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1.
不同海拔火绒草叶绿体超微结构的比较   总被引:13,自引:0,他引:13  
利用透射电镜对生长于青藏高原东北部3个不同海拔地区(2300m、2700m和3800m)的火绒草叶绿体超微结构进行了比较观察。结果发现,随着海拔的升高,叶绿体结构差异明显。海拔2300m处,叶绿体呈扁船形,沿细胞壁分布,基粒片层排列整齐,片层可达32层;海拔2700m处,叶绿体呈扁船形,沿细胞壁分布,基粒片层排列不规则,片层下降到十几层,类囊体出现轻微膨大;海拔3800m处,叶绿体呈圆形,位于细胞中央,基粒片层则严重扭曲,片层只有几层,类囊体膨大严重,出现脂质小球。研究表明,火绒草叶绿体结构的变化是对逆境的一种适应,是青藏高原特殊生态条件长期胁迫的结果。  相似文献   

2.
水稻叶绿体计算机图象分析表明,随着叶片色级的提高,叶绿体表面积密度、体积密度以及两者的比值都相应增加。深色稻叶基粒堆直径与高度、类囊体垛叠数与类囊体厚度、叶绿素与类胡萝卜素含量、气孔导度与净光合率均大于浅色叶片。深色叶片基粒堆密集,有些基粒类囊体出现沿叶绿体长轴方向排列整齐现象;浅色叶片基粒堆稀疏,其中较大的基粒类囊体与长轴呈倾斜排列。  相似文献   

3.
CO2浓度倍增对谷子和紫花苜蓿叶绿体超微结构的效应   总被引:14,自引:0,他引:14  
电镜观察结果表明,不同种类植物生长在相同倍增的高CO2 浓度条件下,其叶绿体超微结构彼此呈现出明显的差异. 最醒目的特征是淀粉粒的积累比对照的增加很多;类囊体膜系发生异变. 总体上,(1)淀粉粒,C4 植物谷子(Setaria italica)叶绿体比C3 植物紫花苜蓿(Medicago sativa)积累的更多. (2)淀粉粒较小且较少时,紫花苜蓿叶绿体基粒类囊体膜增多,与基质类囊体膜相间排列有序;谷子叶绿体的基粒垛及基粒类囊体膜数均增多,但基粒变小,基质类囊体膜变长,且有些膜出现膨胀甚至破损. (3)淀粉粒较大且积累过多时,紫花苜蓿叶绿体中尚可隐约见到由4~8 个类囊体膜组成的短小基粒零星分布于淀粉粒间;谷子叶绿体中几乎找不到可辨认的基粒和基质类囊体膜  相似文献   

4.
几种高山植物叶绿体淀粉粒的变化特征   总被引:7,自引:0,他引:7  
利用透射电镜对生长于青藏高原东北部达坂山(海拔3900m)的5种高山植物叶绿体超微结构进行了观察。结果发现,在所研究的5种高山植物叶绿体中,淀粉粒数量均较多,淀粉粒呈长椭圆形或圆形,沿叶绿体长轴分布。在珠芽蓼的叶绿体中,淀粉粒的电子密度内外不均匀,外周电子密度低,中央电子密度高。在其余4种高山植物中,淀粉粒的电子密度均较低。另外,在这5种高山植物叶绿体中还出现了脂质小球。其类囊体均出现了不同程度的膨大现象。研究表明,高山植物叶绿体中淀粉粒的这种变化是对逆境的一种适应,是青藏高原特殊生态条件长期胁迫的结果。  相似文献   

5.
盐胁迫下芦苇叶肉细胞超微结构的研究   总被引:18,自引:0,他引:18  
对青藏高原柴达木盆地柯柯盐湖边盐碱地上生长的芦苇叶肉细胞的超微结构进行了研究,并以西宁地区非盐碱地上生长的芦苇作对照。结果表明:西宁地区的芦苇叶肉细胞的叶绿体呈椭圆形,其膜系统完整,基粒片层和基质片层发育良好。在盐碱地上生长的芦苇叶肉细胞的叶绿体呈圆形,叶绿体内出现较大的淀粉粒,并发现有线粒体嵌入叶绿体的现象。叶绿体的类囊体膨大,线粒体的嵴也有膨大的现象。在盐湖水中生长的芦苇叶肉细胞,叶绿体的类囊体排列紊乱、扭曲、松散。类囊体膜局部被破坏,部分类囊体膜解体,空泡化,甚至消失,一些溶解了的类囊体流进细胞质中。综上所述,芦苇叶肉细胞超微结构的变化是该植物适应柯柯盐湖地区盐渍、低温、低气压、强辐射等环境因子的结果。  相似文献   

6.
青海高原不同海拔珠芽蓼叶绿体超微结构的比较   总被引:12,自引:0,他引:12       下载免费PDF全文
 用电子显微镜技术观察研究了生长于青海高原3个海拔地带(2500m、3200m、3980m)的珠芽蓼(polygonum viviparum L.)叶绿体的超微结构,发现随着海拔的升高,叶绿体结构呈现显著的变化趋势。2500m和3200m处叶绿体形状规则,分布在细胞边缘。3980m处叶绿体膨大变形,且分布在整个细胞当中。海拔升高,类囊体膜减少,膜垛叠程度减小。不同海拔珠芽蓼叶绿体的类囊体膜结构差异较大,特点显著。随海拔升高,珠芽蓼叶绿体破坏程度增加。主要表现为类囊体膜肿胀、类囊体膜溶解和叶绿体破裂。许多破裂的叶绿体中残留有发达的基粒和大而多的淀粉粒。珠芽蓼叶绿体的这些结构特征,既是环境胁迫的结果,又是植物适应性的表现。  相似文献   

7.
典型盐地植物叶绿体超微结构的研究   总被引:13,自引:1,他引:12  
本文首次报道了典型盐地植物盐琐琐(H(?)m strob(?)ceum M. P.)和盐爪爪(Ka(?)dium fo(?)tatum (Pall.) Moq.)叶绿体超微结构具有类囊体膨大、脂质球数目多和基粒排列不规则的特征。  相似文献   

8.
小麦黄化突变体叶绿体超微结构研究   总被引:4,自引:0,他引:4  
利用透射电镜对小麦自然黄化突变体及其突变亲本(西农1718)叶片细胞叶绿体的数目、形态及超微结构进行比较分析。结果发现:(1)3种不同黄化程度突变体的叶绿体分布、数目、形状及大小与突变亲本无明显差异;(2)突变体叶绿素含量为野生型58%的黄绿植株与其突变亲本叶绿体超微结构无明显差异,基质类囊体与基粒类囊体高度分化,基粒数目以及基粒片层数目较多;(3)突变体金黄和绿黄植株的叶绿素含量分别为野生型的17%、24%,其叶绿体超微结构与突变亲本明显不同,突变体的叶绿体发育存在明显缺陷,其中突变体金黄植株的叶绿体内无基粒、基质片层清晰可见,有淀粉粒,嗜锇颗粒较多,而突变体绿黄植株的叶绿体内有基粒,但明显少于突变亲本,且基粒片层较少,基质类囊体较发达。结果表明该黄化突变体叶绿体超微结构的改变,是由于叶绿素含量降低造成,推测,该黄化突变是由于叶绿素合成受阻导致的。  相似文献   

9.
白粉菌侵染对小麦叶片显微及超微结构的影响   总被引:1,自引:0,他引:1  
杨若林  刘建云等 《西北植物学报》2001,21(2):293-296,T010,T011
通过半薄及超薄切片,比较了正常和受白粉菌感染的小麦叶片细胞的显微及超微结构的差异。观察结果发现:(1)受感染小麦叶肉细胞的细胞壁上局部沉积大量团状电子致密颗粒;(2)叶绿体形状由原来的椭圆形转变成圆形,叶绿体膜破裂;类囊体膨大,基粒片层排列疏松,同时,叶绿体内嗜饿性颗粒数量增加;(3)线粒体膜解体,内含物分散到了细胞质中。  相似文献   

10.
王亚琴  夏快飞   《广西植物》2006,26(5):570-572,540
研究了转PSAG12-ipt基因水稻和对照植株发育过程中叶片中的叶绿体结构的变化。发现水稻发育到乳熟期,转基因植株叶片中的叶绿体与对照植株开始出现明显的差别。对照叶绿体中嗜锇体体积增大,数目增多,大部分基粒的类囊体膜膨胀、裂解,片层结构解体。而转基因植株叶片中的叶绿体结构变化不大,嗜锇体相对有所增加,但体积较小,大部分基粒类囊体片层结构仍然排列整齐,少数类囊体垛叠化丧失。  相似文献   

11.
The photosynthetic protein complexes in plants are located in the chloroplast thylakoid membranes. These membranes have an ultrastructure that consists of tightly stacked 'grana' regions interconnected by unstacked membrane regions. The structure of isolated grana membranes has been studied here by cryo-electron microscopy. The data reveals an unusual arrangement of the photosynthetic protein complexes, staggered over two tightly stacked planes. Chaotrope treatment of the paired grana membranes has allowed the separation and isolation of two biochemically distinct membrane fractions. These data have led us to an alternative model of the ultrastructure of the grana where segregation exists within the grana itself. This arrangement would change the existing view of plant photosynthesis, and suggests potential links between cyanobacterial and plant photosystem II light harvesting systems.  相似文献   

12.
对生长在青藏高原东北部海拔高度为3700m处的盆花垂头(Cremanthodiumdiscoideum)和唐古特乌头(Aconitumtangutcum)叶肉细胞叶绿体光合膜系进行超微分析表明:叶绿体被膜异常,基拉片层叠垛程度小,基粒和基质类囊体肿胀严重。叶绿体超微结构上的这些特征,是青藏高原低气压、严寒和强辐射等生态条件综合作用的结果。  相似文献   

13.
Moustakas  M.  Eleftheriou  E.P.  Ouzounidou  G. 《Photosynthetica》1998,34(2):169-177
A 24 h exposure of the salt-tolerant grass Thinopyrum bessarabicum (Savul. and Rayss) A. Love seedlings to 1 mM aluminium (Al) in nutrient solution at pH of 9.0 resulted in a significant reduction of the biomass. In control samples the mesophyll chloroplasts exhibited the usual lens shape with most grana arranged in straight or slightly curving lines, and only 6.5 % of the grana were out of order. In Al-treated plants the mesophyll chloroplasts displayed a slightly distorted shape and distended size with most grana arranged in bow-like lines, while in the central region of the organelle as many as 26.7 % of the grana were independent and out of order in relation to the long axis. The morphological changes in the chloroplast shape and grana arrangement were probably due to swelling and distension of the chloroplasts in consequence to the altered membrane permeability. The initial in vivo chlorophyll (Chl) fluorescence FO, as well as the intermediate FI and peak fluorescence FP were increased under the Al stress: this indicated a destruction of photosystem (PS) 2 reaction centres and increased reduction of QA. The (FI-FO)/(FP-FO) ratio exhibited a significant increase indicating higher proportion of PS2 centres unable to reduce QB. Changes in the chloroplast ultrastructure seemed to be the reason of photosynthetic electron transport inhibition. Yet all these changes in the photosynthetic performance and chloroplast ultrastructure were considered as indirect effects of Al treatment since Al concentration in the leaves was undetectable. Disturbances in the chloroplast ultrastructure could be caused by a reduced uptake and/or transport of other nutrients.  相似文献   

14.
A 24 h exposure of the salt-tolerant grass Thinopyrum bessarabicum (Savul. and Rayss) A. Love seedlings to 1 mM aluminium (Al) in nutrient solution at pH of 9.0 resulted in a significant reduction of the biomass. In control samples the mesophyll chloroplasts exhibited the usual lens shape with most grana arranged in straight or slightly curving lines, and only 6.5 % of the grana were out of order. In Al-treated plants the mesophyll chloroplasts displayed a slightly distorted shape and distended size with most grana arranged in bow-like lines, while in the central region of the organelle as many as 26.7 % of the grana were independent and out of order in relation to the long axis. The morphological changes in the chloroplast shape and grana arrangement were probably due to swelling and distension of the chloroplasts in consequence to the altered membrane permeability. The initial in vivo chlorophyll (Chl) fluorescence FO, as well as the intermediate FI and peak fluorescence FP were increased under the Al stress: this indicated a destruction of photosystem (PS) 2 reaction centres and increased reduction of QA. The (FI-FO)/(FP-FO) ratio exhibited a significant increase indicating higher proportion of PS2 centres unable to reduce QB. Changes in the chloroplast ultrastructure seemed to be the reason of photosynthetic electron transport inhibition. Yet all these changes in the photosynthetic performance and chloroplast ultrastructure were considered as indirect effects of Al treatment since Al concentration in the leaves was undetectable. Disturbances in the chloroplast ultrastructure could be caused by a reduced uptake and/or transport of other nutrients. This revised version was published online in June 2006 with corrections to the Cover Date.  相似文献   

15.
日光温室光温因子对黄瓜叶绿体超微结构及其功能的影响   总被引:12,自引:4,他引:12  
在日光温室内,研究了光温因子对黄瓜叶绿体超微结构及其功能的影响.结果表明,因季节之间光、温条件不同,日光温室黄瓜叶片显微结构和叶绿体超微结构有一定差异,1月份光照弱叶肉细胞较大,而5月份光照强叶绿体数较多.在该试验条件下,未发现叶片光合速率与叶绿体超微结构之间有直接或密切的相关性.在各生长季节其光合速率均为第4叶>初展叶>基部叶,与叶龄及各叶位的受光量有关.如果将不同叶位叶放在相同的光照下,则差异明显减少.黄瓜叶片的叶肉细胞、叶绿体和淀粉粒的大小以及叶绿体数、基粒数、基粒厚度、基粒片层数都随叶位的下降而呈增加趋势。不同品种、同品种不同生长时期的叶片显微结构和叶绿体超微结构及其功能也有一定的差异.限制日光温室冬季黄瓜光合作用的主要因素是光照弱、有效光照时数少,而在晴天温度的限制作用相对较小。阴天因光照弱而导致的室内低温则是限制黄瓜生长的关键因素.  相似文献   

16.
两种浮萍植物的叶绿体超微结构对模拟酸雨的敏感性   总被引:3,自引:0,他引:3  
用蒸馏水和不同pH值(5.5,4.5,3.5和2.5)的模拟酸雨培养浮萍(Lemn aminorL.)和紫萍(Spirodela polyrrihiza(L.)Schleid)48h后,测定叶状体膜系统渗漏率,观察叶绿体超微结构的变化。结果表明,随酸雨pH的下降,两种浮萍叶状体的膜系统渗率增大,叶绿体超微结构受损。浮萍和紫萍对酸雨的敏感性和伤害时细胞与叶绿体形态变化显示一定的种间差别。浮萍的结构性损伤始于pH4.5,原生质体收缩,出现质壁分离,基粒结构混乱;pH3.5时叶绿体肿胀呈球状,片层结构破坏并出现许多空泡。紫萍在pH3.5时膜系统的外渗率仍较低,基粒和基质类囊体结构无明显改变;pH2.5时叶绿体结构才出现严重伤害,但未见明显的肿胀与质壁分离现象。因此认为在两种浮萍的共生水体中,紫萍对酸雨污染有较强的生存竞争能力,而浮萍则可用作pH<4.5水体的灵敏指示植物。  相似文献   

17.
The effect of ploidy, parental chloroplast type and parentalnuclear genome dosage on net photosynthesis, Rubisco activityand chloroplast ultrastructure was studied among somatic hybridsof diploid S. brevidens and dihaploid S. tuberosum. An increasein nuclear ploidy resulted in an increase in net photosynthesisand specific leaf weight. There were no significant differencesin net photosynthesis or Rubisco activity between the hybridshaving different parental chloroplast type. Examination of thehexaploid hybrids indicated that Rubisco activity was affectedby nuclear-organelle genome incompatibility, the most affectedcombination being tuberosum chloroplast type with brevidensnuclear genome. Examination of chloroplast ultrastructure revealedwide variation in the size of chloroplasts, starch granules,plastoglobuli and in grana stacking among the hybrids and betweenfusion parents. Key words: Somatic hybrids, Solanum, net photosynthesis, Rubisco, chloroplast ultrastructure  相似文献   

18.
Field studies were conducted to investigate ontogenic changes in leaf photosynthesis and chloroplast ultrastructure of a single cotton (Gossypium hirsutum L.) leaf subtending the fruit. A 20-d old leaf was the most physiologically active with net photosynthetic rate (PN) of 16.5 mol m-2 s-1 and nitrogen (N) concentration of 168 mmol m-2. These values declined with leaf age and a close relationship existed between them. Concurrent with declines in PN, ultrastructural alterations occurred in the chloroplast: the 20-d old leaf had increased grana number and thylakoids per granum and a few plastoglobuli. Afterwards, the grana number and thylakoids per granum declined with leaf age indicating disintegrated grana and stroma lamellae. Concomitant with disintegrated membrane system was the presence of numerous large plastoglobuli. The PN was closely related to grana number and thylakoids per granum suggesting that the decline in PN with leaf age was associated with ultrastructural changes in the chloroplast.  相似文献   

19.
Soybean plants grown in controlled environment cabinets under light intensities of 220 w/m2 or 90 w/m2 (400–700 nm) and day to night temperatures of 27.5–22.5 C or 20.0–12.5 C in all combinations, exhibited differences in growth rate, leaf anatomy, chloroplast ultrastructure, and leaf starch, chlorophyll, and chloroplast lipid contents. Leaves grown under the lower light intensity at both temperatures had palisade mesophyll chloroplasts containing well-formed grana. The corresponding leaves developed under the higher light intensity had very rudimentary grana. Chloroplasts from high temperature and high light had grana consisting of two or three appressed thylakoids, while grana from the low temperature were confined to occasional thylakoid overlap. Spongy mesophyll chloroplasts were less sensitive to growth conditions. Transfer experiments showed that the ultrastructure of chloroplasts from mature leaves could be modified by changing the conditions, though the effect was less marked than when the leaf was growing.  相似文献   

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