葡萄属植物叶片显微和超微结构观察

利用光学显微镜和透射电镜,对葡萄属(Vitis L.)15种、1亚种和4栽培品种植物的叶片显微和超微结构进行了观察研究。结果显示:(1)东亚种群中桦叶葡萄的叶片总厚度和各组织厚度最大;北美种群的河岸葡萄和沙地葡葡叶片总厚度、上表皮厚度、栅栏组织厚度、海绵组织厚度和下表皮厚度较大,但叶片组织紧密度最小。(2)各种类间栅栏组织中叶绿体数目均多于海绵组织,且刺葡萄、桦叶葡萄、葛藟葡萄和秋葡萄叶肉细胞中叶绿体数目最多,北红、蘡薁、网脉葡萄和菱叶葡萄叶片中叶绿体数目最少,巨峰和桦叶葡萄叶绿体中含有大量的淀粉粒,桦叶葡萄、网脉葡萄、秋葡萄、葛藟葡萄、刺葡萄和华东葡萄含有较多的嗜锇颗粒。研究表明,中国野生葡萄的许多种类在叶片组织紧密度、叶绿体数量、淀粉粒数量、嗜锇颗粒数量方面均高于北美种群的河岸葡萄和沙地葡萄,具有更高的结构抗性基础。     

金叶连翘叶片色素含量和解剖结构研究

金叶连翘不同冠层的成熟叶片呈现为不同颜色。以朝鲜连翘深绿色叶为对照,观察金叶连翘冠层上、中、下位叶色,测定其叶片大小和叶绿素a、叶绿素b、总叶绿素及类胡萝卜素含量,同时观察分析叶片横切面解剖结构,旨在阐明叶片色素含量和解剖结构对叶色的影响。研究表明:上层黄色、中层黄绿色、下层浅绿色,黄、黄绿、浅绿色叶总叶绿素含量分别是对照组的0.51%、4.44%和66.47%,均极显著低于对照(P <0.01),但黄绿叶的叶绿素a/b比值显著升高(P <0.05),黄、黄绿叶的总叶绿素/类胡萝卜素比值极显著降低(P <0.01)。黄、黄绿叶的叶绿体发育停滞于单片层时期,类囊体分化程度低,浅绿叶类囊基粒片层肿胀;黄叶细胞器降解,栅栏组织细胞形状难以辨别,黄绿叶上表皮细胞凸起。金叶连翘属于总叶绿素及叶绿素b合成减少型突变体,表现为叶绿素严重缺失,类胡萝卜素相对含量升高;其叶绿体发育停滞,类囊体结构异常,是金叶连翘叶片呈现不同颜色的主要因素,与其叶片解剖显微结构无关。     

银杏叶发育过程的解剖结构观察

利用半薄切片、扫描电镜和透射电镜技术,对不同发育时期的银杏叶片解剖结构变化进行连续观察.结果显示:(1)展叶期叶片无栅栏组织和海绵组织分化,细胞排列紧密;展叶后叶肉分化为栅栏组织1~2层,细胞呈长椭球形,海绵组织发达,细胞呈横向排列的椭球形,并形成通气系统;衰老期部分海绵组织细胞变小,并纵向排列,通气系统发达.(2)除叶基和叶缘外,成熟叶片的维管束直径基本相同,维管束鞘发达.(3)早期叶片上表皮有较多气孔分布,展叶后气孔密度迅速降低;下表皮气孔数量较多,但气孔密度随叶片的成熟逐渐下降.(4)叶绿体类囊体在展叶期结构简单,常含1~2个较大淀粉粒;生长期类囊体结构逐渐完善,淀粉粒较少,无嗜锇滴;衰老期类囊体瓦解,嗜锇滴大量累积.     

类根瘤对烟草叶片中叶绿体及其淀粉粒含量的影响

目的：探讨类根瘤对烟草叶片中的叶绿体及其淀粉粒含量的影响。方法：无菌培养烟草再生植株,其中一部分经过一定浓度的2,4－D与豇豆根瘤菌512快生型突变株菌液诱导处理,另外一部分为对照。运用常规电镜技术制作叶片厚切片,通过显微观察,对两组烟草叶片细胞中的叶绿体及其淀粉粒含量进行对比分析。结果：结瘤植株叶片细胞内的叶绿体含量虽然与对照之间无明显差异,但叶片栅栏组织和海绵组织细胞内淀粉粒的含量却均较对照减少,其中前者减少更为明显（P＜0.05)。结论：结瘤烟草叶片内光合产物的大量同化可能与类根瘤的形成有关。     

小麦黄化突变体叶绿体超微结构研究

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。     

NaCl胁迫对宁夏枸杞叶和幼根显微及超微结构的影响

以宁夏枸杞为材料,采用超薄切片技术制备样品,应用光学显微镜和透射电镜分析了不同浓度NaCl胁迫条件下宁夏枸杞叶和幼根显微及超微结构的变化。结果表明：随着NaCl胁迫的加重,(1)叶片上表皮细胞增厚,栅栏组织细胞出现缩短现象,排列疏松且紊乱;幼根的初生结构无明显变化。(2)叶片栅栏组织中叶绿体不再紧靠在细胞膜上,叶绿体双层膜破坏,基粒片层松散排列,杂乱无章,出现膨胀和空泡现象,淀粉粒和嗜锇颗粒增多,叶肉细胞中线粒体发生轻微变化;幼根中皮层薄壁细胞线粒体形状发生改变,结构破坏,内膜和外膜模糊甚至破裂,大多数嵴模糊,出现空泡现象;细胞核解体,基质外溢。研究表明, 不同浓度的NaCl胁迫对宁夏枸杞叶片和幼根细胞的显微及超微结构影响不同,NaCl浓度大于200 mmol/L时,宁夏枸杞叶片和幼根细胞的显微及超微结构发生了明显变化,且叶肉细胞中线粒体的变化没有叶绿体的变化显著,推测叶肉细胞中线粒体的耐盐性比叶绿体强。     

盐胁迫对‘鄞红’葡萄光合特性及叶片细胞结构的影响

采用水培法,研究了不同浓度(0%、0.2%、0.4%、0.6%、0.8%)Na Cl处理对1年生‘鄞红’葡萄幼苗生长、光合特性及叶片细胞结构的影响,为盐碱地‘鄞红’葡萄的栽培提供参考。结果表明:低浓度盐分(Na Cl≤0.4%)对葡萄生长、叶绿素含量、叶片细胞结构、气体交换参数以及叶绿素荧光参数影响不显著。随着盐浓度增大,葡萄生长受到抑制,叶片表皮层、栅栏组织、海绵组织变厚,海绵组织和栅栏组织细胞间隙变大,栅栏组织细胞叶绿体肿胀,内含淀粉粒和嗜锇颗粒变大且增多;同时,叶绿素含量、净光合速率(Pn)、气孔导度(Gs)、胞间CO2浓度(Ci)、蒸腾速率(Tr)、PSⅡ最大光化学效率(Fv/Fm)、PSⅡ潜在活性(Fv/Fo)、光化学电子传递效率(ETR)、光化学猝灭系数q P以及栅栏组织/海绵组织比逐渐下降,非光化学猝灭系数q N逐渐上升;尤其在0.8%Na Cl浓度胁迫下,葡萄生长、叶绿素含量、叶片细胞结构、气体交换参数以及叶绿素荧光参数均发生显著性变化。由此表明,‘鄞红’葡萄能在较低含盐量(Na Cl≤0.4%)的基质中正常生长。     

水稻温敏叶绿素突变体叶片超微结构的研究

对温敏转绿型叶绿素突变体1103S和武金4B“斑马叶”性状表达过程中叶绿素含量、叶绿体超微结构的变化进行了比较研究。结果表明,在一定条件下,叶片的失绿、复绿与叶绿素含量的下降、上升变化趋势一致;叶绿体结构在失绿区表现为严重退化,基粒和基粒片层减少,淀粉粒和嗜锇粒增多;复绿后,其叶绿体结构重建和恢复     

施肥对烟草腺毛叶绿体形态结构的影响

以烤烟K326为材料,在盆栽条件下分别施用纯有机肥和无机肥,在烟株旺长期和成熟期对叶面腺毛进行显微和超微结构观察,以明确肥料对烟草叶面腺毛生长发育的影响,结果显示:移栽后50 d,荧光下观察有机肥处理下腺头细胞叶绿素荧光强度较无机肥强烈,腺头细胞内叶绿体结构完整,类囊体基粒片层发达,嗜锇颗粒大而多;无机肥处理的细胞内叶绿体少,嗜锇颗粒较小,数量也较少.移栽后70 d,有机肥处理腺毛头细胞叶绿体双层膜结构依然完整,但类囊体基粒片层结构已经解体,其中积累大量黑色嗜锇颗粒;此时无机肥处理腺毛头细胞叶绿体结构完整,仍可清晰看到类囊体基粒片层仅含少量嗜锇颗粒.推测有机肥处理在初期促进了烟草腺毛细胞叶绿体的发育和叶绿素的合成、积累,在后期,促进叶绿素及内膜系统的降解,并有利于亲脂类物质的合成和积累,从而对腺毛分泌物积累和烟叶香气品质形成具有积极影响.     

烟草腺毛发育过程中叶绿体形态学研究

应用荧光显微技术和电镜技术,对不同发育时期烟草叶面腺毛的叶绿素荧光和叶绿体结构进行了比较研究.结果发现,在腺毛发育初期,腺头细胞叶绿素荧光明显,叶绿体类囊体结构清晰;随着腺头细胞的分裂和生长,叶绿素荧光逐渐增强,叶绿体数目逐渐增多,类囊体发达,嗜锇颗粒产生;在腺毛发育成熟以后,叶绿素荧光减弱,类囊体膜降解,嗜锇颗粒增多;随着腺毛的分泌活动增强,叶绿体完全降解,磷脂双层膜消失,嗜锇颗粒扩散到细胞质中,并最终聚集在细胞质膜附近.     

Transformation of plastids in the leaves of Acer negundo L. var. odessanum (H. Rothe).

The leaves of Acer negundo L. var. odessanum (H. Rothe), if permanently exposed to strong sunlight, do not green, but remain yellow and finally become bleached. In yellow leaves the plastids contain single thylakoids and no grana. In plastids of bleached leaves, however, only vesicles are present. The concentration of chlorophylls and photosynthetic activity are much lower in those leaves than in the green ones. If the illumination is reduced (e.g. by shading) both the yellow and the bleached leaves become greenish, and even fully green after a few days at a sufficiently low light intensity. The plastids of yellow-green leaves contain small grana. In dark green leaves the thylakoid system of the chloroplasts is normally developed forming true grana, regardless of whether the leaves were originally green, or became green by shading the yellow or bleached ones. Their pigment concentration and photosynthetic activity are also normal. If green leaves are exposed to sunlight they do not yellow or bleach. During a 3-week period the structure of the thylakoid system did not perceivably change, with the exception that large plastoglobules formed in the stroma.     

Light metabolism and chloroplast structure in chlorophyll-deficient tobacco mutants

In tobacco mutants which contain 1/8 to 1/30 of the normal chlorophyll content per leaf area the content of yellow pigments (carotenoids) is also diminished but less in proportion to the chlorophyll content. The pale yellow-green mutant grows and matures provided that light intensity and temperature make up for the chlorophyll deficiency. In most green plants and algae light saturation of photosynthesis is reached between 5000 and 12,000 ergs/sec.cm2. The mutants continue to give higher photosynthetic rates until the incident intensity reaches 50,000 ergs/sec.cm2. While often unable to compensate their respiration at intensities at which the normal green plant approaches saturation, the pale yellow-green leaves are able to provide the mutant plant with two to three times the absolute amount of carbon dioxide assimilation per hour and leaf area at 50,000 ergs/sec.cm2 and 20 degrees to 25 degrees C. These observations are valid for red light lambda > 600 m mu. In blue light lambda < 575 m mu (below saturation levels) the mutants separate into two classes, one in which absorption by some carotenoid enhances the photosynthetic rate and the other in which the absorbing pigments are inactive and therefore depress the rate strongly. The unusual kinetics of photosynthesis in these chlorophyll-deficient tobacco mutants is reflected in the structure of their chloroplasts which we found to be of a kind thus far not described for healthy, normally growing, higher plants.     

水稻温敏型突变体叶片间断失绿的超微结构

在短时降温诱导下,水稻温敏型突变体１１０３ｓ（Ｏｒｙｚａ　ｓａｔｉｖａ　ｓｓｐ．ｉｎｄｉｃａ）植株间断失绿性状表达（临界温度２３．１℃）过程中,叶绿体含量的增减与叶色变化相符。电镜观察发现,性状表达时叶片间断失绿区叶绿体内部结构发生退化,呈现基粒垛叠片层数的异常减少,或基粒消失仅剩基粒残迹,有的甚至整个叶绿体为高电子密度的囊泡状结构。但在同一叶片的绿区,叶绿体仅表现基粒片层数减少、排列不规则,嗜锇小球聚集。在叶片失绿区的复绿过程中,叶绿体的这些变化又可逆转,内部结构重建,最后整个叶绿体结构基本恢复正常。水稻温敏突变体１１０３ｓ叶片间断失绿性状表达过程,实质上是一个由温度调控的叶绿体结构退化与修复的可逆过程。     

Ultrastructural Observation on Chloroplast of the Thermo sensitive Green yellow Banded Leaf Mutant in Rice (Oryza sativa ssp.indica)

The green-yellow bands interrupted discolorated transverse bands on the leaves of the thermo-sensitive rice line l103s (Oryza sativa ssp. indica ) was induced by cold shock and the change of leaf color coincided with the change of chlorophyll contents. Uhrastmctural observation revealed that the chloroplast slructure in the yellow part degenerated, i.e., the number of stocks in granum abnormally decreased, thylakoid system was disintegrated and replaced by few single thylakoid, and then the whole structure of some chloroplast became vesicle-hke structure with high electronic density. Nonetheless, in the green zone of the green-yellow banded leaf, there were slight decrease in the number granum thylakoids, disordered grana arrangement in the chloroplast, and aggregation of osmiophile globule. However, it was found that these structural alternations were reversable in the process of recovery of the yellow part of the leaves into green, and the chloroplast structure renewed normally. It might be concluded that the character of green-yellow bands induced by cold shock was consequent upon a reverse process of degeneration and regeneration.     

Studies on the Conversion of Chloroplast to Chromoplast During Fruit Ripening in Solanum pseudo-capsicum var. diflorum

Determination of chlorophyll and carotenoid contents in the ectocarp during fruit ripening in Solanum pseudo-capsicum var. diflorurn (Veil.) Bitter revealed that the changes of fruit colour coincided with the decline of chlorophyll and the increase of carotenoid contents. The conversion of chloroplasts to chromoplasts in the fruit was studied by electron microscopy. The early green fruit was characterized by chloroplasts with a typical grana-intergranal thylakoid structure. At yellow-green fruit stage the thylakoid system was disintegrated and replaced by few non-chlorophyllous single thylakoids, with accumulation of large osmiophilic plastoglobules. The plastids developed as the so-called proplastids. These indicated dedifferentiation of chloroplasts in a ripening fruit. When the fruit reached its yellow stage, numerous large plastoglobules contained in the young chromoplasts frequently showed transitional changes to plastid tubule structure. At first, the center of plastoglobules became semi-translucent. It was believed that the young chromoplast were in an initial state of carotenoid deposition, followed by plastoglobules elongation and tubule protrution from the globules. These tubules were surrounded with an electron dense membranous sheath leaving the core semi-translucent. Concurrently a series of vesicles in different developmental stages appeared from the stroma of the plastid, likely representing a process of formation of numerous small new plastoglobules. In the chromoplasts of a ripe orange-or orange red-colored fruit only numerous tubules and small plastoglobules were present. The plastid tubules increased in number and elongated in length filling the mature chromoplast. Numerous small plastoglobules also increased and distributed in the spaces between tubules. These results indicated that the reconstruction of a mature chromoplast from a dedifferentiated plastid was really a form of redifferentiation, and it might be concluded that the conversion of chloroplast to chromoplast in the fruit of S. pseudo-capsicum var. diflorum, in fact, was a processes of dedifferentiation and redifferentiation.     

Effect of Elevated CO2 Concentration on the Starch Grain Accumulation in Chloroplasts from Soybean Leaves at Different Nodes

Soybean ( Glycine max (L.) Merr. ) plants were grown under ambient and elevated CO2 (plus 350 μL/L) concentration in cylindrical open-top chamber to examine their effects on the ultra- structure of chloroplasts. The upper, lower and mid-node leaves were harvested after 7 days full expansion under different CO2 concentrations and ultrathin section were prepared for transmission electron microscopy. In general, the average content of starch grains and thylakoid membranes in the chloroplasts under the elevated CO2 concentration were always higher than the control. Under higher CO2 concentration, there were smaller and less starch grains in the chloroplasts from upper-node leaves than those from mid-node leaves. The shape of their starch grains changed from elliptical to oval,and their thylakoid membranes and grana remained normal. At lower-node leaves, one or two oval, or three timer starch grains accumulated in the chloroplasts. In the mid-node leaves,however, some chloroplasts under higher CO2 concentration had rather large tim elliptical starch grains which could consequently cause disruption of grana and stroama thylakoids in the chloroplasts, whereas in other chloroplasts, the thylakoid membranes and grana were not deformed as the starch grains were smaller and elliptical. On the other hand, under higher CO2 concentration, the stacking degree of thylakoid membranes and starch grains accumulation in the mid-node leaves were significantly higher than those in the lower-node leaves,and slightly higher than the upper-node leaves. These results, in agreement with the chlorophyll contents and photosynthetic rate which reported by other authors in the past, indicated that the ultrastmcture response of the chloroplasts from different leaf nodes of soybeen under elevated CO2 coneentration were different. The seed yield of soybean at different nodes was decreased gradually from mid-nodes towards both upper- and lower-nodes. The greatest effect of elevated CO2 eoneentrafion on seed yeild was at the mid-node leaves. The variation of seed yields of soybean at different nodes under elevated CO2 concentration was in eoneert with the change in the ultrastmcture of chloroplasts and in turn the change in their photosynthetic rates of leaves at different nodes.     

建兰叶艺品种光合色素含量及叶绿素荧光特性分析

以建兰栽培品种‘八宝奇珍’Cymbidium ensifolium ‘Ba Bao Qi Zhen’为材料,对其正常绿色叶片及黄化变异叶片的光合色素含量、叶绿素荧光参数进行比较。结果表明,‘八宝奇珍’黄化变异叶片的叶绿素总量、叶绿素a 和叶绿素b 含量均显著低于正常绿色叶片,且随着黄化面积的增大呈现递减趋势;黄化变异叶片的初始荧光量(Fo)、最大荧光产量(Fm)、Kautsky 诱导效应最大荧光(Fp)、稳态光适应光化学淬灭系数(qP)以及光适应稳态荧光产量(Ft_Lss)均显著低于正常绿色叶片;PSⅡ原初光能转化效率(Fv/Fm)与正常绿色叶片无明显差异;稳态非光化学荧光淬灭系数(NPQ)高于正常绿色叶片。