The growth of the pollen tube wall of Oenothera is effected by the expulsion of fibrillar material from the cytoplasm into the developing wall. This material may also be seen in the cytoplasm, contained in membrane-bound vesicles. It is not clear how the content of the vesicles is discharged, but it appears not to involve the participation of microtubules. The source of the cytoplasmic fibrillar bodies depends upon the stage of development of the pollen tube. The earilest growth is derived from the inclusion into the wall of vesicles containing pre-formed materials present in the grain on pollination. During the next stage of growth the wall is derived from the content of double-membraned inclusions also present in the pollen. The content of the former vesicles is not so similar to the wall as the latter, but intermediates between the 2 types of vesicle may be seen in the cytoplasm, indicating that the former are formed from the latter. Most of the tube wall is derived from the products of dictyosomes in the pollen grain or tube. These dicytosomes are few in number and they must be exceedingly active. This, and the observation that dictyosome vesicles are frequently associated with banked complexes of mitochondria, indicates that some steps in the metabolism of the vesicular content, perhaps phosphorylation, take place distant from the dicytosomes. These different sources of fibrillar material presumably permit the rapid starting of tube growth, without any attendant metabolism. However, it would be impossible to include enough pre-formed wall material in the grain to enable the full growth of the tube, so once started, it seems that the tube then relies on the elaboration of simple reserves for the contruction of its wall. These reserves are likely to be held in the pollen, and may be the large numbers of starch grains characteristic of the pollen cytoplasm.

译文

:月见草的花粉管壁的生长受到纤维状物质从细胞质中排入发育壁的影响。在膜结合的囊泡中所含的细胞质中也可以看到这种物质。目前尚不清楚囊泡中的内容物如何释放,但似乎不涉及微管的参与。细胞质原纤维体的来源取决于花粉管的发育阶段。最早的生长来自授粉时谷物中含有预先形成的物质的囊泡壁。在生长的下一阶段,壁是从花粉中也存在的双膜夹杂物的含量中获得的。前者囊泡的含量与后者的壁不太相似,但是在细胞质中可以看到两种类型囊泡之间的中间产物,这表明前者是由后者形成的。大多数管壁都来自花粉粒或管中的双核小体产物。这些双核小体的数量很少,它们必须具有超强的活性。这以及单核小泡囊泡经常与线粒体堆积的复合物相关的观察结果表明,泡囊内容物代谢的某些步骤(可能是磷酸化)发生在远离双核小体的地方。这些不同的纤维状物质来源大概可以使管的生长迅速开始,而没有任何新陈代谢。但是,不可能在晶粒中包含足够的预成型壁材料以使管完全生长,因此一旦启动,似乎管就依赖于简单的储备来构造其壁。这些储备可能保留在花粉中,并且可能是花粉细胞质特有的大量淀粉粒。

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