Light-triggered organization of the stigma in dark-grown nondividing cells ofEuglena gracilis

Journal of ultrastructure research Pub Date : 1985-10-01 DOI:10.1016/0889-1605(85)90082-5

Tetsuaki Osafune , Myriam Alhadeff , jerome A. Schiff

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Abstract

Dark-grown cells ofEuglena gracilis Klebs var.bacillaris Cori contain amorphous stigma material. When these cells are placed on resting medium for 3 days in darkness, the cells cease division; the organization of a normal stigma from the amorphous material requires continuous illumination for 72–96 hr. We have now found that if dark-grown cells are placed on resting medium for 8 days, a 40-min light pulse is sufficient to cause normal organization of the stigma in a subsequent 72-hr dark period. Thus stigma development is light-dependent at 3 days of resting but becomes light-triggered at 8 days. Other examples of light-triggered phenomena inEuglena are discussed and a model based on turnover of protein molecules repressing development that are ordinarily removed by exposure to light is presented; it is suggested that as the cells become more starved their ability to replace repressor molecules removed by light becomes limited and the system thereby becomes light-triggered rather than light-dependent.

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黑生不分裂细胞中柱头的光触发组织

长在暗室里的细毛藻细胞含有无定形的柱头物质。将这些细胞置于静息培养基中3天后，细胞停止分裂;从无定形材料形成正常柱头需要连续光照72-96小时。我们现在发现，如果黑暗生长的细胞放置在静息培养基上8天，40分钟的光脉冲足以使柱头在随后的72小时黑暗时期正常组织。因此，柱头发育在休息3天后是光依赖性的，但在8天后变为光触发性的。讨论了绿藻中光触发现象的其他例子，并提出了一个基于抑制生长的蛋白质分子的周转率的模型，这些蛋白质分子通常因暴露于光而被移除;这表明，随着细胞变得更加饥饿，它们替换被光移除的抑制分子的能力变得有限，因此系统变成光触发而不是光依赖。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Journal of ultrastructure research

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