Luiz F C Zonetti 1,2 , Milena C Coutinho 2 , Alexandre S de Araujo 1 Show Affiliations »
Abstract
BACKGROUND: At the present time, dengue is one of the most important arboviruses affecting man, becoming a serious global public health problem, especially in subtropical and tropical countries, where environmental conditions favor the development and proliferation of the mosquito Aedes aegypti. Dengue is caused by a type of flavivírus, which is an enveloped virus of spherical geometry. Nowadays, it is one of the diseases with the highest incidence in Brazil, reaching the population of all states, regardless of social class. Several papers address the molecular aspects of infection of human cell by the viruses, which are reviewed in this work. CONCLUSION: Analyzing the three-dimensional structures of the fusion peptide of dengue virus protein E, we observed that the fusion peptide presents a region rich in hydrophobic residues and a "collar" of charged, polar residues. Probably, this hydrophilic collar plays an important role in the fusion process between the dengue virus and the cell membrane. In order for this disease to cease being a serious global public health problem, we must deepen our knowledge about the fusion process between the dengue virus and the cell membrane through further experimental and, especially, computational studies to find ways to inhibit the mechanism of virus infection. Copyright© Bentham Science Publishers; For any queries, please email at epub@benthamscience.org.
BACKGROUND: At the present time, dengue is one of the most important arboviruses affecting man , becoming a serious global public health problem, especially in subtropical and tropical countries, where environmental conditions favor the development and proliferation of the mosquito Aedes aegypti . Dengue is caused by a type of flavivírus, which is an enveloped virus of spherical geometry. Nowadays, it is one of the diseases with the highest incidence in Brazil, reaching the population of all states, regardless of social class. Several papers address the molecular aspects of infection of human cell by the viruses, which are reviewed in this work. CONCLUSION: Analyzing the three-dimensional structures of the fusion peptide of dengue virus protein E, we observed that the fusion peptide presents a region rich in hydrophobic residues and a "collar" of charged, polar residues. Probably, this hydrophilic collar plays an important role in the fusion process between the dengue virus and the cell membrane. In order for this disease to cease being a serious global public health problem, we must deepen our knowledge about the fusion process between the dengue virus and the cell membrane through further experimental and, especially, computational studies to find ways to inhibit the mechanism of virus infection . Copyright© Bentham Science Publishers; For any queries, please email at epub@benthamscience.org.
Entities: Disease
Species
Keywords:
Dengue virus; fusion peptide; fusion process; molecular interactions; protein E; viral infection process.
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Year: 2018
PMID: 29984641 DOI: 10.2174/0929866525666180709115506
Source DB: PubMed Journal: Protein Pept Lett ISSN: 0929-8665 Impact factor: 1.890