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THE DEVELOPMENT AND ULTRASTRUCTURE OF ECTOMYCORRHIZAS 总被引:1,自引:1,他引:1
J. A. DUDDRIDGE 《The New phytologist》1986,103(3):465-471
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The dormant (mid-November to mid-February) microsporangia of Pseudotsuga menziesii (Douglas-fir) contain pollen mother cells (PMC's) in diffuse diplotene, surrounded by 1–2 layers of tapetal cells and 3–4 layers of microsporangial wall cells. At the beginning of dormancy, PMC's are large and their walls are lysed. The cell walls contain a thick layer of loosely-arranged fibrils which are produced in large vesicles in the PMC cytoplasm and are secreted across the plasma membrane. PMC's contain several layers of rough ER. The inner tangential and the radial walls of the tapetal cells are lysed. During dormancy the PMC's form many new autophagic vacuoles, the chromatin consists of a network of fine threads comprised of medium-sized granules of uniform size and the nucleoli split. The outer tapetal wall is thick and becomes encrusted by an irregular lipid layer. The tapetal cytoplasm is similar to the PMC cytoplasm but is devoid of amyloplasts. The tapetal cytoplasm shows secretory activity at the beginning of dormancy and again near the end of dormancy. The later secretory activity results in the deposition of a spongy material, especially along the radial and inner walls of the tapetal cells. Tapetal cells contain 1–2 large nuclei which show prominent and irregular clumps of chromatin. Subcellular developmental changes occur in the dormant microsporangia of Pseudotsuga in much the same manner as has been reported for Pinus. 相似文献
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本实验通过扫描电镜等方法研究豚鼠卵巢囊及卵巢囊淋巴孔的结构,并探讨了卵巢囊及其淋巴孔的种属差异.实验结果首次报道豚鼠卵巢囊内、外层上皮均存在淋巴孔;豚鼠卵巢囊结构在输卵管走行、囊闭合程度及囊表面超微结构等方面与金仓鼠存在差异.结果提示豚鼠卵巢囊内、外层淋巴孔是沟通卵巢囊腔、卵巢囊淋巴系及腹膜腔的形态基础,可能是三者间物质转运的重要途径.卵巢囊淋巴孔可能影响物种的繁殖并参与囊腔内局部免疫反应.卵巢囊结构和发育程度与对应的输卵管伞端等结构及其他生殖特点相适应,研究结果丰富了生殖形态学和比较解剖学资料. 相似文献
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The development and structure of the guard cell walls of Funaria hygrometrica Hedw. (Musci) were studied with the light and electron microscopes. The stoma consists of only one, binucleate guard cell as the pore wall does not extend to the ends of the cell. The guard cell wall is thinnest in the dorsal wall near the outer wall but during movement is most likely to flex at thin areas of the outer and ventral walls. The mature wall contains a mottled layer sandwiched between two, more fibrillar layers. The internal wall layer has sublayers with fibrils in axial and radial orientations with respect to the pore. During substomatal cavity formation, the middle lamella is stretched into an electron dense network and into strands and sheets. After stomatal pore formation, the subsidiary cell walls close to the guard cell become strikingly thickened. The functional implications of these results are discussed. 相似文献
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通过电子显微镜和细胞化学标记研究了哈氏木霉分生孢子发育的超微结构和细胞化学。分生孢子发育的超微结构研究表明,分生孢子壁的发育是有个由薄而光滑到厚而有疣的过程;期间脂肪体在分生孢子和产孢细胞中不断累积,最后脂肪体沿着内壁排列成一层。免疫金标记结果显示,幼嫩的分生孢子壁中缺乏几丁质和纤维素,只有在成熟的分生孢子壁中含有几丁质;出乎意料的是在成熟分生孢子中发现有少量纤维素的存在。 相似文献
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Nexine and intine development in Silene alba (Caryophyllaceae) was investigated by electron microscopy and enzyme cytochemistry. Nexine-2 forms by deposition of sporopollenin along unit membrane lamellae closely associated with the microspore plasma membrane in the late tetrad stage. After the callose wall dissolves, electron density increases along the tangentially oriented fibers of the proximal primexine, forming nexine-1. When the exine is essentially complete, the intine begins to develop. In the nearly mature microspore, acid phosphatase activity appears in the peripheral cytoplasm just prior to its extrusion into the intine of the mature pollen grain. 相似文献
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本文详细研究了1种海生4条鞭毛的单胞绿藻——广东四片藻鞭毛器的亚微结构和囊壳的形成。4条鞭毛着生于细胞前端凹陷的基部,鞭毛表面覆盖2层鳞片;基体呈纵向平行的“Z”字形排列;具纹纤维连接内外径向排列的两个基体;4个片层状的卵形盘(或称半桥粒(halfdesmosome))微管和纤维物质构成的复合体将鞭毛器和根丝体固着在质膜和囊壳上。根丝体通过两束交叉的微管带与两个邻近的外侧基体相连接。这种连接方式与其它已研究过的四片藻是不同的。囊壳的形成开始于内膜系统,特别是高尔基体。纤维丛和电子密集颗粒在其中合成、修饰,同时由高尔基体衍生的小泡转移到原生质体表面特定的区域,然后经若干步骤接合成完整的囊壳。这个区域与蛋白核的位置相关,表明聚合星状颗粒酶是在蛋白核位点制造或释放的,同时分泌到细胞外。囊壳沿边生长组装与细胞质发育产生特征性的前端鞭毛凹陷同时发生。 相似文献
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采用扫描电镜、透射电镜和蛋白银染色等方法研究了海蜇胚胎发育和变态过程中细胞超微结构变化。结果显示: (1)海蜇自受精卵至原肠期阶段细胞均等分裂, 细胞间存在大量连接, 细胞形态相近, 未出现显著分化; (2)海蜇自早期浮浪游虫阶段, 其外胚层细胞开始出现空泡化, 至4触手螅状体阶段外胚层细胞空泡体积逐渐增大, 而内胚层细胞仅在4触手螅状体阶段才出现空泡化。伴随着外胚层细胞空泡化比例的增大, 杯状体和4触手螅状体阶段出现疑似凋亡小体结构; (3)刺细胞分化于早期浮浪游虫期的外胚层近中胶层区域, 而后逐渐向外转移, 至4触手螅状体阶段发育成熟并转移至表面; (4)纤毛形成于早期浮浪幼虫, 在杯状体阶段逐渐退化, 并于4触手螅状体阶段完全消失; (5)在海蜇早期发育各个阶段, 其内部均发现大量着色较深的卵黄体, 且在浮浪游虫阶段首次发现了海蜇外层细胞主动吞噬细菌现象, 表明海蜇早期发育营养来自内源性和外源性两部分。研究结果可为阐明刺胞动物早期发育模式提供依据。 相似文献
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The young guard cell of Selaginella inherits a single plastid from the division of the stomatal guard mother cell (GMC). During early stomatal development the single plastid undergoes a complex series of migrations and divisions. The regular pattern of plastid behavior appears to be an expression of the genetic program controlling division plane and cytomorphogenesis. The plastid in the GMC becomes precisely aligned with its midconstriction intersected by the plane of a preprophase band of microtubules (PPB) oriented parallel to the long axis of the leaf. This alignment with respect to the future division plane of the cytoplasm ensures equal plastid distribution to the daughter cells. Cytokinesis occurs in the plane previously marked by the PPB and the plastid in each daughter cell lies between the lateral wall and the newly formed nucleus. Following cytokinesis the plastid in each young guard cell develops a median constriction and migrates to the common ventral wall where the isthmus is associated with a system of microtubules in the vicinity of the developing pore region. Plastid division is completed while the plastid is adjacent to the common ventral wall. Following division, the two daughter plastids move back toward the lateral wall. Each plastid may divide again during guard cell maturation but no further migrations occur. 相似文献
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从小花琉璃草(cynoglossum lanceolatym Forsk.)全草的石油醚提取物中分离到5个化合物,用波谱等方法鉴定为:十六碳酸甲酯(Hexadecanoic acid,methyl ester)、β-谷甾醇(β-sitosterol)、5α,豆甾烷-3,6-二酮(5α,stigmastane-3,6-dione)、6β-羟基-豆甾-4-烯-3酮(6-β-hydroxy-stigmasta-4-en-3-one)和胡萝卜甙(daucosterol)。 相似文献
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