黄色粘球菌在营养期群体游动期间表现出Frz依赖性化学动力学行为。
Myxococcus xanthus displays Frz-dependent chemokinetic behavior during vegetative swarming.
作者信息
Ward M J, Mok K C, Zusman D R
机构信息
Department of Molecular and Cell Biology, University of California, Berkeley 94720-3204, USA.
出版信息
J Bacteriol. 1998 Jan;180(2):440-3. doi: 10.1128/JB.180.2.440-443.1998.
Abstract
Myxococcus xanthus has been shown to utilize both directed (tactic) and undirected (kinetic) movements during different stages of its complex life cycle. We have used time-lapse video microscopic analysis to separate tactic and kinetic behaviors associated specifically with vegetatively swarming cells. Isolated individual cells separated by a thin agar barrier from mature swarms showed significant increases in gliding velocity compared to that of similar cells some distance from the swarm. This orthokinetic behavior was independent of the frequency of reversals of gliding direction (klinokinesis) but did require both the Frz signal transduction system and S-motility. We propose that M. xanthus uses Frz-dependent, auto-orthokinetic behavior to facilitate the dispersal of cells under conditions where both cell density and nutrient levels are high.
摘要
黄色粘球菌已被证明在其复杂生命周期的不同阶段会利用定向(趋化性)和非定向(动力学)运动。我们利用延时视频显微镜分析来区分与营养性群体游动细胞特别相关的趋化性和动力学行为。与距离群体有一段距离的类似细胞相比,被薄琼脂屏障与成熟群体隔开的分离单个细胞的滑动速度显著增加。这种邻域运动行为与滑动方向的反转频率(调转运动)无关,但确实需要Frz信号转导系统和S型运动性。我们提出,黄色粘球菌利用依赖于Frz的自邻域运动行为,在细胞密度和营养水平都很高的条件下促进细胞的扩散。
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本文引用的文献
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Gliding motility in slide cultures of Myxococcus xanthus in stable and steep chemical gradients.在稳定且陡峭的化学梯度下,黄色黏球菌玻片培养物中的滑行运动。
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