Mapping the driving forces of chromosome structure and segregation in Escherichia coli

Kuwada Nathan J.; Cheveralls Keith C.; Traxler Beth; Wiggins Paul A.

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Mapping the driving forces of chromosome structure and segregation in Escherichia coli

机译：绘制大肠杆菌中染色体结构和分离的驱动力

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The mechanism responsible for the accurate partitioning of newly replicated Escherichia coli chromosomes into daughter cells remains a mystery. In this article, we use automated cell cycle imaging to quantitatively analyse the cell cycle dynamics of the origin of replication (oriC) in hundreds of cells. We exploit the natural stochastic fluctuations of the chromosome structure to map both the spatial and temporal dependence of the motional bias segregating the chromosomes. The observed map is most consistent with force generation by an active mechanism, but one that generates much smaller forces than canonical molecular motors, including those driving eukaryotic chromosome segregation.

机译：将新复制的大肠杆菌染色体准确分配到子细胞中的机制仍然是一个谜。在本文中，我们使用自动细胞周期成像技术来定量分析数百个细胞中复制起点（oriC）的细胞周期动态。我们利用染色体结构的自然随机波动来映射分离染色体的运动偏差的时空依赖性。观察到的图谱与通过一种主动机制产生的力最一致，但是所产生的图谱比规范分子马达（包括那些驱动真核染色体分离的分子）产生的力小得多。

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《Nucleic Acids Research》 |2013年第15期|共8页
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Kuwada Nathan J.; Cheveralls Keith C.; Traxler Beth; Wiggins Paul A.;
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1. Mapping the driving forces of chromosome structure and segregation in Escherichia coli [J] . Kuwada Nathan J., Cheveralls Keith C., Traxler Beth, Nucleic Acids Research . 2013,第15期

机译：绘制大肠杆菌中染色体结构和分离的驱动力
2. Electron microscope heteroduplex studies of sequence relations among plasmids of Escherichia coli: structure of F100, F152, and F8 and mapping of the Escherichia coli chromosomal region fep-supE-gal-attlambda-uvrB. [J] . E Ohtsubo, M T Hsu Journal of bacteriology . 1978,第3期

机译：电子显微镜异源双链研究大肠杆菌质粒之间的序列关系：F100，F152和F8的结构以及大肠杆菌染色体区域fep-supE-gal-attlambda-uvrB的图谱。
3. Physical Modeling of Chromosome Segregation in Escherichia coli Reveals Impact of Force and DNA Relaxation [J] . Lampo Thomas J., Kuwada Nathan J., Wiggins Paul A., Biophysical Journal . 2015,第1期

机译：大肠杆菌中染色体分离的物理模型揭示了力和DNA松弛的影响
4. ELASTIC DRIVING FORCES FOR DOPANT SEGREGATION IN NANOSTRUCTURED DOPED ZIRCONIA CERAMICS [C] . E. Djurado, F. Boulch, P. Bouvier Proceedings vol.2005-07; International Symposium on Solid Oxide Fuel Cells IX(SOFC-IX) vol.2: Materials; 20050515-20; Quebec City(CA) . 2005

机译：纳米结构掺杂锆石陶瓷中掺杂偏析的弹性驱动力
5. Engineering and chromosomal integration of a functional butanol pathway in Escherichia coli for butanol fermentation. [D] . Garza, Erin. 2016

机译：大肠杆菌中功能性丁醇途径的工程和染色体整合，用于丁醇发酵。
6. Mapping the driving forces of chromosome structure and segregation in Escherichia coli [O] . Nathan J. Kuwada, Keith C. Cheveralls, Beth Traxler, 2013

机译：绘制大肠杆菌染色体结构和分离的驱动力
7. Mapping the driving forces of chromosome structure and segregation in Escherichia coli [O] . Nathan J. Kuwada, Keith C. Cheveralls, Beth Traxler, 2013

机译：在大肠杆菌中映射染色体结构的驱动力和偏析
8. Effects of Segregation and Selection on Instability of Plasmid pACYC184 in 'Escherichia coli'B [R] . Lenski, R. E. , Bouma, J. E. 1987

机译：分离和选择对'大肠杆菌'B中质粒paCYC184不稳定性的影响

Mapping the driving forces of chromosome structure and segregation in Escherichia coli

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