五味子科植物花形态及其系统学意义

用光镜和扫描电镜观察了五味子科Ｓｃｈｉｓａｎｄｒａｃｅａｅ２３种、６变种和１变型的９１份花粉的形态。其中５ 、４变种和１变型的花粉形态为首次报道。该科花粉为单花粉,异极,辐射对称,扁球形至超扁球形,其萌发沟的排列格局在被子植物中是独一无二的。若按萌发沟的数目划分,该科花粉可分为３沟型和６沟型两个类型。外壁为网状纹饰,网眼的大小和网脊的宽度与花的形态有一定相关性。研究结果不支持Ｐｒａｇｌｏｗｓｋｉ对     

澜沧尧花（瑞香科）的花部形态发生及其系统学意义

通过扫描电镜对澜沧荛花Wikstroemia delavayi花部的形态发生过程进行了观察和分析,旨在为该属的系统学研究提供花部发育形态学资料.澜沧荛花花部的发生和早期发育呈远轴面向近轴面的顺序,但这一式样由于近轴面的器官在早期发育之后生长加速发生了转变.因此,花开放时所表现的所谓辐射对称,显然是由同一轮器官的异率生长所导致的次生现象.花盘发生于花萼筒基部的远轴面上,与花萼、雄蕊的发生间隔时间较长.花盘原基在下轮雄蕊着生处凹陷或间断,与之相对应,花盘裂片与下轮雄蕊呈互生.由此,花盘显然不是花托的一部分,也不是象花萼、雄蕊和心皮一样的独立结构,将其解释为雄蕊群的一部分更合理.花盘的发生和早期发育及其着生位置同其他花部器官的发生和发育式样具有明显的相关性,这种相关性对进一步阐明瑞香属Daphne和荛花属Wikstroemia的系统发育关系具有一定意义.根据对雌蕊群的发生和发育过程观察,该种的子房是由一个近轴面的可育心皮和一个远轴面的不育心皮融合而成的单室子房,为假单心皮雌蕊.尽管荛花属和瑞香属均属于单室子房,但澜沧荛花的子房维管束中的腹束排列于中轴位置,而目前资料显示瑞香属植物的腹束接近于侧膜位置,这方面仍需进一步研究.     

掌叶木的花器官发生及其系统学意义

利用扫描电子显微镜和光学显微镜观察了掌叶木的花器官发生过程。观察结果表明: 花序原基最先发生, 然后形成两个大小不一的花原基; 萼片原基的发生不同步, 螺旋状向心发生; 4-5枚花瓣原基以接近轮状方式近同时发生; 不存在花瓣-雄蕊复合原基; 7-8枚雄蕊原基为近同时发生, 其生长较花瓣原基快; 心皮原基最后发生, 3枚心皮原基为同时发生。花为单性花。在雌花中, 子房膨大而雄蕊退化。在雄花中, 雄蕊正常发育, 子房退化。讨论了掌叶木花器官发生和发育的系统学意义。     

防己科植物的叶表皮特征及其系统学意义

利用光学显微镜观察了防己科29尾50种3变种的叶表皮形态。结果表明：（1）该科植物叶表皮细胞形状为多边形或不规则形,垂周壁式样为平直和波状缘;首次发现一些属的表皮细胞排列成玫瑰花环式样;在Stephania等属发现其下表皮细胞中央有乳突。（2）气孔器为无规则型、环列型、十字型、辐射型和不等细胞型,几科均出现在下表皮,在表皮上的分布有散生和岛状聚集两种式样。（3）在五族中,Pachygoneae族和天仙藤族的上、下表皮细胞多为多边形,垂周壁平直,气孔器多为十字型和辐射型;而另外三族的上、下表皮细胞多为无规则形,垂周壁波状,气孔器则以无规则型为主,这些相关性状对于科下族的划分具有重要价值,同时也为一些属的系统学关系提供了佐证。     

质体系统发育基因组解析旋花科系统发育关系

旋花科是一个世界广布的类群,具有丰富的形态特征和重要的经济价值。然而,目前该科主要分支或族间的系统发育关系问题一直未解决。为解析旋花科内系统发育关系,该研究代表性选取旋花科内8个族40个物种,基于质体全基因组数据,使用最大似然法和贝叶斯推论进行系统发育分析。结果表明：(1)旋花科质体基因组均为四分体结构,质体基因组大小为113 273～164 112 bp,蛋白质编码基因数目为66～79个。(2)基于五种DNA矩阵(即WCG、CDS、LSC、IR、SSC)的系统发育分析结果显示,WCG矩阵和CDS矩阵的拓扑结构基本一致,仅少数分支的支持率略有差异;LSC矩阵和WCG矩阵的拓扑结构差异在于菟丝子族、马蹄金族和盐帚花族的系统位置;AU检验和SH检验结果显示,WCG矩阵和SSC矩阵与IR矩阵的拓扑结构有显著冲突。(3)所有系统发育分析结果均显示,菟丝子属和马蹄金族都包括在旋花亚科内,应处理为族等级。(4)基于WCG矩阵和CDS矩阵较好地解决了旋花科8个族之间的系统发育关系,即心被藤族和丁公藤族聚为一支,最先从旋花亚科分化出来,随后是菟丝子族,剩下的5个族分成2个分支。(5)系统发育基因组分析...     

中国无患子科植物的叶脉形态及其系统学意义

对国产狭义无患子科25属27种植物的叶脉形态特征进行了研究报道。结果表明：叶脉均属于羽状脉类型,其中多数为曲行羽状脉,部分为直行羽状脉;叶缘有全缘、具齿和深裂3种类型;二级叶脉具有分支和不分支两种类型;大部分种类具二级间脉,少数不具间脉或间脉不明显;多数种类的三级脉为结网型和贯串型并存;网眼的发育有完善和不完善2种类型;盲脉有简单、具分支和无盲脉3种类型。叶脉形态研究结果支持文冠果亚科以及广义鳞花木属概念,观察发现龙眼属、荔枝属与韶子属从脉序特征方面表现出较近的亲缘关系。编写了国产无患子科叶片脉序特征检索表。     

五福花科花部形态的变异式样及其系统学意义

由于四福花Ｔｅｔｒａｄｏｘａ顶花、侧花均为典型的４数花,并被认为是科内最原始的属,因而长期以来关于五福花Ａｄｏｘａ“总苞一萼”还是“萼一花冠”的争议得到了彻底解决。根据本研究,五福花顶花和侧花的变异痃较五福花科另外３个分类群要高得多。五福花顶花和侧花的变异率分别为２０％和３６１％。通过后位雄蕊的退化和两则相邻花瓣的融合,雄蕊和花瓣从６数至３数的减少系列仅存在于五福花中。本文假设五福花科顶花和侧花的     

骨碎补科植物叶表皮特征及其系统学意义

基于骨碎补科(Davalliaceae)植物属的界定和属下等级的划分一直存在较大争议,本研究首次对骨碎补科6属39种(秦仁昌系统)植物的叶表皮进行了扫描电镜观察。结果显示,骨碎补科有9种类型的角质层,其中,阴石蕨属(Humata)的角质层有密集的孔状凹陷结构;Wibelia条纹突起较厚,排列整齐且细密紧致;广义钻毛蕨属(Davallodes)内存在多种角质层类型,需要在属下进一步细分。本研究还根据角质层特征讨论了骨碎补科与一些近缘种类的关系。角质层特征是骨碎补科内种属分类的重要依据,而保卫细胞形状和气孔密度,均不能用来界定骨碎补科的属和种。本研究按角质层分类的结果与Kato和Tsutsumi的分子系统学分类观点一致。     

Mitochondrial DNA modifications associated with cytoplasmic male sterility in rice

Summary Mitochondrial DNA was isolated from fertile and cytoplasmic male sterile lines of rice. Restriction analysis showed specific modifications in the male sterile cytoplasm. In addition to the major mitochondrial DNA, three small plasmid-like DNA molecules were detected by agarose gel electrophoresis in both cytoplasms. An additional molecule was specifically found in the sterile cytoplasm. These mitochondrial DNA modifications support the hypothesis of the mitochondrial inheritance of the cytoplasmic male sterility in rice.     

DNA synthesis and cytoplasmic differentiation in tapetal cells of normal and cytoplasmically male sterile lines of Petunia hybrida

Summary A new method is described by which tapetal cells may be isolated from anthers of cytoplasmic male sterile (CMS) and fertile lines of Petunia hybrida. Using a combination of stereometry and Feulgen densitometry it has been possible to chart DNA synthesis and nuclear division with great precision within these cells. Results are presented which show CMS lines both to synthesize far less DNA than the fertiles and also to undergo less cell division. These differences in DNA kinetics and cytokinesis are obvious long before any differences between sterile and fertile lines may be detected in the meiocyte mass. In addition to these difference in nuclear behaviour, the tapetal cells of CMS lines also synthesize far lower levels of rough endoplasmic reticulum than do their fertile counterparts. Again, this difference is evident at a very early stage of anther development when all other cell components, including mitochondria and plastids, appear normal. These data are discussed in terms of the very special differentiation undergone by tapetal cells in angiosperms, and the conclusions drawn are considered in the perspective of current hypotheses proposed to explain the operation of CMS.     

Pollen types in Southern New World Convolvulaceae and their taxonomic significance

Pollen morphology from 143 collections representing 11 genera and 75 species of native South American Convolvulaceae was analyzed with LM and SEM. Exine structure and sculpture allow to distinguish three main types, in two of these types some subtypes were recognized. 1) Tectate, microechinate-perforate exine, with ramified columellae. On the basis of apertures three subtypes were distinguished: tricolpate in Aniseia, Bonamia, Convolvulus, Cressa, Dichondra, Merremia and Jacquemontia blanchetii; penta-hexacolpate in Merremia umbellata; and pantoporate with elliptic and circular pores, in Calystegia. 2) Tectate, microechinate-perforate exine with microspines and single columellae in concordant pattern, relates pantocolpate pollen of Jacquemontia and Evolvulus. From pollen data generic status of J. blanchetii should be considered. 3) Semitectate, echinate or gemmate, microechinate-microreticulate exine with single columellae is exclusive of pantoporate pollen of Ipomoea. Four subtypes were recognized in this genera, which are discussed in relation to Austins infrageneric classification.     

The selective increase or decrease of organellar DNA in generative cells just after pollen mitosis one controls cytoplasmic inheritance

Organellar DNA in mature pollen grains of eight angiosperm species (Actinidia deliciosa Lindl., Antirrhinum majus L., Arabidopsis thaliana (L.) Heynh., Medicago sativa L., Musa acuminata Colla, Pelargonium zonale (L.) L'Hér, Petunia hybrida Vilm. and Rhododendron mucronatum (Blume) G. Don, in which the modes of organellar inheritance have been determined genetically, was observed by fluorescence microscopy using Technovit 7100 resin sections double-stained with 4′,6-diamidino-2-phenylindole (DAPI) and 3,3′-dihexyloxacarbocyanine iodide (DiOC₆). The eight species were classified into four types, based on the presence or absence of organellar DNA in mature generative cells: namely (1) type “m+p+”, which has both mitochondrial and plastid DNA (P. zonale), (2) type “m+p–”, which only has mitochondrial DNA (M. acuminata), (3) type “m−p+”, which only has plastid DNA (A. deliciosa, M. sativa, R. mucronatum), and (4) type “m−p−”, which has neither mitochondrial nor plastid DNA (A. majus, A. thaliana, P. hybrida). This classification corresponded to the mode of organellar inheritance determined by genetic analysis. The presence or absence of mitochondrial and plastid DNA corresponded to paternal/biparental inheritance or maternal inheritance of the respective organelle, respectively. When organellar DNA was present in mature generative cells (m+ or p+), the DNA content of the organelles in the generative cells started to increase immediately after pollen mitosis one (PMI). In contrast, the DNA content of organelles in generative cells decreased rapidly after PMI when organellar DNA was absent from mature generative cells (m− or p−). These results indicate that the modes of inheritance (paternal/biparental inheritance or maternal inheritance) of mitochondria and plastids are determined independently of each other in young generative cells just after PMI. Received: 22 December 1998 / Accepted: 8 February 1999     

Presence of plastid and absence of mitochondrial DNA in male reproductive cells as evidence for cytoplasmic inheritance in Turnera ulmifolia and Zantedeschia aethiopica

Summary. Epifluorescence microscopy of mature pollen grains of Turnera ulmifolia and Zantedeschia aethiopica stained with 4,6-diamidino-2-phenylindole demonstrated the presence of fluorescent cytoplasmic DNA aggregates in the male reproductive cells of both species. Double staining of the cells with 4,6-diamidino-2-phenylindole and 3,3-dihexyloxacarbocyanine iodide in Technovit resin sections showed that the mitochondria of these cells did not correspond to the fluorescent cytoplasmic DNA aggregates. Electron microscopy studies revealed both plastids and mitochondria in the cells of these species. In addition, immunoelectron microscopy using an anti-DNA monoclonal antibody showed clear labeling of plastids but not mitochondria. These data provide cytological evidence for biparental plastid inheritance and maternal mitochondrial inheritance in these species.Correspondence and reprints: College of Life Sciences, Peking University, Beijing 100871, Peoples Republic of China.     

Quantitative cytology of the egg and central cell of Plumbago zeylanica and its impact on cytoplasmic inheritance patterns

Summary The egg and central cells of Plumbago zeylanica have an average volume of 543,000 m³ and 2,560,000 m³ respectively, with surface areas of 38,600 m² and 154,000 m². The egg contains an average of 39,900 mitochondria and 730 plastids. The majority of the plastids are perinuclear (> 60%) with less than 40% in lateral areas or near the filiform apparatus. After fertilization, the number of maternal organelles exceeds paternal organelles by a ratio of 11,000 for mitochondria and 154 for plastids. The central cell contains an average of 178,700 mitochondria and 1,840 plastids. After fertilization, these organelles far exceed the number of sperm organelles transmitted, by a ratio of approx. 14,000 for plastids and 1820 for mitochondria. Biparental inheritance of plastids in the embryo is possible, but not favored; the only comparable data in Oenothera and Impatiens reveals that biparental inheritance is possible in up to 124 ratios. Plants lacking biparental plastid inheritance do not contain plastids in the sperm, and thus the presence of even few sperm plastids may result in expression. The number of paternal mitochondria transmitted into the central cell is greater than that transmitted into the egg as the result of preferential fertilization with the mitochondrion-rich dimorphic sperm cell, although the ratio of paternal to maternal mitochondria is 11,000 in the egg and 1820 in the central cell. The similarity in these ratios suggests that there is a critical dosage of mitochondria that is permissible within the zygotic and endospermatic lineages. This may represent either: (1) a maximum permissible value to prevent expression of paternal mitochondrial genome, (2) a minimum ratio required in order to permit recombination of maternal and paternal mitochondrial genomes, or (3) a cytoplasmic genome balance number.Abbreviations mtDNA mitochondrial DNA - S_ua sperm cell unassociated with the vegetative nucleus - S_vn sperm cell physically associated with the vegetative nucleus     

Two new types of cytoplasmic male sterility found in wild Beta beets

Summary Mitochondrial (mt) and chloroplast (ct) DNAs from sugar beet carrying normal fertile and different cytoplasmic male sterile (cms) cytoplasms were compared by restriction analysis and for the occurrence of minicircles. One of the cms materials had the Owen cms cytoplasm currently used for hybrid production in sugar beet; the other three cms materials were derived from wild Beta beets. The mtDNAs from two of the latter cms types (C 7051, C 8640) differed from both the Owen and the fertile cytoplasms in fragment patterns seen after restriction enzyme analysis and in minicircle composition. The third cms type (C 8684) differed from the Owen cytoplasm in mini-circle composition, but restriction enzyme analysis revealed no differences. The presence of the different minicircles was confirmed by Southern hybridization using minicircle-specific clones. All bands hybridized as predicted by gel electrophoresis except a band in the cms type C 8640, which migrated in a similar manner as the c.c.c. form of the a minicircle. This band hybridized only faintly to a minicircle a-specific probe and could be removed by treatment with nuclease S1. In contrast to the large mtDNA variation, restriction analysis of ctDNA detected little variation between cytoplasms. The molecular characterization of the new sources of cms supports the results of previous crossings. Two of the cytoplasms are not only of independent origin, but are also most likely functionally different and thus may be of value in future production of hybrid sugar beet varieties.     

A new cytoplasmic male sterile genotype in the sugar beet Beta vulgaris L.: a molecular analysis

Summary Mitochondrial DNA (mtDNA) from fertile (N) and possibly new cytoplasmic male sterile (CMS) genotypes was studied in the sugar beet Beta vulgaris L. It was found by restriction endonuclease analysis that BMC-CMS, a cytoplasm that was derived from the wild beet Beta maritima, contained a unique type of mtDNA which is distinguishable from both the N and S-CMS, the only other CMS genotype that is currently availabe in B. vulgaris L. The organization of three genes: coxI, coxII and cob, was analyzed by hybridization with heterologous probes from maize. These genes have a similar structure in N and BMC-CMS that is different from S-CMS. It is concluded that BMC-CMS is a novel CMS genotype in the sugar beet.     

Metabolism of reactive oxygen species in cotton cytoplasmic male sterility and its restoration

To elucidate reactive oxygen species (ROS) metabolism of cotton cytoplasmic male sterility and the effects of restorer gene on the metabolism of ROS, the metabolism changes in the production and scavenging of ROS and gene expression related to ROS-scavenging enzymes were investigated in the anther mitochondria of CMS line, maintainer line and hybrid F₁. During the abortion preliminary stage (sporogenous cell division stage), anthers of CMS line had a little higher superoxide (O₂ ⁻) production rate and hydrogen peroxide (H₂O₂) and malondialdehyde (MDA) contents than those of maintainer or hybrid F_1. Simultaneously, a little higher ROS contents might serve as a signal to increase the activity of superoxide dismutase (SOD) in anthers of CMS line to reduce the ROS damage to the anther development. But at the abortion peak (pollen mother cell meiosis stage), anthers of CMS line had extraordinarily higher ROS contents and lower ROS-scavenging enzymic activities compared with the hybrid F₁, during which the ROS contents and ROS-scavenging enzymic activities in hybrid F₁ were approximate to those of maintainer line. The expression of Mn-sod and apx mRNA in anther of CMS line was obviously inhibited when ROS produced with a great deal during anther abortion, however the gene expression in hybrid F₁ kept normal with the maintainer. Excessive accumulation of O₂^·−, H₂O₂ and MDA, significant reduction of ROS-scavenging enzymic activities and lower gene expression level of ROS-scavenging enzyme were coinstantaneous with male cells death in anthers of CMS line. But when the restorer gene was transferred into CMS line, excessive production of ROS could be eliminated in the anthers of hybrid F₁. The restorer gene likely plays an important role in keeping the dynamic balance between the production and elimination of ROS.     

Cytoplasmic DNA apportionment and plastid differentiation during male gametophyte development in Pelargonium zonale

In the male gametophyte of Pelargonium zonale, generative and sperm cells contain cytoplasmic DNA in high density compared to vegetative cells. Cytoplasmic DNA was examined using the DNA fluorochrome DAPI (4'6-diamidino-2-phenylindole) and observed with epifluorescence and electron microscopy. The microspore cell contains a prominent central vacuole before mitosis; mitochondria and plastids are randomly distributed throughout the cytoplasm. Following the first pollen grain mitosis, neither the vegetative cell nor the early generative cell display a distributional difference in cytoplasmic DNA, nor is there in organelle content at this stage. During the maturation of the male gametophyte, however, a significant discrepancy in plastid abundance develops. Plastids in the generative cell return to proplastids and do not contain large starch grains, while those in the vegetative cell develop starch grains and differentiate into large amyloplasts. Plastid nucleoids in generative and sperm cells in a mature male gametophyte are easily discriminated after DAPI staining due to their compactness, while those in vegetative cells stained only weakly. The utility of the hydrophilic, non-autofluorescent resin Technovit 7100 in observing DAPI fluorescence is also demonstrated.