Warning: Undefined array key "mm" in /www/wwwroot/www.ai-bt.com/si.php on line 10 Deprecated: trim(): Passing null to parameter #1 ($string) of type string is deprecated in /www/wwwroot/www.ai-bt.com/si.php on line 10 Molecular mechanisms driving respiratory syncytial virus assembly.

Literature DB >> 23252497

Molecular mechanisms driving respiratory syncytial virus assembly.

Abstract

Respiratory syncytial virus is a single-stranded RNA virus in the Paramyxoviridae family that preferentially assembles and buds from the apical surface of polarized epithelial cells, forming filamentous structures that contain both viral proteins and the genomic RNA. Recent studies have described both viral and host factors that are involved in ribonucleoprotein assembly and trafficking of viral proteins to the cell surface. At the cell surface, viral proteins assemble into filaments that probably require interactions between viral proteins, host proteins and the cell membrane. Finally, a membrane scission event must occur to release the free virion. This article will review the recent literature describing the mechanisms that drive respiratory syncytial virus assembly and budding.

Entities: CellLine Chemical Disease Gene Species

Mesh：

Substances：

Year: 2013 PMID： 23252497 PMCID： PMC3577052 DOI： 10.2217/fmb.12.132

Source DB: PubMed Journal: Future Microbiol ISSN： 1746-0913 Impact factor: 3.165

76 in total

1. The human respiratory syncytial virus matrix protein is required for maturation of viral filaments.

Authors: Ruchira Mitra; Pradyumna Baviskar; Rebecca R Duncan-Decocq; Darshna Patel; Antonius G P Oomens
Journal: J Virol Date: 2012-02-08 Impact factor: 5.103

2. Cooperativity of actin and microtubule elements during replication of respiratory syncytial virus.

Authors: Nicole L Kallewaard; Amber L Bowen; James E Crowe
Journal: Virology Date: 2005-01-05 Impact factor: 3.616

3. Measles viruses with altered envelope protein cytoplasmic tails gain cell fusion competence.

Authors: T Cathomen; H Y Naim; R Cattaneo
Journal: J Virol Date: 1998-02 Impact factor: 5.103

Review 4. Respiratory syncytial virus disease: update on treatment and prevention.

Authors: Leonard R Krilov
Journal: Expert Rev Anti Infect Ther Date: 2011-01 Impact factor: 5.091

Review 5. Membrane budding.

Authors: James H Hurley; Evzen Boura; Lars-Anders Carlson; Bartosz Różycki
Journal: Cell Date: 2010-12-10 Impact factor: 41.582

6. Evidence that the respiratory syncytial virus polymerase complex associates with lipid rafts in virus-infected cells: a proteomic analysis.

Authors: Terence P McDonald; Andrew R Pitt; Gaie Brown; Helen W McL Rixon; Richard J Sugrue
Journal: Virology Date: 2004-12-05 Impact factor: 3.616

Review 7. Subversion of the actin cytoskeleton during viral infection.

Authors: Matthew P Taylor; Orkide O Koyuncu; Lynn W Enquist
Journal: Nat Rev Microbiol Date: 2011-04-27 Impact factor: 60.633

8. Evidence that selective changes in the lipid composition of raft-membranes occur during respiratory syncytial virus infection.

Authors: Dawn Su-Yin Yeo; Robin Chan; Gaie Brown; Li Ying; Richard Sutejo; Jim Aitken; Boon-Huan Tan; Markus R Wenk; Richard J Sugrue
Journal: Virology Date: 2009-03-30 Impact factor: 3.616

9. Sorting of the respiratory syncytial virus matrix protein into detergent-resistant structures is dependent on cell-surface expression of the glycoproteins.

Authors: Gary Henderson; Jillian Murray; Robert P Yeo
Journal: Virology Date: 2002-09-01 Impact factor: 3.616

10. Isolation and characterisation of potential respiratory syncytial virus receptor(s) on epithelial cells.

Authors: Rajneesh Malhotra; Malcolm Ward; Helen Bright; Richard Priest; Martyn R Foster; Michael Hurle; Eddie Blair; Michael Bird
Journal: Microbes Infect Date: 2003-02 Impact factor: 2.700

9 in total

Review 1. An overview of process intensification and thermo stabilization for upscaling of Peste des petits ruminants vaccines in view of global control and eradication.

Authors: Mousumi Bora; Raja Wasim Yousuf; Pronab Dhar; Rabindra Prasad Singh
Journal: Virusdisease Date: 2018-05-17

2. RSV glycoprotein and genomic RNA dynamics reveal filament assembly prior to the plasma membrane.

Authors: Daryll Vanover; Daisy V Smith; Emmeline L Blanchard; Eric Alonas; Jonathan L Kirschman; Aaron W Lifland; Chiara Zurla; Philip J Santangelo
Journal: Nat Commun Date: 2017-09-22 Impact factor: 14.919

3. Caveolae provide a specialized membrane environment for respiratory syncytial virus assembly.

Authors: Alexander Ludwig; Tra Huong Nguyen; Daniel Leong; Laxmi Iyer Ravi; Boon Huan Tan; Sara Sandin; Richard J Sugrue
Journal: J Cell Sci Date: 2017-02-02 Impact factor: 5.285

4. Human Respiratory Syncytial Virus Infection in a Human T Cell Line Is Hampered at Multiple Steps.

Authors: Ricardo de Souza Cardoso; Rosa Maria Mendes Viana; Brenda Cristina Vitti; Ana Carolina Lunardello Coelho; Bruna Laís Santos de Jesus; Juliano de Paula Souza; Marjorie Cornejo Pontelli; Tomoyuki Murakami; Armando Morais Ventura; Akira Ono; Eurico Arruda
Journal: Viruses Date: 2021-02-02 Impact factor: 5.048

5. Virus Hijacks Host Proteins and Machinery for Assembly and Budding, with HIV-1 as an Example.

Authors: Chih-Yen Lin; Aspiro Nayim Urbina; Wen-Hung Wang; Arunee Thitithanyanont; Sheng-Fan Wang
Journal: Viruses Date: 2022-07-13 Impact factor: 5.818

Review 6. Impact of genetic polymorphisms related to innate immune response on respiratory syncytial virus infection in children.

Authors: Laura Elena Córdova-Dávalos; Alicia Hernández-Mercado; Claudia Berenice Barrón-García; Augusto Rojas-Martínez; Mariela Jiménez; Eva Salinas; Daniel Cervantes-García
Journal: Virus Genes Date: 2022-09-09 Impact factor: 2.198