Rose P M, Hopper A F, Wannemacher R W
J Cell Biol. 1971 Sep;50(3):887-92. doi: 10.1083/jcb.50.3.887.
The effect of a protein-free diet and starvation on the duration of the rat ileal crypt cell cycle time was studied by Quastler's technique of labeled mitoses. Rats were fed a protein-free diet for 3, 7, or 11 wk or were starved for 7 or 10 days. Progressive protein depletion resulted in a progressive lengthening of the cycle time (GT), due primarily to a lengthening of the synthetic phase (S) of the cycle. The presynthetic gap (G(1)) was the same as the control value after 3 wk and lower, but not significantly so, due to the large variability, after 11 wk. The duration of the postsynthetic gap (G(2)) plus mitotic phase (M) was not affected by the diet. As the dietary stress became more severe, the cell cycle also became more variable. Although the GT of rats starved for as long as 10 days was only slightly different from the control, the relative duration of the components of the cycle changed significantly. S and G(2) were longer in the starved animals while G(1) was of shorter duration.
采用夸斯特勒的标记有丝分裂技术,研究了无蛋白饮食和饥饿对大鼠回肠隐窝细胞周期时长的影响。给大鼠喂食无蛋白饮食3周、7周或11周,或使其饥饿7天或10天。蛋白质逐渐耗竭导致周期时长(GT)逐渐延长,这主要是由于周期的合成期(S)延长所致。3周后合成前期间隙(G(1))与对照值相同,11周后其值较低,但由于变异性大,差异不显著。合成后期间隙(G(2))加有丝分裂期(M)的时长不受饮食影响。随着饮食压力变得更严重,细胞周期也变得更具变异性。尽管饥饿长达10天的大鼠的GT与对照仅略有不同,但周期各组分的相对时长发生了显著变化。饥饿动物的S期和G(2)期较长,而G(1)期较短。