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Zimmerman SB 《Journal of structural biology》2002,138(3):4180-206
The DNA of growing cells of Escherichia coli occurs in one or a few lobular bodies known as nucleoids. Upon exposure to chloramphenicol, the nucleoids assume compact, rounded forms ("cm-nucleoids") that have been described as ring- or sphere-shaped. Multiple views of single cells or spheroplasts, however, support a different, curved toroid shape for cm-nucleoids. The multiple views were obtained either by DNA fluorescence imaging as the cells or spheroplasts reoriented in liquid medium or by optical sectioning using phase-contrast or fluorescence imaging of immobilized cells. The curved toroid shape is consistent with electron microscope images of thin sections of chloramphenicol-treated cells. The relationship of this structure to active and inactive nucleoids and to the smaller toroidal forms made by in vitro DNA condensation is discussed. 相似文献
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Zheng J Li Z Wu A Zhou H Bai H Song Y 《Biochemical and biophysical research communications》2002,299(5):910-915
The interaction of DNA with Tris(1,10-phenanthroline) cobalt(III) was studied by means of atomic force microscopy. Changes in the morphologies of DNA complex in the presence of ethanol may well indicate the crucial role of electrostatic force in causing DNA condensation. With the increase of the concentration of ethanol, electrostatic interaction is enhanced corresponding to a lower dielectric constant. Counterions condense along the sugar phosphate backbone of DNA when epsilon is lowered and the phosphate charge density can thus be neutralized to the level of DNA condensation. Electroanalytical measurement of DNA condensed with Co(phen)(3)(3+) in ethanol solution indicated that intercalating reaction remains existing. According to both the microscopic and spectroscopic results, it can be found that no secondary structure transition occurs upon DNA condensing. B-A conformation transition takes place at more than 60% ethanol solution. 相似文献
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Martin AL Davies MC Rackstraw BJ Roberts CJ Stolnik S Tendler SJ Williams PM 《FEBS letters》2000,480(2-3):106-112
Dynamic real time assembly of toroidal and rod-like DNA condensates has been visualised using atomic force microscopy. Imaging has been conducted in an aqueous environment allowing the visualisation of hydrated, pegylated-polymer DNA condensates undergoing dynamic structural movement and conformational change. A major hurdle in the field of gene delivery is cellular transfection and the subsequent transfer of condensed genetic material to the cell nucleus. An increased understanding of the process of DNA condensation will aid the development and optimisation of gene delivery vectors. 相似文献
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