Nanney D L, Chen S S, Meyer E B
J Cell Biol. 1978 Dec;79(3):727-36. doi: 10.1083/jcb.79.3.727.
Tetrahymenas of 17 species of the T. pyriformis complex have been stained with protargol and analyzed for numbers of basal bodies in half cells just before cell division. At this stage, cells of all strains manifest considerable variation in numbers of basal bodies; the coefficient of variation (sigma/m) is usually between 0.05 and 0.10. Much of this variability is observed in cells in the same nutritional state, at the same stage of the growth cycle, and in the same part of the life cycle. The basal body variability may be related to the variation in macronuclear DNA content that results from the imprecise amitotic macronuclear division. With a few exceptions, strains of different species are difficult to distinguish on the basis of basal body numbers. The species means in the samples examined show a range only from 234 (T. furgasoni) to 481 (T. capricornis), about a twofold difference. This limited variation in the means suggests that these organisms are constrained within narrow limited by some scalar function of their organismic design, which prevents an evolutionary size dispersion--even though molecular scrambling has occurred in the complex at an appreciable rate for a very long evolutionary interval.
梨形四膜虫复合体17个物种的四膜虫已用原银染液染色,并在细胞分裂前对半个细胞中的基体数量进行了分析。在此阶段,所有菌株的细胞在基体数量上都表现出相当大的差异;变异系数(σ/m)通常在0.05至0.10之间。这种变异性在营养状态相同、生长周期阶段相同以及生命周期相同部分的细胞中都有观察到。基体变异性可能与由于不精确的无丝大核分裂导致的大核DNA含量变化有关。除了少数例外,不同物种的菌株很难根据基体数量来区分。在所检查的样本中,物种平均值仅在234(弗氏四膜虫)至481(摩羯四膜虫)之间,相差约两倍。平均值的这种有限变化表明,这些生物体受到其机体设计的某种标量函数的狭窄限制,这阻止了进化上的大小分散——尽管在很长的进化间隔内,该复合体中已经以相当高的速率发生了分子混乱。