Background: This study investigated the relationship between chromatin compactness, which is directly related to chromatin condensation, and DAPI uptake. Materials and Methods For the structural characterization of in situ chromatin, we used fluorescence microscopy and differential scanning calorimetry on calf thymocytes. The compactness of nuclear chromatin was altered by permeabilizing native cells with NP40 detergent. A time-dependent analysis of detergent effects was performed by acquiring nuclear images at different time intervals after permeabilization. In order to compare nuclei of different sizes, we implemented a geometrical correction in the calculation of the integrated fluorescence intensity. For a quantitative evaluation of chromatin condensation we introduced two new parameters, "average chromatin packing ratio" and "average dye spatial density."
Results: This approach allowed us to estimate the effects of NP40 detergent at the level of in situ chromatin. Detergent effects could be modulated by changing the ionic composition of buffer. Moreover, changes of chromatin condensation induced by detergent were inversely related to modifications of nuclear volume.
Conclusions: The combination of complementary information obtained by fluorescence microscopy, supported by a proper geometrical correction, and differential calorimetry allowed us to interpret the patterns of fluorescence intensities inside the nucleus in terms of chromatin structure.
Copyright 2001 Wiley-Liss, Inc.