不同光温条件下紫背浮萍叶肉细胞和叶绿体超微结构的研究

以浮萍科紫萍属紫背浮萍为试验材料,利用透射电子显微镜研究了紫背浮萍叶肉细胞和叶绿体的超微结构。结果发现:强光下,紫背浮萍叶肉细胞内的叶绿体数明显增加;弱光时虽然叶绿体数减少,但叶绿体基粒片层结构变厚,增加了光合作用反应面积。与25℃适温条件相比,10℃低温和35℃高温下,紫背浮萍细胞均出现一定程度的逆境胁迫作用。表现在低温时部分叶绿体皱缩成带状,叶肉细胞之间出现较大空隙;高温时叶绿体外膜溶解,基质外渗,脂质小球数量增多。紫背浮萍通过改变细胞内部形态结构的方式来适应不同光强和温度环境条件,对逆境光温条件具有一定的耐受性。     

CO<Subscript>2</Subscript> exchange and structural organization of chloroplasts under hypothermia in potato plants transformed with a gene for yeast invertase

Growth, CO₂ exchange, and the ultrastructure of chloroplasts were investigated in the leaves of potato plants (Solanum tuberosum L., cv. Désirée) of wild type and transformed with a gene for yeast invertase under the control of patatin class I B33 promoter (for apoplastic enzyme) grown in vitro on the Murashige and Skoog medium supplemented with 2% sucrose. At a temperature of 22°C optimal for growth, the transformed plants differed from the plants of wild type in retarded growth and a lower rate of photosynthesis as calculated per plant. On a leaf dry weight basis, photosynthesis of transformed plants was higher than in control plants. Under hypothermia (5°C), dark respiration and especially photosynthesis of transformed plants turned out to be more intense than in control material. After a prolonged exposure to low temperature (6 days at 5°C), in the plants of both genotypes, the ultrastructure of chloroplasts changed. Absolute areas of sections of chloroplasts and starch grains rose, and the area of plastoglobules decreased; in transformed plants, these changes were more pronounced. By some ultrastructural characteristics: a reduction in the cold of relative total area of sections of starch grains and plastoglobules (in percents of the chloroplast section area) and in the number of granal thylakoids (per a chloroplast section area), transformed plants turned out to be more cold resistant than wild-type plants. The obtained results are discussed in connection with changes in source-sink relations in transformed potato plants. These changes modify the balance between photosynthesis and retarded efflux of assimilates, causing an increase in the intracellular level of sugars and a rise in the tolerance to chilling.     

CO2浓度倍增对小麦叶绿体超微结构、超分子结构及光谱特性的影响

超薄切片及冰冻撕裂电镜观察、吸收光谱及77 K低温荧光发射光谱的测定结果表明:CO2浓度倍增对小麦( Triticum aestivum L.)叶绿体的超微、超分子结构及光谱特性的影响均为正效应.具体反映在:(1)小麦叶绿体中除了比对照积累有较多的淀粉粒外,其基粒和基质类囊体膜发育较好;(2)叶绿体的光合膜系,无论是垛叠和非垛叠膜区,其镶嵌于内质膜撕裂面(EFs和EFu)及原生质膜撕裂面(PFs和PFu)的功能蛋白粒均比其对照的发育良好,尤其PFs 与EFs面较为突出,即它们除了所含蛋白粒的密度较大外,在EFs面上有时还呈现出密集有序的阵列结构;(3)叶绿体整个吸收谱带,尤其红区和蓝区的主峰均较其对照有较大的光吸收,表明对光能的捕获能力明显高于对照;(4)无论是以436 nm还是以480nm波长激发的,其叶绿体的F684/F733 (PSⅡ/PSⅠ)的比值均较对照的高,表明CO2浓度倍增条件下生长的小麦叶片叶绿体的PSⅡ相对荧光强度有所增强,这与叶绿体的超微、超分子结构及吸收光谱的测定结果相一致.以上结果可为小麦在高CO2浓度下增产提供理论依据.     

小麦淀粉胚乳发育期间的程序性细胞死亡

小麦淀粉胚乳在发育过程中经历程序性细胞死亡(PCD).小麦淀粉胚乳的DNA在发育的特定阶段呈现梯状电泳条带,用乙烯处理使DNA片段化发生的时间提前,而且ABA处理虽然不能推迟DNA片段化的发生时间,但能减弱DNA片段化的程度.小麦淀粉胚乳细胞在PCD过程中出现某些动植物细胞凋亡的共同的结构变化特征,但也有一些独特的结构变化.如染色质凝聚后仅少数染色质块发生趋边化;细胞核在PCD过程中最先开始衰退,细胞核解体时胞质中有丰富的细胞器,细胞核解体后细胞并未死亡,在胞质中仍在合成和积累淀粉和储藏蛋白,直到细胞被淀粉充满,细胞才死亡;不形成凋亡小体,死亡的淀粉胚乳细胞成为营养物质的储藏库.因此小麦淀粉胚乳细胞的PCD是一种特殊形式的PCD.     

Ultrastructure of the Circulatory System of the Phoronid Phoronopsis harmeri Pixell, 1912. 2. Main vessels

The ultrastructure of the wall of the main blood vessels of the phoronid Phoronopsis harmeri is described. The walls of the lophophoral and left lateral vessels consist of myoepithelial cells of the coelomic lining (peritoneal cells), a thin basal lamina, and an incomplete endothelial lining. In the head region of the body, the wall of the medial vessel consists of myoepithelial cells of the coelomic lining (peritoneal cells), a basal lamina, and true muscular endothelial cells. The anterior part of the medial vessel functions as the heart. In the anterior part of the body, the medial vessel wall consists of five layers: the external nonmuscular coelothelium, a layer of the extracellular matrix, the internal muscular coelothelium, an internal layer of the extracellular matrix, and an incomplete endothelial lining. The complicated structure of the medial vessel wall may be explained by the superimposition of the lateral mesentery on the ordinary vessel wall.     

中国角蝉总科部分昆虫马氏管分泌物“网粒体”的超微结构研究(半翅目:蝉亚目)

运用光学显微镜、扫描电镜和透射电镜分别对中国角蝉总科18种昆虫(叶蝉17种,角蝉1种)的成虫“网粒体”进行了超微结构及合成部位研究.研究结果证实体表网粒体均合成于马氏管第三区( MT3)管壁细胞的高尔基体;这些网粒体可被分为4种类型:小球形网粒体(SB)、棒状网粒体(RB)、多室大球形网粒体( LMB)及少室大球形网粒...     

Early oogenesis in the ascidian Ciona savignyi

Summary

Morphology of the germinal epithelium and the early follicular oocyte in the ascidian Ciona savignyi as examined by electron microscopy. The oogenetic part of the germinal epithelium contains oocytes at two different stages and the dark and clear cells. The smaller oocyte contains synaptonemal complexes. The larger oocyte in the initial phase of growth has a conspicuous nucleolus, electron-dense materials and some mitochondria close to the nuclear envelope. The nucleus of the larger oocyte is round and has the smooth contour. The dark cell contains a relatively large nucleus and is sometimes connected to each other by an intercellular bridge. Therefore, the dark cell, which has been suggested to be the progenitor cell of two kinds of accessory cells, may be also the oogonium. The early follicular oocyte just after migration from the germinal epithelium retains most of cytological features similar to those of the larger oocyte. However, the nuclear contour of the early follicular oocyte is uneven. This difference in the nuclear contour probably indicates that such a follicular oocyte is in the second phase of growth.