Chromatin Condensation Is Confined to the Loop and Involves an All-or-None Structural Change

Using differential scanning calorimetry in combination with pulsed field gel electrophoresis, we relate here the changes in the thermal profile of rat liver nuclei induced by very mild digestion of chromatin by endogenous nuclease with the chain length distribution of the DNA fragments. The enthalpy...

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Bibliographic Details
Published in:Biophysical journal 1999-11, Vol.77 (5), p.2725-2735
Main Authors: Balbi, Cecilia, Sanna, Paola, Barboro, Paola, Alberti, Ingles, Barbesino, Marta, Patrone, Eligio
Format: Article
Language:English
Subjects:
Animals
Biochemistry
Chromatin - chemistry
Chromatin - genetics
Chromatin - metabolism
Chromatin Assembly and Disassembly - drug effects
Deoxyribonucleases - metabolism
Digestive system
DNA - chemistry
DNA - metabolism
Heterochromatin - chemistry
Heterochromatin - genetics
Heterochromatin - metabolism
Liver
Liver - cytology
Male
Protein Folding - drug effects
Protein Stability - drug effects
Rats
Rodents
Spermine - pharmacology
Temperature
Thermodynamics
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Summary:Using differential scanning calorimetry in combination with pulsed field gel electrophoresis, we relate here the changes in the thermal profile of rat liver nuclei induced by very mild digestion of chromatin by endogenous nuclease with the chain length distribution of the DNA fragments. The enthalpy of the endotherm at 106°C, which reflects the denaturation of the heterochromatic domains, decreases dramatically after the induction of a very small number of double-strand breaks per chromosome; the thermal transition disappears when the loops have undergone on average one DNA chain scission event. Quantitative analysis of the experimental data shows that the loop behaves like a topologically isolated domain. Also discussed is the process of heterochromatin formation, which occurs according to an all-or-none mechanism. In the presence of spermine, a strong condensation agent, only the loops that have undergone one break are able to refold, in confirmation of the extremely cooperative nature of the transition. Furthermore, our results suggest a relationship between the states that give rise to the endotherms at 90°C and 106°C and the morphologies referred to as class II and class III in a previous physicochemical study of the folding of chromatin fragments (Widom, 1986. J. Mol. Biol. 190:411–424) and support the view that the overall process of condensation follows a sequential (two-step) pathway.
ISSN:0006-3495
1542-0086
DOI:10.1016/S0006-3495(99)77106-7