Restriction Endonucleases (REs) may recognize, cleave and remove DNA from fixed chromatin producing specific chromosome banding patterns. However, the modifications produced in the chromatin fibre ...are not easy to evaluate and compare. The aim of the present investigation was to visualize differences resulting in the texture of the chromatin fibre from metaphase chromosomes after each digestion using digital image analysis (DIA) facilities. To this purpose, metaphase chromosomes derived from a L-929 mouse cell line were digested with different REs (AluI, HpaII and HaeIII).
Since light microscopy does not permit the observation of the chromatin fibre, DIA was performed on digitalized images of metaphase chromosomes under electron microscopy. The application of a LUT (Look Up Table) within the DIA software assigns a colour to each grey level of a digital image. The results obtained using a particular LUT, which permits the discrimination of specific chromatin fibre phenotypes resulting from each digestion, are reported and compared with those obtained under the light microscope.
Restriction Endonucleases (REs) may recognize, cleave and remove DNA from fixed chromatin producing specific chromosome banding patterns. However, the modifications produced in the chromatin fibre ...are not easy to evaluate and compare. The aim of the present investigation was to visualize differences resulting in the texture of the chromatin fibre from metaphase chromosomes after each digestion using digital image analysis (DIA) facilities. To this purpose, metaphase chromosomes derived from a L-929 mouse cell line were digested with different REs (
AluI,
HpaII and
HaeIII).
Since light microscopy does not permit the observation of the chromatin fibre, DIA was performed on digitalized images of metaphase chromosomes under electron microscopy. The application of a LUT (Look Up Table) within the DIA software assigns a colour to each grey level of a digital image. The results obtained using a particular LUT, which permits the discrimination of specific chromatin fibre phenotypes resulting from each digestion, are reported and compared with those obtained under the light microscope.
Fluorescence in situ hybridization (FISH) allows detection of the intercellular heterogeneity of C-ERB-B2 gene amplification in uncultured breast cancer cells. Nevertheless, because high levels of ...amplification result in coalescence of signals, direct microscopy quantification is restricted to cells wih low levels of amplification or with dispersed signals. A methodology of digital image analysis, using surface and grey-level FISH signals as parameters that permit a rapid, objective, and accurate estimation of gene copy number, is presented. This procedure is independent of the signal overlapping and results in a more accurate quantification and characterization of tumor cell heterogeneity.
Fluorescence in situ hybridization (FISH) allows detection of the intercellular heterogeneity of C-ERB-B
2 gene amplification in uncultured breast cancer cells. Nevertheless, because high levels of ...amplification result in coalescence of signals, direct microscopy quantification is restricted to cells with low levels of amplification or with dispersed signals. A methodology of digital image analysis, using surface and grey-level FISH signals as parameters that permit a rapid, objective, and accurate estimation of gene copy number, is presented. This procedure is independent of the signal overlapping and results in a more accurate quantification and characterization of tumor cell heterogeneity.