Martin N C, Goodenough U W
J Cell Biol. 1975 Dec;67(3):587-605. doi: 10.1083/jcb.67.3.587.
Gametogenesis in Chlamydomonas reinhardtii has been studied in mating-type plus cells utilizing several different culture conditions, all of which are shown to depend on the depletion of nitrogen from the medium, and the fine structure of gametes prepared under these conditions has been compared by using thin sections of fixed materials. We document alterations in ribosome levels, in chromatin morphology, in starch levels, in the organization of chloroplast membranes, and in the appearance of nuclear envelope and endoplasmic reticulum membranes during gametogenesis. We also noted the acquisition of two new organelles: a mating structure (Friedman, L., A. L. Colwin, and L. H. Colwin. 1968. j. cell Sci. 3:115-128; goodenough, U. W., and R. L. Weiss. 1975. J. Cell Biol. 67:623-637), and Golgi-derived vesicles containing a homogeneous material. We chart the time course of these morphological changes during synchronous gametogenesis. We note that many of these changes may represent adjustments to nitrogen starvation rather than direct features of gametic differentiation, and we also document that cells can differentiate so that they survive conditions of nitrogen starvation for many weeks after they become gametes. We conclude that metabolic alterations, the acquisition of mating ability, and the preparation for long-term survival are all elicited in this organism by nitrogen withdrawal, and we discuss how the various structural alterations observed in this study may relate to these three interrelated avenues of cellular differentiation.
利用几种不同的培养条件,对莱茵衣藻的配子发生进行了研究,研究对象为正交配型细胞。所有这些条件均显示依赖于培养基中氮的耗尽,并且通过使用固定材料的薄切片,比较了在这些条件下制备的配子的精细结构。我们记录了配子发生过程中核糖体水平、染色质形态、淀粉水平、叶绿体膜组织以及核膜和内质网的外观变化。我们还注意到获得了两种新的细胞器:一种交配结构(弗里德曼,L.,A. L. 科尔文和L. H. 科尔文。1968年。《细胞科学杂志》3:115 - 128;古德诺夫,U. W.,和R. L. 魏斯。1975年。《细胞生物学杂志》67:623 - 637),以及含有均匀物质的高尔基体衍生小泡。我们绘制了同步配子发生过程中这些形态变化的时间进程。我们注意到,这些变化中的许多可能代表对氮饥饿的调整,而非配子分化的直接特征,并且我们还记录到细胞可以分化,从而在成为配子后能够在氮饥饿条件下存活数周。我们得出结论,在这种生物体中,氮的撤离引发了代谢改变、交配能力的获得以及长期存活的准备,并且我们讨论了本研究中观察到的各种结构改变可能如何与细胞分化的这三个相互关联的途径相关。