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光周期对光敏核不育水稻叶绿体类囊体膜超分子结构的影响
EFFECTS OF PHOTOPERIOD ON SUPRAM OLECULAR ARCHITECTURE OF THYLAKOID MEMBRANES FROM A RICE MUTANT (ORYZA SATIVA NONGKEN 58S)
【摘要】 通过冰冻撕裂叶绿体类囊体膜电镜术的研究,在超分子水平上揭示出长日照(LD)与短日照(SD)对突变型光敏核雄性不育水稻农垦58S及其野生型农垦58 倒二叶叶绿体类囊体膜的形成有不同的影响。农垦58-SD 和农垦58-LD差别不明显;而农垦58S-SD和农垦58S-LD之间出现较明显的差异:(1)农垦58S-SD 叶绿体类囊体膜的垛叠和非垛叠膜区的4 个冰冻撕裂膜小面呈现的功能蛋白粒的密度、大小及构象分布与其对照农垦58-SD 和农垦58-LD 类似,均属正常的超分子结构类型。(2)农垦58S-SD叶绿体垛叠类囊体膜区的外质撕裂面(EFs)功能蛋白粒的密度比58S-LD的大,且在有的垛叠膜区呈现出类晶格状的规则排列。(3)农垦58S-LD 叶绿体非垛叠膜区的原生质撕裂面(PFu)和外质撕裂面(EFu)出现频率较低,往往在基粒的边缘膜或末端中能找到,且分布于膜上的功能蛋白粒的密度较小。有的叶绿体EFu、PFu、EFs和垛叠膜区原生质撕裂面(PFs)功能蛋白粒极少或丧失,表明类囊体膜受到严重损伤
【Abstract】 Plants of a rice mutant (Hubei photoperiod sensitive genic male sterile rice, Oryza sativa L. Nongken 58S) and its wild type cv. Nongken 58 were cultured in natural summer conditions in Beijing. After induction of proper photoperiods small panicle at the stem tip emerged and developed to the stage of secondary rachis branch and spikelet primordium formation. Subsequently, part of the rice plants received long day (LD), i.e. 10 h of day light treatment followed by 5 h of white fluorescent illumination with 1~2 Wm -2 ). The others were exposed to daylight for 10 h alternating with a 14 h of dark period as short day (SD) treatment. After 10 days of the photoperiodic treatments, the chloroplast ultrastructure of the first leave below the flag leaf was examined by freeze fracture rotary and unidirectionally shadowed electron microscopy. At anthesis stage,Nongken 58S plants with LD treatment showed complete pollen sterility,while the same plants with SD treatment exhibited normal fertility. And fertility of Nongken 58 was not affected by photoperiod treatments. The results from electron microscopic observation showed no significant effects of either SD or LD treatment on the freeze fractured ultrastructure of thylakoid membranes in Nongken 58. No significant difference in particle density and size distribution was found on stacked and unstacked thylakoid membrane regions of the Nongken 58S SD and those of Nongken 58 rice. However, the particle density of the endoplasmic fracture face in the staked region (EFs) and protoplasmic fracture face in the staked region (PFs) faces detected from the leaf thylakoid membranes of Nongken 58S SD rice was significantly higher than that of the corresponding faces from Nongken 58S LD. In some cases much more particles on EFs faces of thylakoid membranes isolated from Nongken 58S SD rice appeared as paracrystalline particle array,indicating increases in the number of PSⅡ reaction centres,LHCⅡ and Cyt b 6/f per unit area of thylakoid membrane. The particle density of the endoplasmic fracture face in the unstaked region (EFu) and protoplasmic fracture face in the unstaked region (PFu) faces from unstacked thylakoid membranes of Nongken 58S LD was less than that of the corresponding faces from Nongken 58S SD. And the particle density of PFu faces from margin and end of the membranes of the grana thylakoids of LD treated Nongken 58S leaves was also less than that of unstacked thylakoid membranes from SD treated rice. In severe cases, most of the particles on endoplasmic fracture face in the unstaked region (EFu) and protoplasmic fracture face in the unstaked region (PFu) faces were even missing, indicating a decrease in the numbers of photosystem Ⅰ,LHCⅠ, Cyt b 6/f and ATPase per unit area of thylakoid membrane. The above results could further provide an augmentation for explaning the photoperiod sensitive genic male sterility.
【Key words】 Photoperiod; Male sterility; Rice; Thylakoid membrane; Supramolecular architecture;
- 【文献出处】 植物学报 ,Acta Botanica Sinica , 编辑部邮箱 ,1996年05期
- 【分类号】Q945.11
- 【被引频次】21
- 【下载频次】133