genome replication and protection of the viral RNA ...

    Abstract Plus-strand RNA virus replication occurs in tight association with cytoplasmic host cell membranes. Both, viral and cellular factors cooperatively generate distinct organelle-like structures, designated viral replication factories. This compartmentalization allows coordination of the different steps of the viral replication cycle, highly efficient genome replication and protection of the viral RNA from cellular defense mechanisms. Electron tomography studies conducted during the last couple of years revealed the three dimensional structure of numerous plus-strand RNA virus replication compartments and highlight morphological analogies between different virus families. Based on the morphology of virus-induced membrane rearrangements, we propose two separate subclasses: the invaginated vesicle/spherule type and the double membrane vesicle type. This review discusses common themes and distinct differences in the architecture of plus-strand RNA virus-induced membrane alterations and summarizes recent progress that has been made in understanding the complex interplay between viral and co-opted cellular factors in biogenesis and maintenance of plus-strand RNA virus replication factories.
    Keywords covid19
    Language English
    Publishing date 2013-07-01
    Publishing country United States
    Document type Journal Article ; Review
    ZDB-ID 2829019-7
    ISSN 2220-3249
    ISSN 2220-3249
    DOI 10.5501/wjv.v2.i2.32
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  3. Article ; Online: Neurons cytoskeletal architecture remodeling during the replication cycle of mouse coronavirus MHV-JHM: a morphological in vitro study.

    Bartak, Michalina / Bąska, Piotr / Chodkowski, Marcin / Tymińska, Beata / Bańbura, Marcin W / Cymerys, Joanna

    BMC veterinary research

    2024  Volume 20, Issue 1, Page(s) 18

    Abstract: ... structures containing viral antigen targeting viral replication site (iii) formation of tunneling nanotubes ... replication of MHV-JHM in neurons during 168 h p.i. and syncytial cytopathic effect. We discovered ... as severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), has been used. The role of the cytoskeleton during virus replication ...

    Abstract Nowadays, the population is still struggling with a post-COVID19 syndrome known as long COVID, including a broad spectrum of neurological problems. There is an urgent need for a better understanding and exploration of the mechanisms of coronavirus neurotropism. For this purpose, the neurotropic strain of mouse hepatitis virus (MHV-JHM) originating from the beta-coronavirus genus, the same as severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), has been used. The role of the cytoskeleton during virus replication in neurons in vitro was determined to understand the mechanisms of MHV-JHM neuroinfection. We have described for the first time the changes of actin filaments during MHV-JHM infection. We also observed productive replication of MHV-JHM in neurons during 168 h p.i. and syncytial cytopathic effect. We discovered that the MHV-JHM strain modulated neuronal cytoskeleton during infection, which were manifested by: (i) condensation of actin filaments in the cortical layer of the cytoplasm, (ii) formation of microtubule cisternae structures containing viral antigen targeting viral replication site (iii) formation of tunneling nanotubes used by MHV-JHM for intercellular transport. Additionally, we demonstrated that the use of cytoskeletal inhibitors have reduced virus replication in neurons, especially noscapine and nocodazole, the microtubule shortening factors.
    MeSH term(s) Animals ; Mice ; Murine hepatitis virus ; Post-Acute COVID-19 Syndrome/veterinary ; COVID-19/veterinary ; Antigens, Viral ; Neurons ; SARS-CoV-2 ; Rodent Diseases
    Chemical Substances Antigens, Viral
    Language English
    Publishing date 2024-01-09
    Publishing country England
    Document type Journal Article
    ZDB-ID 2191675-5
    ISSN 1746-6148 ; 1746-6148
    ISSN (online) 1746-6148
    ISSN 1746-6148
    DOI 10.1186/s12917-023-03813-y
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  4. Article: Replication and transcription machinery for ranaviruses: components, correlation, and functional architecture.

    Ke, Fei / Yu, Xue-Dong / Wang, Zi-Hao / Gui, Jian-Fang / Zhang, Qi-Ya

    Cell & bioscience

    2022  Volume 12, Issue 1, Page(s) 6

    Abstract: ... Thus, these results depicted an architecture for ranavirus replication and transcription.: Conclusions: Up to 36 ... using a series of precise methods, which further constructed an architecture for ranavirus replication ... mammalian cells. However, as nucleocytoplasmic large DNA viruses (NCLDVs), their replication and ...

    Abstract Background: Ranaviruses (family Iridoviridae) are promiscuous pathogens that can infect across species barriers in poikilotherms and can replicate in amphibian and fish cells and even in cultured mammalian cells. However, as nucleocytoplasmic large DNA viruses (NCLDVs), their replication and transcription mechanisms remain largely unknown. Here, we screened and uncovered the replication and transcription machinery of two ranaviruses, Andrias davidianus ranavirus (ADRV) and Rana grylio virus (RGV), by a combination of methods, including the isolation of proteins on nascent DNA, recombinant virus-based affinity, and NanoLuc complementation assay.
    Results: The ranavirus replication and transcription machinery was deeply dissected and identified as a complicated apparatus containing at least 30 viral and 6 host proteins. The viral proteins ADRV-47L/RGV-63R (DNA polymerase, vDPOL), ADRV-23L/RGV-91R (proliferating cell nuclear antigen, vPCNA), ADRV-85L/RGV-27R (single-stranded DNA binding protein, vSSB), ADRV-88L/RGV-24R (vhelicase/primase), etc., constitute the core replisome. Specifically, the core of the transcription complex, the viral RNA polymerase, contain the host RNAPII subunits Rpb3, Rpb6, and Rpb11, which was a first report in NCLDVs. Furthermore, correlations and interactions among these factors in the machinery were described. Significantly, the replisome core protein vDPOL (ADRV-47L) can interact with numerous viral and host proteins and could act as a linker and regulation center in viral DNA replication and transcription. Thus, these results depicted an architecture for ranavirus replication and transcription.
    Conclusions: Up to 36 components from ranavirus and their host were found to form viral replisomes and transcription complexes using a series of precise methods, which further constructed an architecture for ranavirus replication and transcription in which vDPOL was a key central factor and various components correlated and cooperated. Therefore, it provides a cornerstone for further understanding the mechanisms of the replication and transcription of ranaviruses which can ensure the efficient production of progeny virus and adaptation to cross-species infection.
    Language English
    Publishing date 2022-01-06
    Publishing country England
    Document type Journal Article
    ZDB-ID 2593367-X
    ISSN 2045-3701
    ISSN 2045-3701
    DOI 10.1186/s13578-021-00742-x
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  5. Article ; Online: Neurons cytoskeletal architecture remodeling during the replication cycle of mouse coronavirus MHV-JHM

    Michalina Bartak / Piotr Bąska / Marcin Chodkowski / Beata Tymińska / Marcin W. Bańbura / Joanna Cymerys

    BMC Veterinary Research, Vol 20, Iss 1, Pp 1-

    a morphological in vitro study

    2024  Volume 18

    Abstract: ... structures containing viral antigen targeting viral replication site (iii) formation of tunneling nanotubes ... replication of MHV-JHM in neurons during 168 h p.i. and syncytial cytopathic effect. We discovered ... as severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), has been used. The role of the cytoskeleton during virus replication ...

    Abstract Abstract Nowadays, the population is still struggling with a post-COVID19 syndrome known as long COVID, including a broad spectrum of neurological problems. There is an urgent need for a better understanding and exploration of the mechanisms of coronavirus neurotropism. For this purpose, the neurotropic strain of mouse hepatitis virus (MHV-JHM) originating from the beta-coronavirus genus, the same as severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), has been used. The role of the cytoskeleton during virus replication in neurons in vitro was determined to understand the mechanisms of MHV-JHM neuroinfection. We have described for the first time the changes of actin filaments during MHV-JHM infection. We also observed productive replication of MHV-JHM in neurons during 168 h p.i. and syncytial cytopathic effect. We discovered that the MHV-JHM strain modulated neuronal cytoskeleton during infection, which were manifested by: (i) condensation of actin filaments in the cortical layer of the cytoplasm, (ii) formation of microtubule cisternae structures containing viral antigen targeting viral replication site (iii) formation of tunneling nanotubes used by MHV-JHM for intercellular transport. Additionally, we demonstrated that the use of cytoskeletal inhibitors have reduced virus replication in neurons, especially noscapine and nocodazole, the microtubule shortening factors.
    Keywords MHV-JHM ; Neurons ; Microtubules ; Actin filaments ; Neurotropism ; Veterinary medicine ; SF600-1100
    Subject code 570
    Language English
    Publishing date 2024-01-01T00:00:00Z
    Publisher BMC
    Document type Article ; Online
    Database BASE - Bielefeld Academic Search Engine (life sciences selection)

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  6. Article ; Online: A pentameric protein ring with novel architecture is required for herpesviral packaging.

    Didychuk, Allison L / Gates, Stephanie N / Gardner, Matthew R / Strong, Lisa M / Martin, Andreas / Glaunsinger, Britt A

    eLife

    2021  Volume 10

    Abstract: ... the viral genome into nascent capsids, which involves essential accessory factors that are poorly understood. Here ... binding, and in the context of KSHV infection, these mutants fail to package the viral genome or produce ... viral genomes to the packaging motor. ...

    Abstract Genome packaging in large double-stranded DNA viruses requires a powerful molecular motor to force the viral genome into nascent capsids, which involves essential accessory factors that are poorly understood. Here, we present structures of two such accessory factors from the oncogenic herpesviruses Kaposi's sarcoma-associated herpesvirus (KSHV; ORF68) and Epstein-Barr virus (EBV; BFLF1). These homologous proteins form highly similar homopentameric rings with a positively charged central channel that binds double-stranded DNA. Mutation of individual positively charged residues within but not outside the channel ablates DNA binding, and in the context of KSHV infection, these mutants fail to package the viral genome or produce progeny virions. Thus, we propose a model in which ORF68 facilitates the transfer of newly replicated viral genomes to the packaging motor.
    MeSH term(s) Epstein-Barr Virus Infections/virology ; Genome, Viral ; HEK293 Cells ; Herpesviridae Infections/virology ; Herpesvirus 4, Human/chemistry ; Herpesvirus 4, Human/genetics ; Herpesvirus 4, Human/physiology ; Herpesvirus 8, Human/chemistry ; Herpesvirus 8, Human/genetics ; Herpesvirus 8, Human/physiology ; Humans ; Viral Genome Packaging ; Viral Proteins/chemistry ; Viral Proteins/genetics ; Viral Proteins/metabolism ; Virus Replication
    Chemical Substances Viral Proteins
    Language English
    Publishing date 2021-02-08
    Publishing country England
    Document type Journal Article ; Research Support, N.I.H., Extramural ; Research Support, Non-U.S. Gov't
    ZDB-ID 2687154-3
    ISSN 2050-084X ; 2050-084X
    ISSN (online) 2050-084X
    ISSN 2050-084X
    DOI 10.7554/eLife.62261
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  7. Article: Architecture et biogenèse des organelles de réplication des virus à ARN de polarité positive.

    Bakhache, William / Couderc, Élodie / Neyret, Aymeric / Briant, Laurence

    Virologie (Montrouge, France)

    2019  Volume 23, Issue 3, Page(s) 160–175

    Abstract: ... viral replication. The formation of such compartments, which are genuine viral factories, induces morphological ... In this review, we provide a bird's eye view on the current knowledge of the architecture and virus-host ... The replication of viral pathogens relies on their ability to manipulate their host. Several steps ...

    Title translation Architecture and biogenesis of positive-stranded RNA virus replication organelles.
    Abstract The replication of viral pathogens relies on their ability to manipulate their host. Several steps of the infectious cycle require the hijacking of cellular membranes. Positive stranded RNA viruses replicating in the cytoplasm of their host reorganize cellular membranes. This leads to the formation of organelles, which host viral replication. The formation of such compartments, which are genuine viral factories, induces morphological modifications of the host cell, which vary depending on the pathogen. However, the molecular mechanisms underlying such a remodeling remain unclear. These mechanisms are subject to intense research since their formation is indispensable to viral multiplication and therefore represent an attractive therapeutic target. In this review, we provide a bird's eye view on the current knowledge of the architecture and virus-host interactions involved in the biogenesis of positive stranded RNA virus replication organelles.
    MeSH term(s) Host Microbial Interactions ; Organelles ; Positive-Strand RNA Viruses ; RNA ; Virus Replication/genetics
    Chemical Substances RNA (63231-63-0)
    Language French
    Publishing date 2019-09-02
    Publishing country France
    Document type Journal Article ; Review
    ZDB-ID 2118387-9
    ISSN 1950-6961 ; 1267-8694
    ISSN (online) 1950-6961
    ISSN 1267-8694
    DOI 10.1684/vir.2019.0779
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  8. Article ; Online: Epstein-Barr virus inactivates the transcriptome and disrupts the chromatin architecture of its host cell in the first phase of lytic reactivation.

    Buschle, Alexander / Mrozek-Gorska, Paulina / Cernilogar, Filippo M / Ettinger, Andreas / Pich, Dagmar / Krebs, Stefan / Mocanu, Bianca / Blum, Helmut / Schotta, Gunnar / Straub, Tobias / Hammerschmidt, Wolfgang

    Nucleic acids research

    2021  Volume 49, Issue 6, Page(s) 3217–3241

    Abstract: ... of its host cell upon induction of the viral lytic phase and prior to the onset of viral DNA replication ... processes that disrupt the architecture of host cellular chromatin and repress the cellular epigenome and ... Upon induction of EBV's lytic phase, the latently infected cells turn into a virus factory, a process that is ...

    Abstract Epstein-Barr virus (EBV), a herpes virus also termed HHV 4 and the first identified human tumor virus, establishes a stable, long-term latent infection in human B cells, its preferred host. Upon induction of EBV's lytic phase, the latently infected cells turn into a virus factory, a process that is governed by EBV. In the lytic, productive phase, all herpes viruses ensure the efficient induction of all lytic viral genes to produce progeny, but certain of these genes also repress the ensuing antiviral responses of the virally infected host cells, regulate their apoptotic death or control the cellular transcriptome. We now find that EBV causes previously unknown massive and global alterations in the chromatin of its host cell upon induction of the viral lytic phase and prior to the onset of viral DNA replication. The viral initiator protein of the lytic cycle, BZLF1, binds to >105 binding sites with different sequence motifs in cellular chromatin in a concentration dependent manner implementing a binary molar switch probably to prevent noise-induced erroneous induction of EBV's lytic phase. Concomitant with DNA binding of BZLF1, silent chromatin opens locally as shown by ATAC-seq experiments, while previously wide-open cellular chromatin becomes inaccessible on a global scale within hours. While viral transcripts increase drastically, the induction of the lytic phase results in a massive reduction of cellular transcripts and a loss of chromatin-chromatin interactions of cellular promoters with their distal regulatory elements as shown in Capture-C experiments. Our data document that EBV's lytic cycle induces discrete early processes that disrupt the architecture of host cellular chromatin and repress the cellular epigenome and transcriptome likely supporting the efficient de novo synthesis of this herpes virus.
    MeSH term(s) Binding Sites ; Cell Line ; Chromatin/chemistry ; Chromatin/metabolism ; Chromatin/virology ; DNA/metabolism ; Gene Expression Regulation ; Herpesvirus 4, Human/genetics ; Herpesvirus 4, Human/metabolism ; Herpesvirus 4, Human/physiology ; Humans ; Trans-Activators/metabolism ; Transcriptome
    Chemical Substances BZLF1 protein, Herpesvirus 4, Human ; Chromatin ; Trans-Activators ; DNA (9007-49-2)
    Language English
    Publishing date 2021-03-06
    Publishing country England
    Document type Journal Article ; Research Support, Non-U.S. Gov't
    ZDB-ID 186809-3
    ISSN 1362-4962 ; 1362-4954 ; 0301-5610 ; 0305-1048
    ISSN (online) 1362-4962 ; 1362-4954
    ISSN 0301-5610 ; 0305-1048
    DOI 10.1093/nar/gkab099
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    In stock of ZB MED Cologne/Königswinter

    Zs.A 1067: Show issues Location:
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  9. Article ; Online: Complex Genetic Architecture Underlies Regulation of Influenza-A-Virus-Specific Antibody Responses in the Collaborative Cross.

    Noll, Kelsey E / Whitmore, Alan C / West, Ande / McCarthy, Mary K / Morrison, Clayton R / Plante, Kenneth S / Hampton, Brea K / Kollmus, Heike / Pilzner, Carolin / Leist, Sarah R / Gralinski, Lisa E / Menachery, Vineet D / Schäfer, Alexandra / Miller, Darla / Shaw, Ginger / Mooney, Michael / McWeeney, Shannon / Pardo-Manuel de Villena, Fernando / Schughart, Klaus /
    Morrison, Thomas E / Baric, Ralph S / Ferris, Martin T / Heise, Mark T

    Cell reports

    2020  Volume 31, Issue 4, Page(s) 107587

    Abstract: Host genetic factors play a fundamental role in regulating humoral immunity to viral ... of these loci finds that they broadly affect the antibody response to IAV as well as other viruses. Candidate ... infection, including influenza A virus (IAV). Here, we utilize the Collaborative Cross (CC), a mouse genetic reference ...

    Abstract Host genetic factors play a fundamental role in regulating humoral immunity to viral infection, including influenza A virus (IAV). Here, we utilize the Collaborative Cross (CC), a mouse genetic reference population, to study genetic regulation of variation in antibody response following IAV infection. CC mice show significant heritable variation in the magnitude, kinetics, and composition of IAV-specific antibody response. We map 23 genetic loci associated with this variation. Analysis of a subset of these loci finds that they broadly affect the antibody response to IAV as well as other viruses. Candidate genes are identified based on predicted variant consequences and haplotype-specific expression patterns, and several show overlap with genes identified in human mapping studies. These findings demonstrate that the host antibody response to IAV infection is under complex genetic control and highlight the utility of the CC in modeling and identifying genetic factors with translational relevance to human health and disease.
    MeSH term(s) Host-Pathogen Interactions/genetics ; Humans ; Influenza, Human/genetics ; Virus Replication/genetics
    Keywords covid19
    Language English
    Publishing date 2020-03-13
    Publishing country United States
    Document type Journal Article ; Research Support, N.I.H., Extramural ; Research Support, Non-U.S. Gov't
    ZDB-ID 2649101-1
    ISSN 2211-1247 ; 2211-1247
    ISSN (online) 2211-1247
    ISSN 2211-1247
    DOI 10.1016/j.celrep.2020.107587
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  10. Article ; Online: Form follows function in geminiviral minichromosome architecture.

    Paprotka, Tobias / Deuschle, Kathrin / Pilartz, Marcel / Jeske, Holger

    Virus research

    2014  Volume 196, Page(s) 44–55

    Abstract: ... of viral multiplication with inactive/active replication and/or transcription. A quantitative approach ... A comprehensive survey on the viral minichromosomes of the begomoviruses Abutilon mosaic virus ... the conclusions for geminiviruses has been developed. Focussing on the distribution of topoisomers of viral ...

    Abstract A comprehensive survey on the viral minichromosomes of the begomoviruses Abutilon mosaic virus, tomato yellow leaf curl Sardinia virus, African cassava mosaic virus, Indian cassava mosaic virus (family Geminiviridae) during the course of infections in Nicotiana benthamiana is summarized. Using optimized one-dimensional and two-dimensional gel systems combined with blot hybridization and a standardized evaluation, discrete and heterogeneous virus-specific signals with different DNA forms were compared to trace functions of viral multiplication with inactive/active replication and/or transcription. A quantitative approach to compare the distantly related viruses during the course of infection with the aim to generalize the conclusions for geminiviruses has been developed. Focussing on the distribution of topoisomers of viral supercoiled DNA, which reflect minichromosomal stages, predominant minichromosomes with 12 nucleosomes, less with 13 nucleosomes and no with 11 nucleosomes were found. These results indicate that chromatin with only one open gap to bind transcription factors is the favourite form. The dynamics during infections in dependence on the experimental conditions is discussed with reference to the design of experiments for resistance breeding and molecular analyses.
    MeSH term(s) Base Sequence ; DNA, Circular/chemistry ; DNA, Circular/genetics ; DNA, Viral ; Geminiviridae/genetics ; Gene Order ; Genome, Viral ; Molecular Sequence Data ; Plant Diseases/virology ; Plant Leaves/virology ; Nicotiana/virology
    Chemical Substances DNA, Circular ; DNA, Viral
    Language English
    Publishing date 2014-11-13
    Publishing country Netherlands
    Document type Journal Article ; Research Support, Non-U.S. Gov't
    ZDB-ID 605780-9
    ISSN 1872-7492 ; 0168-1702
    ISSN (online) 1872-7492
    ISSN 0168-1702
    DOI 10.1016/j.virusres.2014.11.004
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