Department of Biology, University of Victoria, V8W 2Y2, Victoria, B.C., Canada.
Planta. 1977 Jan;137(3):185-93. doi: 10.1007/BF00388149.
Electron-microscope studies indicate that the aleurone tissue of maize (Zea mays L.) starts developing approximately 10-15 days after pollination in stocks that take ca. 40 days for the aleurone to mature completely. Development commences when specialized endosperm cells adjacent to the maternal nucellar layer start to differentiate. Differentiation is characterized by the formation of aleurone protein bodies and spherosomes. The protein bodies of the aleurone layer have a vacuolar origin whereas the protein bodies of the immediate underlying endosperm cells appear to develop from protrusions of the rough endoplasmic reticulum. Thus, two morphologically and developmentally distinct types of protein bodies are present in these adjacent tissues. The spherosomes of the aleurone layer form early in the development of this tissue and increase in number as the tissue matures. During the final stages of maturation, these spherosomes become closely apposed to the aleurone grains and the plasma membrane. No further changes are apparent in the structure of the aleurone cells after 40 days from pollination when the caryopsis begins to desiccate.
电镜研究表明,在完全成熟需要大约 40 天的玉米(Zea mays L.)品系中,花粉受精后约 10-15 天,糊粉层组织开始发育。当靠近母性珠心层的特化胚乳细胞开始分化时,发育就开始了。分化的特征是糊粉层蛋白体和球体的形成。糊粉层的蛋白体具有液泡起源,而紧邻的胚乳细胞的蛋白体似乎是从粗糙内质网的突起发育而来。因此,在这些相邻的组织中存在两种形态和发育上明显不同的蛋白体类型。糊粉层的球体在该组织发育的早期形成,并随着组织的成熟而增加数量。在成熟的最后阶段,这些球体与糊粉粒和质膜紧密相邻。在授粉后 40 天,当颖果开始干燥时,糊粉层细胞的结构不再有明显变化。