Lonergan T A
J Cell Sci. 1984 Oct;71:37-50. doi: 10.1242/jcs.71.1.37.
When cultures of Euglena gracilis Z., normally grown in medium containing 180 microM-Ca2+, are resuspended in Ca2+-free medium cells assume round shapes within 10 min, from which they recover slowly when Ca2+ is returned to the cultures. Cultures grown in 10 microM-Ca2+ do not display the typical circadian rhythm in cell shape even though the photosynthesis and cell division circadian rhythms are unaffected. Elevating intracellular Ca2+ levels by the addition of the Ca2+ ionophore A23187 prevents cells from undergoing the two daily shape changes characteristic of growth-synchronized cultures, but does not alter the ability to maintain the cell shapes found at the time of ionophore addition. When the calmodulin inhibitors trifluoperazine or chlorpromazine are added to cultures, the cells always respond by rounding. Cells are not able to maintain any cell shape other than spherical in the presence of these inhibitors and therefore cannot change shape throughout the daily cycle as is found in the control populations.
纤细裸藻(Euglena gracilis Z.)通常在含有180微摩尔钙离子(180 microM-Ca2+)的培养基中生长,当将其培养物重悬于无钙离子培养基中时,细胞在10分钟内会变成圆形,当再向培养物中加入钙离子时,它们恢复缓慢。在10微摩尔钙离子(10 microM-Ca2+)中生长的培养物即使光合作用和细胞分裂的昼夜节律不受影响,也不会表现出典型的细胞形状昼夜节律。通过添加钙离子载体A23187提高细胞内钙离子水平可阻止细胞发生生长同步化培养物特有的每日两次形状变化,但不会改变维持添加离子载体时所呈现细胞形状的能力。当向培养物中添加钙调蛋白抑制剂三氟拉嗪或氯丙嗪时,细胞总是会变圆。在这些抑制剂存在的情况下,细胞除了球形外无法维持任何其他细胞形状,因此无法像对照群体那样在整个昼夜周期中改变形状。