1,720,982 research outputs found
Andamento dell'infezione da virus Maedi Visna, monitorato mediante test sierologici, in agnelli nati da pecore infettate sperimentalmente
No full textIn situ PCR-associated immunohistochemistry identifies cell types harbouring the Maedi-Visna virus genome in tissue sections of sheep infected naturally
No full textMaedi-Visna virus (MVV) is a non-oncogenic ovine lentivirus whose main targets are the lung, mammary gland, central nervous system and joints. Cells of the monocyte-macrophage lineage are the major viral target in vivo; other cell types are infected as well, as indicated by several studies, largely based on the examination of animals infected experimentally or on the in vitro infection of cultured cells. Aim of this study was to investigate the cell types harbouring the viral genome in lungs and mammary glands of animals infected naturally by using in situ PCR-associated immunohistochemistry. Several types of cells were infected: in the lung type I and II pneumocytes, interstitial and alveolar macrophages, endothelial cells and fibroblast-like cells. Epithelial cells, macrophages, endothelial cells and fibroblast-like cells were infected also in the mammary gland. These results indicate that the in situ PCR, a powerful technique which combines the high sensitivity of the conventional PCR with the ability to localise the cellular targets within a tissue, can be improved further by its association with the immunohistochemistry. This can be especially advantageous when the presence and localisation of the target sequence are investigated in the context of a tissue with its complex cellular organisation
Utilizzo della tecnica di IS-PCR associata ad immunoistochimica per l'identificazione di popolazioni cellulari infette da Maedi-Visna Virus
No full textEvaluation of an ELISA to detect antibodies to maedi-visna virus in individual and pooled samples of milk from sheep
No full textAn elisa was used to detect antibodies to maedi-visna virus in samples of serum and milk from individual sheep; the results obtained indicated that the elisa can be used to detect antibodies in milk. The assay was also applied to samples of bulk-tank milk; a standard curve was created and used to calculate the seroprevalence of maedi-visna in 11 flocks of sheep and the results were compared with the results obtained by applying the elisa to individual serum samples. There was good agreement between the seroprevalences calculated from the standard curve for bulk-tank milk and from the individual serum sample
Applicazione della Polymerase chain reaction (PCR) per la diagnosi di infezione da herpesvirus nel cane
No full textEvaluation of a new ELISA kit to detect antibodies against Maedi Visna virus (MVV) in ovine milk
No full textAntigenic variability of ovine lentivirus isolated in Italy
No full textSmall Ruminant Lentiviruses (SRLV) are a group of non-oncogenic retroviruses including Maedi-Visna virus (MVV) and Caprine Arthritis-Encephalitis virus (CAEV), which cause a chronic, multisystemic disease in sheep and goats, respectively. Phylogenetic analyses of SRLV are based in most cases on partial pol sequences. Several reports indicate that the species specificity of these viruses is not as strict as previously thought; MVV-like viruses have been found in goat populations and vice versa. Recently, the sequencing of some Italian ovine isolates has shown the presence of a new cluster more similar to classical caprine isolates (CAEV-like). Few data are available on the variability of structural proteins involved in the antibody response of infected animals. In this study, the gag gene of two genetically distinct ovine isolates, namely the MVV-like It-561 and the CAEV-like It-Pi1, was sequenced and the epitopes of matrix protein (MA) were mapped. Recombinant MAs and their subunits from both ovine aforementioned strains were tested against a panel of sheep and goat sera. Reactive epitopes were found in all three subunits of MA, although the central subunit displayed a more consistent reactivity. Epitope mapping of this subunit demonstrated that the amino acid sequence of at least one immunodominant epitope was quite different in the two strains. This antigenic variability may affect the sensitivity of a single strain-based immunoassay and suggests that both SRLV genotypes should be used in the development of future diagnostic tests, to avoid viral strain selection during the eradication programmes
Genetic and antigenic characterization of the matrix protein of two genetically distinct ovine lentiviruses
No full textSmall Ruminant Lentiviruses (SRLV) are a group of non-oncogenic retroviruses including Maedi-Visna virus (MVV) and Caprine Arthritis-Encephalitis virus (CAEV), which cause a chronic, multisystemic disease in sheep and goats, respectively. Phylogenetic analyses of SRLV are based in most cases on partial pol sequences. Several reports indicate that the species specificity of these viruses is not as strict as previously thought; MVV-like viruses have been found in goat populations and vice versa. Recently, the sequencing of some Italian ovine isolates has shown the presence of a new cluster more similar to classical caprine isolates (CAEV-like). Few data are available on the variability of structural proteins involved in the antibody response of infected animals. In this study, the gag gene of two genetically distinct ovine isolates, namely the MVV-Iike It-561 and the CAEV-like It-Pil, was sequenced and the epitopes of matrix protein (MA) were mapped. Recombinant MAs and their subunits from both ovine aforementioned strains were tested against a panel of sheep and goat sera. Reactive epitopes were found in all three subunits of MA, although the central subunit displayed a more consistent reactivity. Epitope mapping of this subunit demonstrated that the amino acid sequence of at least one immunodominant epitope was quite different in the two strains. This antigenic variability may affect the sensitivity of a single strain-based immunoassay and suggests that both SRLV genotypes should be used in the development of future diagnostic tests, to avoid viral strain selection during the eradication programmes. (c) 2004 Elsevier B.V. All rights reserved
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