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针对细菌潜生体胞内节律性振动对温度的反应性进行实验,以认识环境因素对波源(CelWaveOrigin)的影响,并进一步分析波源运动的机制。用相差显微镜油镜观察奇异变形杆菌(ProteusMirabilis)潜生体(CrypticGrowthCel,CGC)菌落边缘,见到沿多个潜生体细胞长轴方向进行的快速黑白交替流动,温度升高时消失,温度降低时加剧。这种群体细胞在原位的同步节律性振荡是细胞在低温下发生胞内分子节律性凝结-溶解交替过程形成的,为一种胞内前分子马达的运动,我们称之为细胞波源
In order to understand the influence of environmental factors on the source of CelWaveOrigin, experiments were conducted on the reactivity of intracellular rhythmic vibration of bacterial longevity to the mechanism of wave motion. The phase of colony of Proteus mirabilis (CGC) was observed with a phase-contrast microscopy oil-gas microscope. The rapid black-and-white alternating flow along the long axis of multiple latent cells was observed. When the temperature increased, . This group of cells in situ synchronous rhythmic oscillations occurs when cells undergo intracellular rhythmic coagulation-lysis alternation at low temperatures, a type of intracellular premolecular motor motility that we call the cellular wave source