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Mosquito Cells (mosquito + cell)

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Life Sciences100%

Selected Abstracts

Mosquito cells bind and replicate hepatitis C virus

JOURNAL OF MEDICAL VIROLOGY, Issue 1 2001
Raphaële Germi
Abstract Several studies have demonstrated some hepatitis C virus (HCV) replication in lymphocyte and hepatocyte cell lines such as in African green monkey Vero cells. The aim of the present study was to select other cell lines able to bind and replicate HCV. Human hepatoma PLC/PRF/5 cells, human lymphoma Namalwa cells, Vero and mosquito AP61 cells were inoculated with HCV-positive plasma, washed six times and examined for the presence of the viral genome at different times post infection, using an RT-PCR method. Binding of HCV to cells was estimated by HCV RNA detection in cells 2 hr after inoculation and in the last wash of these cells. Successive virus passages in cells were carried out. All the cells studied were able to bind HCV but only AP61 and Vero cells provided evidence of replication and production of infectious virus: virus RNA was detected during 28 days post-infection in four successive virus passages. CD81 molecules, a putative HCV receptor, were detected by cytofluorometric analysis. Vero cells express CD81 molecules whereas these molecules were not detected on AP61 cells. It is suggested that other receptors are involved in HCV binding to Vero and AP61 cells. J. Med. Virol. 64:6,12, 2001. © 2001 Wiley-Liss, Inc. [source]

Validation of novel promoter sequences derived from two endogenous ubiquitin genes in transgenic Aedes aegypti

INSECT MOLECULAR BIOLOGY, Issue 4 2010
M. A. E. Anderson
Abstract To date, only a limited number of promoter sequences have been described to drive transgene expression in the disease vector Aedes aegypti. We sought to increase this repertoire by characterizing the ability of upstream sequences derived from the Ae. aegypti UbL40 and polyubiquitin genes to drive the expression of marker proteins. Both genomic fragments were able to drive robust expression of luciferase in cultured mosquito cells. Following Mos1-transformation, the UbL40 promoter drove strong expression of a fluorescent marker in early larvae and in ovaries, while the polyubiquitin promoter drove robust EGFP expression in all stages of development, including constitutive expression throughout the midgut. These promoter fragments provide two new expression profiles for future Ae. aegypti genetic experiments. [source]

A p38 MAP kinase regulates the expression of the Aedes aegypti defensin gene in mosquito cells

INSECT MOLECULAR BIOLOGY, Issue 4 2007
R. Chen-Chih Wu
Abstract An Aedes aegypti p38 (Aap38) mitogen-activated protein kinase was isolated and characterized in this study. The 1761 bp long full-length Aap38 cDNA encodes an open reading frame of 358 amino acids, exhibiting characteristics of Thr/Tyr dual kinase specificities. We showed that bacteria activate both the kinase activity of Aap38 and the expression of the Aedes aegypti defensin A (AaDefA) gene, which is inhibited by a p38 kinase inhibitor SB203580 and dsRNA interference of Aap38. A similar result was obtained by a reporter construct containing the AaDefA regulatory region linked to Ds-Red. The lipopolysaccharide-activated reporter gene was inhibited by SB203580. In addition, Aap38 translocated to the nucleus after lipopolysaccharide induction. Our findings suggest that the p38 protein kinase pathway is involved in the antibacterial peptide synthesis in mosquitoes. [source]

The mosquito ribonucleotide reductase R2 gene: ultraviolet light induces expression of a novel R2 variant with an internal amino acid deletion

INSECT MOLECULAR BIOLOGY, Issue 3 2004
G. Jayachandran
Abstract Using RT-PCR, we examined expression of the ribonucleotide reductase R2 subunit (RNR-R2) in Aedes albopictus mosquito cells after treatment with ultraviolet light (UV). In control cells, a predominant band at 1.2 kb corresponded to the full-length cDNA. A smaller 650 bp band was unique to UV-treated cells. Sequence analysis showed that the 650 bp band encoded a protein with an internal deletion of 179 amino acids, relative to Ae. albopictus RNR-R2. The N-terminal twenty amino acids were identical between AalRNR-R2 and Aal,R2; downstream of the deletion, the proteins differed at only four residues. In Aal,R2, the internal deletion spanned five residues critical to RNR-R2 enzymatic activity, including a key tyrosine residue that generates an essential free radical. The full-length 46 kDa and truncated 25 kDa RNR-R2 proteins were shown to be expressed on Western blots, and to differ in their subcellular localization. Similarly, expression of the two proteins was differentially regulated during the cell cycle, and expression of Aal,R2 predominated after UV treatment. Aal,R2 resembled a human RNR-R2 variant called p53R2, which was induced by agents that damage DNA. As was the case with p53R2 and its antisense RNA, levels of Aal,R2 were diminished after treatment of mosquito cells with RNAi corresponding to p53 from Drosophila melanogaster. Examination of the AalRNR-R2 homologue in the Anopheles gambiae genome suggested that Aal,R2 resulted from precise splicing between Exons 1, 4 and 5, eliminating Exons 2 and 3. The likelihood that Aal,R2 is a non-enzymatic, functional participant in DNA metabolism is suggested by enhancement of DNA repair in an in vitro system and by the presence of a similar gene (rnr4) in yeast. [source]