Fundamental structural units of the Escherichia coli nucleoid revealed by atomic force microscopy |
| |
Authors: | Kim Joongbaek Yoshimura Shige H Hizume Kohji Ohniwa Ryosuke L Ishihama Akira Takeyasu Kunio |
| |
Institution: | Laboratory of Plasma Membrane and Nuclear Signaling, Graduate School of Biostudies, Kyoto University, Kitashirakawa Oiwake-cho, Sakyo-ku, Kyoto 606-8502, Japan. |
| |
Abstract: | A small container of several to a few hundred µm3 (i.e. bacterial cells and eukaryotic nuclei) contains extremely long genomic DNA (i.e. mm and m long, respectively) in a highly organized fashion. To understand how such genomic architecture could be achieved, Escherichia coli nucleoids were subjected to structural analyses under atomic force microscopy, and found to change their structure dynamically during cell growth, i.e. the nucleoid structure in the stationary phase was more tightly compacted than in the log phase. However, in both log and stationary phases, a fundamental fibrous structure with a diameter of ~80 nm was found. In addition to this ‘80 nm fiber’, a thinner ‘40 nm fiber’ and a higher order ‘loop’ structure were identified in the log phase nucleoid. In the later growth phases, the nucleoid turned into a ‘coral reef structure’ that also possessed the 80 nm fiber units, and, finally, into a ‘tightly compacted nucleoid’ that was stable in a mild lysis buffer. Mutant analysis demonstrated that these tight compactions of the nucleoid required a protein, Dps. From these results and previously available information, we propose a structural model of the E.coli nucleoid. |
| |
Keywords: | |
本文献已被 PubMed 等数据库收录! |
|