大肠杆菌趋化作用中的串联适应性与通用设计。
Tandem adaptation with a common design in Escherichia coli chemotaxis.
机构信息
IBM T. J. Watson Research Center, 1101 Kitchwan Rd., Yorktown Heights, NY 10598, USA.
出版信息
J Mol Biol. 2012 Nov 9;423(5):782-8. doi: 10.1016/j.jmb.2012.08.012. Epub 2012 Aug 24.
Abstract
We analyze a model for motor-level adaptation in Escherichia coli based upon the premise that clockwise (CW) and counter-clockwise (CCW) states have different preferred numbers of FliM subunits. We show that this model provides a simple mechanism for the recently observed motor-level adaptation, and it also explains the long-lasting puzzle on the thresholds observed when tethered cells are used to monitor responses to temporal ramps. We note that the motor-level adaptation has the same negative-feedback network design as the upstream receptor-level adaptation, and the tandem architecture of one control circuit followed by the other mitigates the effects of cell-to-cell variation and broadens the range of stimuli over which cells optimally respond.
摘要
我们分析了基于以下前提的大肠杆菌中运动水平适应的模型
顺时针 (CW) 和逆时针 (CCW) 状态具有不同数量的 FliM 亚基的偏好。我们表明,该模型为最近观察到的运动水平适应提供了一个简单的机制,它也解释了在使用 tethered 细胞监测对时间斜坡响应时观察到的阈值的长期难题。我们注意到,运动水平适应具有与上游受体水平适应相同的负反馈网络设计,一个控制电路后面跟着另一个控制电路的串联结构减轻了细胞间变化的影响,并拓宽了细胞最佳响应的刺激范围。
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