用光谱技术鉴定植物色素突变体

1983年我国报道了从γ-射线处理的“矮杆齐”大麦中得到了一株黄绿色的突变体1832C[1]。本文用光谱技术对该突变体的光合色素成分进行了鉴定。1　材料和方法　　材料为六棱裸大麦“矮杆齐”和由该品种大麦诱变形成的黄绿色突变体1832C(Mb1832C),以及作为对照的缺失Chlb的突变体大麦Chlorina-f2[2]都于3月初播种于实验田中。　　每个样品取30g新鲜的叶片,先用自来水后用蒸馏水冲洗干净。把洗净的叶片摊放在干净的纱布上吸干表面水分,剪碎,加入100mL预冷的含有0.4mol/L山梨醇、0.1mol/LTris-HCl(pH7.6)的缓冲液,用组织捣碎机先慢速捣碎1…     

黄化油菜突变体Cr3529子叶类囊体膜光谱性质研究

以发育10d的黄化油菜突变体为材料,分析了突变体油菜子叶类囊体膜的色素含量、室温吸收光谱、叶绿素荧光发射和激发光谱以及蛋白内源荧光光谱的变化。数据显示：与野生型相比,突变体油菜子叶类囊体膜的光合色素Chl α和Chl b含量均减少．但Chl α／b比值升高;突变体油菜子叶类囊体膜叶绿素捕光能力和受激发能力均下降,且较依赖于Chl α捕光并将光能激发传递给PSⅡ反应中心;突变体油菜子叶类囊体膜的蛋白内源荧光也明显异于野生型。进一步表明突变体油菜子叶类囊体膜蛋白组成发生了改变。     

Biosynthesis of Chlorophyll Regulates Reconstruction of Thylakoid Membrane in Cyanobacterium Synechocystis sp. PCC 6803

By DNA recombination technology in vitro, ORF469- mutant of cynobacterium Synechocystis sp. PCC 6803 was constructed, in which the ORF469 fragment relative to the light-inde-pendent protochlorophyllide (Pchlide) reduction was deleted. In BG-11 medium with 5 mmol/L glucose, the mutant was grown in darkness with a brief period (10 min) of illumination everyday (light-activated heterotrophic growth, LAHG) for 2 weeks to delete chlorophyll (Chl). The 665 mn Chl peak was replaced by the 629 nm Pchlide peak in the absorption spectra of the methanol extracts. The absorption spectra of the intact cells showed only shoulder peak at 620 nm (representing phyco- biliprotein). The thylakoid membrane disappeared, but the amount of phycobilisome did not decrease. When the mutant was transferred from LAHG condition to continuous light illumination for 3 h, the absorbance at 665 nm became higher than that at 629 nm and two peaks at 620 nm and 440 nm,representing phycobiliprotein and Chi-protein complex respectively, appeared in the absorption spectra of the intact cells. Mter exposure to the light for 8 h, the thylakoid membrane was visible in the cells. And for 24 h, a shoulder peak was present at 680 nm in the absorption spectra of the intact cells. Meanwhile the absorption spectra of the methanol extracts had no difference from that of cells grown in the light. Mter 48 h, the shape of the absorption spectra of the intact cells became the same as that of cells grown in the light. The layers of thylakoid membranes were as clear as those of the cells grown in the light. The results indicated that the biosynthesis of chlorophyll regulates the reconstmction of thylakoid membrane rendering the Chl protein complex to play its functional role in photosystems.     

蓝细菌Synechocystis sp.PCC6803中叶绿素合成调控类囊体膜重建的研究

利用ＤＮＡ体外重组技术构建了蓝细菌Ｓｙｎｅｃｈｏｃｙｓｔｉｓｓｐ．ＰＣＣ６８０３突变种ＯＲＦ４６９,它的染色体ＤＮＡ缺失ＯＲＦ４６９片段,该突变种在加入５ｍｍｏｌ／Ｌ葡萄糖的ＢＧ－１１培养基中经遮光培养２周后叶绿素全部消失,细胞甲醇提取液光谱中６６５ｎｍ处叶绿互峰消失,６２９ｎｍ处出现原叶绿素酸酯峰,完整细胞光谱仅存在６２０ｎｍ的藻胆蛋白肩峰,细胞的类囊体膜消失,但藻胆体颗粒并未减少;细胞培养物重     

Isolation and Characterization of the Thylakoid Membranes from the NaCl-Resistant (NaClr) Mutant Strain of the Cyanobacterium Anabaena variabilis

NaCl-induced changes in the thylakoid membrane of wild-type Anabaena variabilis and its NaCl^r mutant strain have been studied. Biochemical characterization of the thylakoid membrane was done by taking its absorption and fluorescence spectra at different wavelength. The thylakoid membranes of both strains were isolated by mechanical disruption of the freeze-dried and lysozyme-treated cells, followed by differential and density gradient centrifugation. The light absorption spectra of the thylakoid membrane showed three and two peaks in NaCl^r mutant strain and its wild-type counterpart respectively at wavelengths of 400–850 nm. These peaks revealed that the thylakoid membrane contains a large amount of carotenoid and chlorophyll a. Fluorescence emission spectra of thylakoid membrane of NaCl^r mutant and its wild-type strain at excitation wavelength of 335 nm showed two different peaks, one at 340 nm and the other at 663 nm respectively. The light absorption and fluorescence spectra of the thylakoid membrane also revealed that the membrane contained carotenoid pigment, chlorophyll (Chl) a, and a pigment with an emission peak at 335 nm. The HPLC analysis of the pigments of the thylakoid membrane indicates that the NaCl^r mutant strain under NaCl stress contained an additional peak for the carotenoid pigment, which was lacking in its wild-type counterpart. The major peak in thylakoid membrane was that of echinenone and β-carotene. Whereas the polypeptide composition of thylakoid membrane differed in the wild-type and its NaCl^r mutant strain, no difference in the cell wall protein pattern was observed in both strains. The thylakoid membrane of NaCl^r mutant strain contained two additional protein bands that were absent in its wild-type counterpart. The thylakoid membrane of the wild-type and its NaCl^r mutant strain also showed morphological variations under NaCl stress. Received: 14 April 2000 / Accepted: 23 May 2000     

Comparison of chlorophyll a spectra in wild-type and mutant barley chloroplasts grown under day or intermittent light

The absorption (640–710 nm) and fluorescence emission (670–710 nm) spectra (77 K) of wild-type and Chl b-less, mutant, barley chloroplasts grown under either day or intermittent light were analysed by a RESOL curve-fitting program. The usual four major forms of Chl a at 662, 670, 678 and 684 nm were evident in all of the absorption spectra and three major components at 686, 693 and 704 nm in the emission spectra. A broad Chl a component band at 651 nm most likely exists in all chlorophyll spectra in vivo. The results show that the mutant lacks not only Chl b, but also the Chl a molecules which are bound to the light-harvesting, Chl a/b, protein complex of normal plants. It also appears that the absorption spectrum of this antenna complex is not modified appreciably by its isolation from thylakoid membranes.Abbreviations Chl chlorophyll - DL daylight - ImL intermittent light - WT wildtype - LHC light-harvesting Chl a/b protein complex - S.E. standard error of the mean DBP-CIW No. 763.     

大麦突变种Chlorina-f 2类囊体膜的叶绿素蛋白复合体

当突变种大麦Chlorina-f 2的类囊体膜在SDS/叶绿素的重量比为10:1,叶绿素的浓度为0.5mg/ml的条件下增溶,并在SDS-聚丙烯酰胺凝胶电泳中进行分离时,共出现4条含叶绿素的带。按电泳迁移率的增加,这些带分别是CP Ⅰ,CPa 1,CPa 2和FC。光谱测定表明CP Ⅰ为混有少量光系统Ⅱ??成分的光系统Ⅰ反应中心复合体,CPa 2为光系统Ⅱ反应中心复合体,CPa 2为光系统Ⅱ内周天线复合体。属于光系统Ⅰ的CP Ⅰ的叶绿素含量占总叶绿素的45.6%,而属于光系统Ⅱ的CPa Ⅰ和CPa 2的叶绿素之和则占总叶绿素的43.2%。可见在缺b大麦中,两个都失缺其外周天线的光系统的叶绿素含量是基本相等的。这和光合作用中两个光反应相互串联的理论是完全一致的。     

Mutants of Sweetclover (Melilotus alba) Lacking Chlorophyll b: Studies on Pigment-Protein Complexes and Thylakoid Protein Phosphorylation

Mutants of sweetclover (Melilotus alba) with defects in the nuclear ch5 locus were examined. Using thin-layer chromatography and absorption spectroscopy, three of these mutants were found to lack chlorophyll (Chl) b. One of these three mutants, U374, possessed thylakoid membranes lacking the three Chl b-containing pigment-protein complexes (AB-1, AB-2, and AB-3) while still containing A-1 and A-2, Chl a complexes derived from photosystems I and II, respectively. Complete solubilization and denaturation of the thylakoid proteins from this mutant revealed very little apoprotein from the Chl b-containing light-harvesting complexes, the major thylakoid proteins in normal plants. The normal and mutant sweetclover plants had active thylakoid protein kinase activities and numerous polypeptides were labeled following incubation with [γ-³²P]ATP. With the U374 mutant, however, there was very little detectable label co-migrating with the light-harvesting complex apoproteins on polyacrylamide gels. The Chl b-deficient chlorina-f2 mutant of barley (Hordeum vulgare) also had an active protein kinase activity capable of phosphorylating numerous polypeptides, including ones migrating with the same mobility as the light-harvesting complex apoproteins. These results indicate that the sweetclover mutants may be useful systems for studies on the function and organization of Chl b in thylakoid membranes of higher plants.     

Applying and comparing two chemometric methods in absorption spectral analysis of photopigments from Arctic microalgae

Pigment absorption property of two arctic microalgae species (Skeletonema marinoi and Chlorella sp.) cultured at three temperatures (0, 4 and 8 °C) was analyzed. Carotenoids and chlorophyll (Chl) c were positive factors to the high cell activities and primary productivities of S. marinoi at 4 °C and 0 °C, respectively; whereas Chl a had a positive effect on Chlorella sp. at all three temperatures, and carotenoids had a relatively high effect at 0 °C. The absorption locations of photopigments were analyzed in detail using both fourth derivative and Symlet-6 wavelet analysis. Both methods precisely detected pigments with a relative large content; the fourth derivative analysis specifically detected the existence of a Chl a peak at about 410 nm and showed better differentiation of diatoxanthin, whereas the wavelet analysis distinctively indicated the existence of chlorophyllide a, β-carotene, and Chl c. The separation limit to pigment peaks of the fourth derivative spectra (4 nm) was 1 nm higher than that of the wavelet high-frequency spectra (3 nm). The wavelet high-frequency spectra were more stable in detecting pigment locations and were more effective in discriminating microalgae. Small algebraic difference of 10⁻¹⁶ between the reconstructed absorption spectra obtained by the inverse wavelet transform and their corresponding original spectra also showed the validity of Symlet-6 wavelet in the detection of pigments. Another specific discovery of this research is the existence of a Chl a allomer in Chlorella sp., which was detected by both methods.     

Heat-induced changes in photosystem I activity as measured with different electron donors in isolated spinach thylakoid membranes.

Heat-induced changes in photosystem I (PSI) have been studied in terms of rates of oxygen consumption using various donors (DCPIPH2, TMPDred and DADred), formation of photo-oxidized P700 and changes in Chl a fluorescence emission at 77 K. Linear heating of thylakoid membranes from 35 degrees C to 70 degrees C caused an enhancement in PSI-mediated electron transfer rates (DCPIPH2-->MV) up to 55 degrees C. However, no change was observed in PSI rates when other electron donors were used (TMPDred and DADred). Similarly, Chl a fluorescence emission spectra at 77 K of heat-treated thylakoid membranes did not show any increase in peak at 735 nm, however, a significant decrease was observed as a function of temperature in the peaks at 685 and 694 nm. In DCMU-treated control thylakoid membranes maximum photo-oxidized P700 was generated at g = 2.0025. In heat-treated thylakoid membranes maximum intensity of photo-oxidized P700 signal was observed at approximately 50-55 degrees C without DCMU treatment. The steady-state signal of the photo-oxidized P700 was studied in the presence of DCPIPH2 and TMPDred as electron donors in DCMU-treated control and in 50 degrees C treated thylakoid membranes. We present here the first of such comparative study of PSI activity in terms of the rates of oxygen consumption and re-reduction kinetics of photo-oxidized P700 in the presence of different electron donors. It appears that the formation of the P700+ signal in heat-treated thylakoid membranes is due to an inhibited electron supply from PSII and not due to spillover or antenna migration.     

Long-wavelength chlorophyll forms in Photosystem I from pea thylakoids

Absorption maximum positions of three LW Chl forms in pea chloroplasts were estimated using 77 K excitation spectra of fluorescence detected in their maxima (720, 732 and 746 nm). The 705, 714 and 723 nm components were revealed in the second derivative plots of the excitation spectra. The same maxima were found in normalized excitation spectra obtained with dividing excitation spectra by absorption spectrum. It was confirmed that the observed maxima belong to absorption of LW fluorescing Chl forms. The same maxima were displayed in an action spectrum of P700 oxidation measured at room temperature. It confirms the energy transfer from LW Chl forms to P700. Close to 50% efficiency of bulk Chl forms in both excitation of LW fluorescence and P700 oxidation was found. Analysis of the shape of normalized excitation spectra suggests that there is no energy exchange among LW Chl forms. Their location and physiological role are discussed. This revised version was published online in June 2006 with corrections to the Cover Date.     

2-D gel densitometer for high-contrast and selective imaging of chlorophyll-containing protein complexes separated by non-denaturing polyacrylamide gel electrophoresis

In this work, we present a home-made two-dimensional (2-D) CCD imaging system for the monochromatic densitometry of plane gels and its application to the imaging and densitometry of chlorophyll (Chl)-containing proteins separated by non-denaturing polyacrylamide gel electrophoresis. The monochromatic imaging of separated green bands at the wavelengths corresponding to their absorption band increases their contrast. This allows a better visualization of the faint-green bands in the gel and using of samples with lower Chl content for the electrophoresis. By the comparison of 2-D densitograms of the same gel illuminated with 670 and 650 nm lights, that is, at the red absorption maximum of Chl a and b, respectively, we achieved a selective imaging of the complexes with different Chl a/b ratio. This approach was used to specify an unknown band that appeared in the gel of the sample prepared from the thylakoid membranes of preheated barley leaves.     

华山松吸收光谱及叶绿素荧光特性的地理变异

利用分离的叶绿体作实验材料,发现华山松(Pinus armandi Franch.)南方种源的4阶导数吸收光谱在680nm处峰值较大,在670nm处峰值较小,而北方种源中出现了在680nm处峰值较在670nm峰值小的类群,推断北方种群反应中心活力有下降趋势。南、北种源之间的低温(77K)荧光发射光谱有明显差异,PSⅠ、PSⅡ发射峰位置出现地理变动。低温荧光激发光谱分析表明,地理变异主要发生在叶绿素a的分子状态上。研究还表明,完整的针叶因为有角质层、松脂等物质干扰,检测不出光谱的差异,不是理想的实验材料。     

Linear dichroism of microalgae, developing thylakoids and isolated pigment-protein complexes in stretched poly(vinyl alcohol) films at 77 K

A variety of unicellular algae, thylakoids from higher plants in different stages of maturity and isolated pigment-protein complexes were oriented in stretched polyvinyl alcohol films. Low temperature linear dichroism (LD) spectra of Chlorella pyrenoidosa and higher plant thylakoids in the films were very similar to those obtained after orientation of similar samples using magnetic or electric fields. Positive LD bands corresponding to Chl a (670) and (682) and negative bands due to Chl a (658) and Chl b(648) were resolved in spectra of the light harvesting Chl a/b protein. Chl b (648) and Chl a (658) and (670) were not seen in the LD spectrum of thylakoids from plants grown in intermittent light, the Chl b-less mutant of barley, Euglena gracilis or the cyanobacteria, Phormidium luridum and Anacystis nidulans, but did appear upon chloroplast maturation in Romaine lettuce and during the greening of etiolated and intermittent light plants. The highly oriented long wavelength Chl a (682) in the light-harvesting complex may represent residual PS II whose peak dichroism is centered at 681 nm. The PS I preparation had a Chl a/b ratio of approx. 6 and the LD spectrum was positive with a maximum at 690-694 nm and a band of lower amplitude at 652 nm. The minor LD band was not observed in PS I preparations from organisms that lack chl b such as the cyanobacteria, intermittent light plants and the Chl b-less mutant of barley. We suggest that the 652 nm band is due to Chl b molecules associated with the antenna of PS I and are distinct from those on the light harvesting complex whose orientation is different. We also conclude that all the Chl a forms are oriented and that the long geometric axes of the pigment-protein complexes, as deduced from the configuration they assume in the stretched films, are axes that normally lie parallel to the plane of the native thylakoid.     

Geographical Variation in the Characteristics of Absorption Spectra and Fluorescence Spectra of Pinus armandi

By measuring the derivative absorption spectra of chloroplasts of different populations of Pinus armandi Franch., it was found that southern populations maintained higher absorption at 680 nm than at 670 nm, but some of the northern populations deviated the maximum absorption from 680 nm to 670 nm, which indicated that the activity of PS Ⅱ in some of the northern populations declined. Clear geographical differences also have been found in the positions of emission peaks of PS Ⅰ and PS Ⅱ in the fluorescence emission spectra at 77 K. Analysis of the fluorescence excitation spectra at 77 K revealed geographical changes in the absorption.status of Chl a. Besides, the experimental results indicated that the intact needles of Pinus armandi are not ideal materials to be used in detecting the geographical variation in photochemical reaction process because the presence of thicker coat, resin etc. can conceal the spectral differences in different populations.     

毕氏海蓬子光系统Ⅱ颗粒的分离与鉴定

采用去污剂TritonX-100增溶类囊体膜和高速离心的方法,首次分离和纯化了毕氏海蓬子的光系统Ⅱ（photosystemⅡ,PSⅡ）颗粒,通过光谱学和SDS-PAGE对其进行鉴定并与类囊体膜进行比较。室温吸收光谱结果表明,PSⅡ颗粒在蓝区的叶绿素（chlorophyll,ChOb和胡萝卜素类吸收峰为485nm,在红区的Ch1b吸收峰为655nm,这两个峰值均低于类囊体膜中的。77K荧光发射光谱结果表明,提取的PSⅡ颗粒基本不含光系统Ⅰ（photosystemⅠ,PSI）的低温荧光反射峰737nm。77K荧光激发光谱结果显示,海蓬子PSⅡ颗粒在470-485am之间的Ch1b 和胡萝卜素类的荧光发射峰明显低于类囊体膜的。这说明在PSⅡ中大部分的PSI已被除去。电泳结果显示,海蓬子PSⅡ颗粒缺少PSI反应中心蛋白质亚基PsaA和PsaB,这说明提取到的PSⅡ纯度较高,这为进一步研究毕氏海蓬子PSⅡ的结构与功能奠定基础。     

The Chlorophyll-Protein Complexes Resolved from Ultrasonically Broken Thylakoid Memb-ranes of Blue-Green Algae

When the thylakoid membranes of blue-green algae were broken by ultrasonic vibrations and subjected to polyacrylamide gel electrophoresis at 4℃, six green zones were resolved. They were designated as CPIa, CPlb, CPI; CPal, CPa2, and FC. The absorption spectrum of CPI had a red maximum at 674 nm and a peak in the blue at 435 nm. It was identified as PS chlorophyll a-protein Complex, but was contaminated with minor PSⅡ which was implied by the appearance of fluorescence emission peak at 680 nm besides the main one at 725 nm at 77 K. The spectral properties of CPIa and CPlb were similar to that of CPl. The absorption spectra of CPa1 and CPa2 were similar, both having red maxima at 667 nm and peaks in the blue at 431.5 nm. Their fluorescence emission had the same peaks at 684 nm at 77 K indicating that they belonged to PSⅡ. It was recognized that CPal of 47 kD is the reaction center complex of photosystem Ⅱ and CPa2 of 40 kD is the internal antenna complex of photosystem Ⅱ. The spectral characteristics of the chlorophyll-protein complexes resolved by ultrasonic method were similar to those of the same complexes resolved by SDS solubilization, except the absorbance positions of CPa1 and CPa2 in the blue peak and the red one which shifted to blue about 3–5 nm. It was calculated that in thylakoid membranes of blue-green algae 40.93% chlorophyll was in PSⅠ, while 38.78% of chlorophyll in PSⅡ. The difference of chlorophyll contents between PSⅠ and PSⅡ was only 2.15%. Concerning the fact that minor PSⅡ compound remained in the part of PSⅠ zones, it might be concluded that the distribution of chlorophyll between PSⅠ and PSⅡ in blue-green algae was equal. This result was in agreement with the hypothesis that PSⅠ and PSⅡ operates in series in photosynthetic electron transport.     

抽薹期叶绿素缺乏油菜突变体类囊体膜的研究

以抽薹期野生型油菜和黄化突变体叶片为材料,分析了叶片和类囊体膜的不合色素组成、色素与蛋白相对含量;比较了类囊体膜光谱特性（室温吸收光谱、荧光光谱和圆二色谱）;用温和电泳、ＳＤＳ－ＰＡＧＥ分析了类囊体色素蛋白和多肽组成。结果显示：与野生型相比,突变体叶片的蛋白质含量不变,而Ｃhaa和Ｃhlb的含量均减少;突变体类囊体膜的Ｃhla/Chlb比值较高,Ｃhl/蛋白质比值较低,ＬＨＣⅡ色素蛋白复合物的单体和三聚体含量明显减少。突变体的天线系统相对较小、捕光效率较低。     

Organization of the pigment molecules in the chlorophyll a/b/c containing alga Mantoniella squamata (Prasinophyceae) studied by means of absorption, circular and linear dichroism spectroscopy

In order to obtain information on the organization of the pigment molecules in chlorophyll (Chl) a/b/c-containing organisms, we have carried out circular dichroism (CD), linear dichroism (LD) and absorption spectroscopic measurements on intact cells, isolated thylakoids and purified light-harvesting complexes (LHCs) of the prasinophycean alga Mantoniella squamata. The CD spectra of the intact cells and isolated thylakoids were predominated by the excitonic bands of the Chl a/b/c LHC. However, some anomalous bands indicated the existence of chiral macrodomains, which could be correlated with the multilayered membrane system in the intact cells. In the red, the thylakoid membranes and the LHC exhibited a well-discernible CD band originating from Chl c, but otherwise the CD spectra were similar to that of non-aggregated LHC II, the main Chl a/b LHC in higher plants. In the Soret region, however, an unusually intense (+) 441 nm band was observed, which was accompanied by negative bands between 465 and 510 nm. It is proposed that these bands originate from intense excitonic interactions between Chl a and carotenoid molecules. LD measurements revealed that the Q(Y) dipoles of Chl a in Mantoniella thylakoids are preferentially oriented in the plane of the membrane, with orientation angles tilting out more at shorter than at longer wavelengths (9 degrees at 677 nm, 20 degrees at 670 nm and 26 degrees at 662 nm); the Q(Y) dipole of Chl c was found to be oriented at 29 degrees with respect to the membrane plane. These data and the LD spectrum of the LHC, apart from the presence of Chl c, suggest an orientation pattern of dipoles similar to those of higher plant thylakoids and LHC II. However, the tendency of the Q(Y) dipoles of Chl b to lie preferentially in the plane of the membrane (23 degrees at 653 nm and 30 degrees at 646 nm) is markedly different from the orientation pattern in higher plant membranes and LHC II. Hence, our CD and LD data show that the molecular organization of the Chl a/b/c LHC, despite evident similarities, differs significantly from that of LHC II.     

Changes of Thylakoid Membrane Stacks and Chl a/b Ratio of Chloroplast from Sacred Lotus (Nelumbo nucifera) Seeds During Their Germination Under Light

Changes of chloroplast thylakoid membrane stacks and Chl a/b ratio in the plumule of sacred lotus (Nelumbo nucifera Gaertn) seeds during their germination under light were as follows: Before germination there were giant grana and very low Chi a/b ratio (0.9) in the chloroplasts. Two days after germination, the thylakoid membranes of the giant grana gradually loosened and even destacked (disintegrated), the Chl a/b ratio was 1.06. Four clays after germination, the newly formed grana thylakoid membranes were 3–5 times shorter than those of the supergrana thylakoid membranes before germination and less grana stacks were seen; the Chl a/b ratio was 1.42. Six days after germination, the stacked thylakoi membranes became more orderly arranged. In addition the grana increased in number, the stroma thylakoid membranes were scarce, the Chl a/b ratio was 2.16. Eiglt days after germination, the thylakoid membranes in each granum decreased, but the total number of grana increased only slightly. In the meantime, some large starch grains and more stroma thylakoid membranes appeared; the Chl a/b ratio was 2.77. Ten days after germination normal thylakoid membrane structure was formed both in grana and stroma lamellae. They were arranged orderly as in the chloroplasts of other higher plants; the Chl a/b ratio was 2.80. The following conclusions could be drawn from the above mentioned results: 1) There was a negative correlation between the degree of stacking of the grana thylakoid membranes and the Chl a/b ratio. This statement further proved that the membranes stacking might mainly be induced by LHCII. 2) Development of the grana thylakoid membranes within chloroplasts from sacred lotus plumule followed that of the stroma thylakoid membranes, and the tendency of changes of their Chl 2/b ratio being from the lowest to the highest and then to normal were quite different from those of other higher plants. The chloroplasts iri the latter plants contain long parallel stacks of nonappressed primary thylakoids at second step, and the changes of their ratio of Chl a/b tend to be from the highest to the lowest and then to normal. There are indications that sacred lotus plumule might employ a distinctive developing pathway. This provides an important basis for Nelumbo to possess an unique position in phylogeny of Angiospermae.