Publication:
Proteomic analysis of an Aedes albopictus cell line infected with Dengue serotypes 1 and 3 viruses

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tm-ar-natthane-2011.pdf (1.6 MB)

Accepted Date

2011-06-18

Issued Date

2011-07-18

Copyright Date

2011

Resource Type

Research Article

Language

eng

ISSN

1756-3305 (electronic)

Rights

Mahidol University

Rights Holder(s)

BioMed Central

Bibliographic Citation

Patramool S, Surasombatpattana P, Luplertlop N, Sévéno M, Choumet V, Thomas F, et al. Proteomic analysis of an Aedes albopictus cell line infected with Dengue serotypes 1 and 3 viruses. Parasit Vectors. 2011 Jul 18;4:138.

Suggested Citation

Sirilaksana Patramool, Pornapat Surasombatpattana, Natthanej Luplertlop, Sévéno, Martial, Choumet, Valérie, Thomas, Frédéric, Missé, Dorothée Proteomic analysis of an Aedes albopictus cell line infected with Dengue serotypes 1 and 3 viruses. Patramool S, Surasombatpattana P, Luplertlop N, Sévéno M, Choumet V, Thomas F, et al. Proteomic analysis of an Aedes albopictus cell line infected with Dengue serotypes 1 and 3 viruses. Parasit Vectors. 2011 Jul 18;4:138.. Retrieved from: https://repository.li.mahidol.ac.th/handle/123456789/687

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Title

Proteomic analysis of an Aedes albopictus cell line infected with Dengue serotypes 1 and 3 viruses

Author(s)

Sirilaksana Patramool
 Pornapat Surasombatpattana
 Natthanej Luplertlop
 Sévéno, Martial
 Choumet, Valérie
 Thomas, Frédéric
 Missé, Dorothée

Corresponding Author(s)

Missé, Dorothée

Other Contributor(s)

Mahidol University. Faculty of Tropical Medicine. Department of Tropical Hygiene.

Abstract

BACKGROUND: Proteomic analysis was performed to identify proteins regulated during infection by Dengue serotypes 1 and 3 in an Aedes albopictus cell line. The potential of these viruses to cause severe disease at primary infection is of interest although few studies have been performed with these two Dengue serotypes. RESULTS: The most relevant observation of our study is the significant overexpression of proteins involved in the cellular stress response and the glycolysis pathway after 48 hours of infection. Viral infection activates the translation of some host genes, which may result in stress due to responses involving unfolded proteins. CONCLUSIONS: Therefore, the oxidation reduction and glycolytic mechanisms could participate in the antiviral response against Dengue virus. The results of our study should help to improve our knowledge of the virus-mosquito interaction at a cellular level with the aim of designing efficient strategies for the control of Dengue virus.

Keyword(s)

Aedes
 Dengue virus
 Insect proteins
 Open Access article

Availability

URI

https://repository.li.mahidol.ac.th/handle/123456789/687

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TM-Article