盐胁迫下欧李叶片叶绿体结构及功能与超微弱发光激发的关系

为初步探索叶绿体及其功能与超微弱发光（Ultraweak luminescence,UWL）激发的关系,揭示UWL与植物生长生理的关系及植物中UWL产生的来源,本试验以欧李（Cerasus humilis）为材料,采用室内盆栽试验,设置不同浓度盐胁迫处理,研究盐胁迫下欧李叶片的叶绿体结构和功能（叶绿素代谢、光系统Ⅱ活性、光合性能和能量水平）及UWL的变化规律和相关性。结果表明：（1）盐胁迫降低了欧李叶片的UWL强度,且盐浓度越高,UWL强度下降程度越大;（2）盐胁迫破坏了欧李叶片叶绿体结构,并降低了其功能,具体表现为叶绿素合成主要前体物质（ALA、Mg-ProtoⅨ）含量显著降低,叶绿素降解酶叶绿素酶（Chlase）活性显著升高,导致叶绿素（Chla、Chlb、Car和Chla+b）含量显著降低;同时欧李叶片FV/Fm、FV/FO、PIABS、RC/CSm、φE0和ΨE0快速下降,光系统Ⅱ活性受到严重抑制;进一步Pn、Tr、Gs下降,Ci同时升高,光合性能显著减弱;ATP含量和EC的显著降低,导致能量水平整体下降;（3）欧李叶片UWL强度与其叶绿素代谢物质及叶绿素含量（ALA、Mg-ProtoⅨ、Chla、Chlb、Car和Chla+b）、光系统Ⅱ活性（FV/Fm、FV/FO、PIABS、RC/CSm、φE0、ΨE0）、光合性能（Pn、Tr、Gs）及能量水平（ATP、EC）等参数均呈显著或极显著性正相关关系。（4）盐浓度越高,胁迫时间越长,欧李叶片UWL强度与叶绿体功能各指标变化程度越大,且高浓度处理下的相关性整体高于低浓度处理。可见,在盐胁迫条件下,欧李叶片叶绿体结构被破坏,同时其功能受到损伤活力下降,从而导致UWL强度降低;UWL强度与叶绿体及其功能关系密切,叶绿体可能是UWL的细胞器之一;UWL强度可以用来反映欧李叶片受盐胁迫伤害的程度。     

Chloroplast division in cultured cells of the hornwortAnthoceros punctatus

Using cultured cells of the hornwortAnthoceros punctatus, the change in the relative chloroplast DNA content in each stage of chloroplast division was investigated to clarify the relationship between the division cycle of a chloroplast and a cell nucleus. Samples of cultured cells were stained with 4′,6-diamidino-2-phenylindole (DAPI) and then observed with an epifluorescence microscope and a chromosome image analyzing system (CHIAS). A chloropiast in cultured cells duplicated DNA with an increase in size. When a chloroplast began to divide, it was constricted in the middle, taking a dumbbell shape, and then divided into two daughter chloroplasts. In cultured cells of this species, the pattern of quantitative change of chloroplast DNA, that is, the DNA replication pattern of chloroplasts, corresponded to that of cell nuclear DNA in mitosis.     

甜菊叶愈伤组织诱导过程中叶绿体的超微结构变化

观察了甜菊(Stevia rebaudiana Bertoni)叶外植体愈伤组织诱导过程中叶绿体的超微结构变化。结果表明,当叶外植体转移到培养基上培养后,叶绿体的片层结构逐渐退化。在叶绿体发生退化的过程中伴有叶绿体出芽和原质体的形成。推测新产生的原质体来自叶绿体产生的芽状体。而叶绿体本身最后完全解体消失。叶绿体超微结构的这种变化与高度液泡化的叶肉细胞脱分化至分生状态是平行的。随着培养的进行,分生状态的细胞发生液泡化变为薄壁细胞时,在愈伤组织表层的细胞中,质体重新形成片层结构,而内部细胞的质体则充满淀粉粒。     

The 26- and 14-kDa phosphoproteins associated with spinach chloroplast envelope membranes are distinct membrane-bound pools of the light-harvesting complex of photosystem II and of the small subunit of ribulose-1,5-bisphosphate carboxylase-oxygenase

Two chloroplast envelope proteins from spinach (Spinacia oleracea L.) exhibiting relative molecular masses (M_rs) of 26 and 14 kDa are apparently phosphorylated by a unique Ca²⁺-dependent serine protein kinase. The activity of this enzyme shows the same sensitivity towards pH, Ca²⁺, Mg²⁺, H7 [1-(5-isoquinolinesulphonyl)-2-methylpiperazine] and ATP concentrations (Siegenthaler and Bovet 1993, Planta 190, 231–240). Autoradiographic analyses following two-dimensional-gel electrophoresis (isoelectric focusing and SDS-PAGE) associated with Western blotting experiments indicate that these two phosphoproteins appeared to be pools of the light-harvesting complex of photosystem II (LHCII) and of the ribulose-1,5-bisphosphate carboxylase-oxygenase (Rubisco) small subunit, respectively. Immunoprecipitation of envelope-phosphorylated proteins, using immunoglobulins (IgG) directed to the apoprotein of LHCII and to the holoenzyme of Rubisco confirmed that LHCII and the Rubisco small subunit effectively incorporated ³²P from (-³²P)ATP in isolated envelope membranes. We propose that, in agreement with the fact that protein import is driven by ATP, the phosphorylation of LHCII and the Rubisco small subunit could take place after the processing of precursor proteins and could be an obligatory step for their internalization into chloroplasts.Abbreviations 2D two dimensional - IEF isoelectric focusing - IgG immunoglobulin G - LHCII light-harvesting chlorophyll a/b proteins of PSII - LHCII A apoprotein a of LHCII - LHCIIB apoprotein b of LHCII - LS Rubisco large subunit - Mops (3-[N-morpholino]propanesulfonic acid) - M_r relative molecular mass - PI isoelectric point - Rubisco ribulose-1,5-bisphosphate carboxylase-oxygenase - SS Rubisco small subunit The authors are grateful to Delphine Herrmann and Xavier Denys for their technical assistance. They also greatly thank Prof. R. J. Ellis and Dr. L. Barnett (Warwick University, UK) and Dr. P. Schürmann (University of Neuchâtel, Switzerland) for providing them with antibodies directed to the pea and spinach Rubisco holoenzymes and Dr. M. Spangfort (Lund University, Sweden) for his gift of the antibody directed to the pea LHCII apoprotein. This study was supported by the Swiss National Science Foundation. This work was part of a doctoral program carried out by L.B. in the Laboratoire de Physiologie végétale, Université de Neuchâtel, Switzerland.     

The course of chloroplast DNA replication and its relationship to other reproductive processes in the chloroplast and nucleocytoplasmic compartment during the cell cycle of the algaScenedesmus quadricauda

Summary DNA containing structures (cellular, chloroplast and mitochondrial nuclei) were stained with the fluorochrome DAPI. Fluorescence intensity, as a measure of DNA content, was estimated during the mitotic cycle in synchronized populations of the chlorococcal alga,Scenedesmus quadricauda. In cells yielding eight daughter cells, three consecutive steps in chloroplast DNA increase occurred over one mitotic cycle. The first step was performed shortly after releasing the daughter cells, the second and third steps occurred consecutively during the first half of the mitotic cycle. Commitment to chloroplast DNA replication was chronologically separated from commitment to division of chloroplast nuclei, revealing that these two chloroplast reproductive steps were under different control mechanisms. The replication of chloroplast DNA occurred at a different time to that of cell-nuclear DNA. The coordination of chloroplast reproductive processes and those in the nucleocytoplasmic compartment were governed by the mutual trophic and metabolic dependency of these compartments rather than by any direct or feedback control controlled by either of them.Abbreviations DAPI 46-diamidino-2-phenylindole - ptDNA DNA in chloroplast nuclei - nucDNA DNA in cell nuclei     

ent-Kaurene biosynthesis in a cell-free system from wheat (Triticum aestivum L.) seedlings and the localisation of ent-kaurene synthetase in plastids of three species

A cell-free system capable of converting [¹⁴C]geranylgeranyl diphosphate to ent-[¹⁴C]kaurene and to an unidentified acid-hydrolysable compound was obtained from the basal portions of 5-d-old shoots of wheat seedlings (Triticum aestivum L.). By means of marker enzyme activities, the synthesis of ent-kaurene and the unknown compound could be quantitatively assigned to a plastid fraction obtained by Percoll-gradient centrifugation of the homogenate. The enzyme activities were located within the plastids, probably in the stroma, because they withstood trypsin treatment of the intact plastids, and the plastids had to be broken to release the activity, which was then obtained in soluble form. Plastid membranes had no activity. Plastid stroma preparations obtained from pea (Pisum sativum L.) shoot tips and pumpkin (Cucurbita maxima L.) endosperm also yielded ent-kaurene synthetase activity, but did not form the unknown compound. The exact nature of the active plastids was not ascertained, but the use of methods for proplastid isolation was essential for full activity, and the active tissues are all known to contain high proportions of proplastids, developing chloroplasts or leucoplasts. We therefore believe that ent-kaurene synthesis may be limited to these categories. Mature chloroplasts from the wheat leaves did not contain ent-kaurene synthetase activity and did not yield the unknown component. Incorporation of [¹⁴C]geranylgeranyl diphosphate into ent-[¹⁴C]kaurene and the unknown component was assayed by high-performance liquid chromatography with on-line radiocounting. ent-[¹⁴C]Kaurene was identified by Kovats retention index and full mass spectra obtained by combined gas chromatography-mass spectrometry. The unknown component was first believed to be copalyl diphosphate, because it yielded a compound on acid hydrolysis, which migrated like copalol on high-performance liquid chromatography and gave a mass spectrum very similar to that of authentic copalol. However, differences in the mass spectrum and in retention time on capillary gas chromatography excluded identity with copalol. Furthermore, the unhydrolysed compound was not converted to ent-kaurene by a cell-free system from C. maxima endosperm as copalyl diphosphate would have been.Abbreviations ADH alcohol dehydrogenase - AMO 1618 2isopropyl-4-(trimethylammoniumchloride)-5-methylphenyl piperi-dine-1-carboxylate - BSA bovine serum albumin - DTT dithioth-reitol - GA_n gibberellin A_n - GAPDH NADP⁺-glyceraldehyde 3-phosphate dehydrogenase - GC-MS combined gas chromatography-mass spectrometry - GGPP all trans-isomer of geranyl-geranyl diphosphate - KS ent-kaurene synthetase - MDH malate dehydrogenase - MAA mevalonate activating activity - SOR shikimate oxidoreductase We thank Mrs. Gudrun Bodtke and Mrs. Dorothee Dasbach for able technical assistance, Prof. L.N. Mander (Australian National University, Canberra, Australia) for ent-[²H₂]kaurene and Dr. Yuji Kamiya (RIKEN, Saitama, Japan) for geranylgeraniol and copalol. The work was supported by the Deutsche Forschungsgemeinschaft.     

Molecular phytogeny of conifers using RFLP analysis of PCR-amplified specific chloroplast genes

We investigated the molecular phylogeny of conifers using restriction endonuclease fragment length polymorphism of six polymerase chain reaction-amplified chloroplast genes — frxC, rbcL, psbA, psbD, trnK, and 16S. We detected 227 total site changes among species, representing 23, 26, 38, 48, 67, and 25 site changes in frxC, psbA, psbD, rbcL, trnK and 16S, respectively. The mean nucleotide substitution was 10.75% (SD 0.573) among species in five families. Forty maximally parsimonious trees were obtained using the Wagner parsimony method, and a 50% majority-rule consensus tree was obtained from them. Data analysis produced similar basic patterns when both the Wagner parsimony and the neighbor-joining methods were applied, and the main lineages were clearly separated. Taxaceae and Cephalotaxaceae species were used as the out-groups when applying Wagner parsimony methods. With the Wagner method, the consistency index was 0.510, the retention index was 0.879, and tree length was 435 steps. Our results indicated that Cupressaceae and Taxodiaceae are closely related families and that Sciadopitys verticillata is the basal lineage of Cupressaceae and Taxodiaceae. The neighbor-joining tree is similar to the 50% majority-rule consensus of the 40 Wagner parsimony trees except for the position of Keteleeria daversifolia, the Picea and Cedrus group, and the divergence within Cupressaceae.     

Pervasive migration of organellar DNA to the nucleus in plants

A surprisingly large number of plant nuclear DNA sequences inferred to be remnants of chloroplast and mitochondrial DNA migration events were detected through computer-assisted database searches. Nineteen independent organellar DNA insertions, with a median size of 117 by (range of 38 to >785 bp), occur in the proximity of 15 nuclear genes. One fragment appears to have been passed through a RNA intermediate, based on the presence of an edited version of the mitochondrial gene in the nucleus. Tandemly arranged fragments from disparate regions of organellar genomes and from different organellar genomes indicate that the fragments joined together from an intracellular pool of RNA and/or DNA before they integrated into the nuclear genome. Comparisons of integrated sequences to genes lacking the insertions, as well as the occurrence of coligated fragments, support a model of random integration by end joining. All transferred sequences were found in noncoding regions, but the positioning of organellar-derived DNA in introns, as well as regions 5 and 3 to nuclear genes, suggests that the random integration of organellar DNA has the potential to influence gene expression patterns. A semiquantitative estimate was performed on the amount of organellar DNA being transferred and assimilated into the nucleus. Based on this database survey, we estimate that 3–7% of the plant nuclear genomic sequence files contain organellar-derived DNA. The timing and the magnitude of genetic flux to the nuclear genome suggest that random integration is a substantial and ongoing process for creating sequence variation.Correspondence to: J.L. Blanchard     

阳离子诱导大叶藻叶绿体膜中激发能在PSⅡ和PSⅠ之间分配变化的机理(英文)

用Ｃａ２＋ 和胰酶处理大叶藻（Ｚｏｓｔｅｒａ ｍ ａｒｉｎａ）叶绿体膜研究了其类囊体膜多肽成分与Ｍｇ２＋ 诱导其Ｃｈｌａ荧光和类囊体膜表面电荷变化之间的相互关系,观察到：１．在正常的叶绿体膜中,Ｍｇ２＋ 诱导ＰＳⅡ荧光强度的增高与其诱导类囊体膜表面电荷密度的降低密切相关;２．用Ｃａ２＋ 处理这种叶绿体膜,除去类囊体膜表面的３２～３４ ｋＤ多肽对Ｍｇ２＋ 诱导的上述现象无影响;３．如果用胰酶消化Ｃａ２＋ 处理过的叶绿体膜,进一步除去膜表面的２６ ｋＤ多肽,Ｍｇ２＋诱导的这些现象则全部消失。这些实验结果清楚地表明,在大叶藻的叶绿体膜中,类囊体膜表面的２６ ｋＤ 多肽是阳离子诱导这两种相关现象的特异性作用部位。对阳离子调节激发能在ＰＳⅡ和ＰＳⅠ之间分配的机理进行了讨论     

Nicotiana chloroplast genome

Summary Using the existing restriction map and probes from wheat and pea ct-DNA, seven protein genes have been localized in the chloroplast genome of N. tabacum. On the clock-like map, the location of each gene is indicated by its time zone: the 15.2 kD polypeptide of the cytochrome b/f complex at 315, cytochrome f at 430, LS of RuBPCase at 450, both and subunits of ATP synthase at or near 500, proton-translocating subunit of ATP synthase at 820, subunit of ATP synthase at 840 and the 32 kD protein at 930. The genome organization of Nicotiana chloroplast DNA is similar to spinach.