Add to ORKGDNA is known to be a mechanically and thermally stable structure. In its double stranded form it is densely packed within the cell nucleus and is thermo-resistant up to 70 °C. In contrast, we found a sudden loss of cell nuclei integrity at relatively moderate temperatures ranging from 45 to 55 °C. In our study, suspended cells held in an optical double beam trap were heated under controlled conditions while monitoring the nuclear shape. At specific critical temperatures, an irreversible sudden shape transition of the nuclei was observed. These temperature induced transitions differ in abundance and intensity for various normal and cancerous epithelial breast cells, which clearly characterizes different cell types. Our results show that temp...
Using mouse erythroleukemia cells we performed a comprehensive morphological and biochemical study o...
The effect of ionising radiation on cells can be modulated by several physico-chemical factors. The ...
The nuclear matrix organizes nuclear DNA into operational domains in which DNA is undergoing replica...
DNA is known to be a mechanically and thermally stable structure. In its double stranded form it is ...
Understanding the physical mechanisms governing nuclear mechanics is important as it can impact gene...
The helical structure of double-stranded DNA is destabilized by increasing temperature. Above a crit...
Using a technique to detect changes in DNA supercoiling which allows one to visualize both DNA unwin...
Cells need to preserve genome integrity despite varying cellular and physical states. p53, the guard...
Purpose: Exposure of human cells to heat leads to denaturation and aggregation of proteins. Within t...
DNA damage (putatively strand breaks) from ionizing radiation inhibits the ability of intercalating ...
Upon temperature changes, we observe a systematic shift of creep compliance curves J (t) for single ...
Using confocal laser scanning microscope and a monoclonal antibody we have examined by means of indi...
Exposure of cells to hyperthermic temperatures (43° to 48°C) results in an increase of the total pr...
Using mouse erythroleukemia cells we performed a comprehensive morphological and biochemical study o...
The effect of ionising radiation on cells can be modulated by several physico-chemical factors. The ...
The nuclear matrix organizes nuclear DNA into operational domains in which DNA is undergoing replica...
DNA is known to be a mechanically and thermally stable structure. In its double stranded form it is ...
Understanding the physical mechanisms governing nuclear mechanics is important as it can impact gene...
The helical structure of double-stranded DNA is destabilized by increasing temperature. Above a crit...
Using a technique to detect changes in DNA supercoiling which allows one to visualize both DNA unwin...
Cells need to preserve genome integrity despite varying cellular and physical states. p53, the guard...
Purpose: Exposure of human cells to heat leads to denaturation and aggregation of proteins. Within t...
DNA damage (putatively strand breaks) from ionizing radiation inhibits the ability of intercalating ...
Upon temperature changes, we observe a systematic shift of creep compliance curves J (t) for single ...
Using confocal laser scanning microscope and a monoclonal antibody we have examined by means of indi...
Exposure of cells to hyperthermic temperatures (43° to 48°C) results in an increase of the total pr...
Using mouse erythroleukemia cells we performed a comprehensive morphological and biochemical study o...
The effect of ionising radiation on cells can be modulated by several physico-chemical factors. The ...
The nuclear matrix organizes nuclear DNA into operational domains in which DNA is undergoing replica...