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竹节参雌配子体发育的研究

STUDIES ON THE MEGAGAMETOPHYTE DEVELOPMENT IN PANAX JAPONICUS C.A.MEY

  • 摘要: 本文报道了竹节参(Panax japonicus C.A.Mey)雌配子体(胚囊)的发育过程。竹节参大孢子母细胞减数分裂产生线形排列的大孢子四分体。胚囊发育属蓼型,由合点端大孢子发育而成。游离核胚囊时期,胚囊珠孔端的细胞器种类和数量都较胚囊合点端多;胚囊合点端相邻的珠被细胞中有含淀粉粒的小质体,与胚囊珠孔端相邻的退化中的非功能大孢子中则有含淀粉粒的大质体和大类脂体。成熟胚囊中,反足细胞较早退化;极核融合成次生核;卵细胞高度液泡化,细胞器数量较少;助细胞则有丰富的细胞器和发达的丝状器。PAS反应表明,受精前的成熟胚囊中积累淀粉粒。次生核受精后,很快分裂产生胚乳游离核,到几十至数百个核时形成胚乳细胞。卵细胞受精后则要经过较长的休眠期。

     

    Abstract: The present paper reports the results of the observation on the megagametophyte(embryo sac) development in Panax japonicus C. A. Mey. The megasporocyte undergos meiosis and gives rise to a linear tetrad of megaspores. The development of embryo sac is of the polygonum type. The chalazal megaspore is functional. At the fore-nucleate embryo sac stage, a large quantity of mitochondria, many long or short endoplasmic reticulum (ER) cisternae, some plastids and lipid bodies are present at the micropylar end of it, while at the chalazal end large concentric ER whorls and some mitochondria are seen. In general, at the free nucleate stage of embryo sac development, the quantity of organelles at the micropylar end is more than those at the other end. Small plastids containing starch grains occur in those cells adjacent to the chalazal end of the embryo sac, while the cells nest to the microplar end contain large lipid bodies and large plastids with starch grains. In mature embryo sac, antopodals disintegrate early, polar nuclei have fused into a secondary nucleus. The egg cell has fewer organelles and a large vacuole occupied the micropylar end of it. In contrast, synergid is rich in mitochondria, ER, dictyosomes and contains a well-developed filiform apparatus. Periodic acid-Schiff(PAS) reaction shows that starch grains are accumuiated within the egg apparatus and the central cell. After fertilization, the primary endosperm nucleus (fertilized secondary nucleus) begins to divide into endosperm free-nuclei, and then to form endosperm cells when some dozens to hundreds of free nuclei have reached. The zygote undergoes a long period of dormancy.

     

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