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pubmed:abstractText |
A chemiluminescent in situ hybridization assay that could combine the sensitivity of chemiluminescent substrates, the specificity of digoxigenin-labeled probes, and the spatial morphological resolution and localization of the signal of the in situ hybridization was developed for the detection of cytomegalovirus (CMV) DNA. CMV DNA in cultured CMV-infected cells and in different clinical samples (tissue sections and cellular smears) was detected using digoxigenin-labeled probes constructed in our laboratory that were immunoenzymatically visualized employing anti-digoxigenin Fab fragments labeled with alkaline phosphatase and the chemiluminescent adamantil-1,2-dioxetane phenyl phosphate substrate for alkaline phosphatase. The luminescent signal from the hybrid formation was detected, analyzed, and measured with a high performance, low light level imaging luminograph apparatus connected to an optical microscope and to a personal computer for quantitative image analysis. Increasing values of emitted photons per second per infected cell, corresponding to the presence of hybridized CMV DNA, could be found in infected cells fixed at various times after infection, following the CMV replication cycle. When the assay was performed on different clinical samples from patients with acute CMV infections, CMV DNA was detected in all positive samples tested, both in cellular samples and in frozen and paraffin-embedded tissue sections, proving specific and sensitive. The chemiluminescent in situ hybridization assay developed in this work can be a useful tool for a sensitive and specific diagnosis of viral infection and can be easily adapted to detect and study any specific gene sequence inside the cells. The assay may also be promising for an estimation and quantification of nucleic acids present in tissue samples or cellular smears and for imaging gene expression in cells.
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