Study on Organelle DNA Within the Generative Cell and Sperm Cells in Pharbitis

The organelle DNA in generative cell and its behavior during spermatogenesis in Pharbitis limbata and P. purpurea were observed by epifluorescence microscopy stained with 4',-6-diamidino-2-phenylindole (DAPI). In these two species, the generative cell is long and thin in which a great amount of cytoplasmic DNA is present. Most pairs of sperm cells are isomorphic, in which one end is obtuse and the other is elongate, but in a few pairs dimorphi sperms are present. The nucleus is located at one end of the cell. A lot of cytoplasmic DNA are distributed randomly throughout the cytoplasm. The size of organelle nucleoids and their fluorescence intensity are different in a sperm cell. The features of generative cell and sperm cell, and behavior of cytoplasmic DNA are similar in P. limbata and P. purpurea. The obvious differences between them are that the size and fluorescence intensity of organelle nucleoids in P. purpurea are respectively smaller and weaker than in P. limbata. The results showed that morning glory has potential of biparental or paternal cytoplasmic in heritance. Isomorphism and dimorphism of sperms, and the relationship between the ratio of nucleus and cytoplasm in sperm cell and the plastid biparental inheritance are discussed.     

被子植物质体遗传的细胞学研究

植物细胞质遗传涉及细胞质中含DNA的两种细胞器——质体和线粒体从亲代至子代的传递。相对来说线粒体遗传的研究远不及质体的多,这可能是线粒体这种细胞器缺乏合适的表型突变体之故。高等植物质体遗传的研究历史可追溯到本世纪初在杂交试验中对叶色遗传的非孟德尔定律的发现,Baur在马蹄纹天竺葵(Pelargonium zonale)中从叶色突变体(白化体)的杂交遗传分析,发现了双亲质体遗传;而Correns在紫茉莉(Mirabilis jalapa)中则发现了单亲母本质体遗传(见Kuroiwa)。此后,对质体基因组突变性状遗传分析的研究,大量的资料说明了在被子植物中存在双亲质体遗传和单亲母系质体遗传两种类型,而后一种占大多数,仅少数是比较有规律的为双亲质体遗传或偶尔是双亲质体遗传。几十年来应用遗传分析的方法对被子植物质体遗传的研究,着重于揭示不同植物种质体的遗传是单亲母系或是双亲质体传递,以及探索杂种核基因对质体传递方式的影响。     

Changes of Plastids Mitochondria and Their DNA in the Egg Cell Before and After Fertilization in Pharbitis

The ultrastructure and cytoplasmic DNA in the egg cell and zygote of Pharbitis purpurea, (L.) Voyght and P. limbata Lindl. which were studied with electron microscopy and DNA epifiuorescence microscopy. The egg cell before fertilization was highly vacuolated with only a few cytoplasmic plastids and mitochondria. Plastids were spherical and/or rod- shaped containing 1 ～ 2 large starch grains. Most of the mitochondria were cup and/or circular. The cytoplasm in the zygote was much more abundant than that in the egg cell. The number of plastids and their electronic density were greatly increased, in most of which containing osmiophilic bodies. The mitochondria were rich and spherical-shaped in the zygote. Two types of cytoplasmic DNA nucleoids were detected in the egg cell, the more abundant one being big and circle-shaped and the other dot-shaped. Only dot-shaped nucleoids were present in the zygote. The content of nucleoids in the zygote was much less than that in the egg cell. Authors propose that some cytoplasmic DNA may degenerate after fertilization. The ultrastructural characteristics of the egg cell and the reduction of cytoplasmic DNA in the zygote may related to the mechanisms of plastid unipaternal inheritance in Pharbitis.     

菜豆花粉发育中质体和线粒体及其DNA存在的状况——着重阐明质体遗传的细胞学基础

应用电镜和DNA的DAPI荧光检测技术研究了菜豆(Phaseolus vulgaris L.)小孢子/花粉发育中质体和线粒体及其DNA存在的状况。观察表明:在小孢子分裂时质体全部分配到营养细胞中,初形成的生殖细胞已不含质体。线粒体和质体的DNA在花粉发育中也先后降解,生殖细胞从刚形成时发育至成熟花粉时期这两种细胞器DNA均不存在。研究结果为菜豆质体母系遗传提供了确切的细胞学证据。遗传分析的研究曾确定菜豆质体为双亲遗传,对与本研究结论不同的原因进行了讨论。     

Cytological Basis of Plastid Inheritance in Phaseolus vulgaris-Investigations of Plastids,Mitochondria and Their DNA Nucleoids During Pollen Development

Electron microscopic and DNA fluorescence microscopic observations of the plastids, mitochondria and their DNA in the developing pollen of Phaseolus vulgaris L. have demonstrated that the male plastids were excluded during microspore mitosis. The formed generative cell was free of plastids because of regional localization of plastids in early developing microspore and the extremely unequal distribution during division. The fluorescence observations of DNA showed that cytoplasmic (plastid and mitochondria) nucleoids degenerated and disappeared during the development of microspore/pollen, and were never presented in the generative cell at different development stages. These results provided precise cytological evidence of maternal plastid inheritance in Phaseolus vulgaris, which was not in accord with the biparental plastid inheritance identified from early genetic analysis. Based on authors' previous observations in a variety of common bean that the organelle DNA of male gamete was completely degenerated, the early genetic finding of the biparental plastid inheritance was unlikely to be effected by genotypic difference. Thus those biparental plastid inheritance might be caused by occational male plastid transmission, and plastid uniparental maternal inheritance was the species character of Phaseolus vulgaris.     

Decrease in mitochondrial DNA and concurrent increase in plastid DNA in generative cells of Pharbitis nil during pollen development.

The amount of organellar DNA in a generative cell of Pharbitis nil was observed when squashed pollen grains collected on the day of flowering were stained with the DNA-specific fluorochrome 4',6-diamidino-2-phenylindole (DAPI). Using both DAPI-fluorescence microscopy and electron microscopy, observation of the same thin section of Technovit 7100 resin-embedded material revealed that all of the organellar DNA in mature generative cells is plastid DNA, and there is no mitochondrial DNA. During pollen development, we observed organellar DNA in fluorescence microscopic images using double-staining with DAPI and 3,3'-dihexyloxacarbocyanine iodide (DiOC6) and quantified the DNA using a video-intensified microscope photon counting system (VIMPCS). In the vegetative cells, the amounts of both mitochondrial and plastid DNA progressively decreased and had disappeared by 2 days before flowering. In the generative cells, mitochondrial DNA disappeared sooner than in the vegetative cells, indicating a more active mechanism for the decrease in mitochondrial DNA in the generative cells. In contrast, plastid DNA in the generative cells increased markedly. The DNA content per plastid was at a minimum value (corresponding to one copy of the plastid genome) 7 days before flowering, but it increased to a maximum value (corresponding to over 10 copies of the plastid genome) 2 days before flowering. Similar results were also obtained with immunogold electron microscopy using an anti-DNA antibody. These results suggest that the DNA content of mitochondria and plastids in P. nil is controlled independently during pollen development.     

Preliminary Studies on Cytoplasmic Inheritance and Variation of Azolla

By investigating the variance of Azolla leaf colour of F1 generation obtained from negative and positive crossing of Azolla between two species (Azolla filiculoides × A. microphylla, A. filiculoides × A. mescicana) and two subgenus (A. filiculoides × A. imbricata), it was revealed that the albinism of the hybrid F1 generation was variation resulting from maternal cytoplasmic inheritance, when A. filiculoide was used as female parent. Electron microscopic observation demonstrated abnormal development of plastid in the albino sporeling. The cell of light green seedling contained both normal and abnormal plastid. Both were probably related to variation in the plastid genotype. Significant difference occurred in the degree and freguency of albinism from various crossing forms, and such change had its vegularity in accord with the variation of the nuclear genotype. The results speculated that albinism were also closely related to the nuclear genotype.     

豌豆生殖细胞的发育—着重论述质体母系遗传的细胞学基础

超微结构的研究证明,豌豆（Ｐｉｓｕｍ ｓａｔｉｖｕｍ Ｌ．）生殖细胞自形成直至成熟花粉时期,始终存在少量质体和较多的线粒体。ＤＮＡ 荧光的观察表明,在发育早期的生殖细胞中不含细胞质ＤＮＡ 类核,但在成熟花粉的生殖细胞中有许多的类核。在花粉离体萌发过程中,随着花粉管的生长,生殖细胞中的类核逐渐降解。在花粉培养２４ ｈ 后,生殖细胞的类核全部消失。研究结果确定了豌豆质体母系遗传的细胞学基础,支持遗传分析及ＲＦＬＰ研究的结论,阐明了过去在细胞学上认为是双亲遗传的判断不正确的原因     

Plastid transformants of tomato selected using mutations affecting ribosome structure

Tomato plastid transformants were obtained using two vectors containing cloned plastid DNA of either Nicotiana tabacum or Solanum nigrum and including point mutations conferring resistance to spectinomycin and streptomycin. Transformants were recovered after PEG-mediated direct DNA uptake into protoplasts, followed by selection on spectinomycin-containing medium. Sixteen lines contained the point mutation, as confirmed by mapping restriction enzyme sites. One line obtained with each vector was analysed in more detail, in comparison with a spontaneous spectinomycin-resistant mutant. Integration of the cloned Solanum or Nicotiana plastid DNA, by multiple recombination events, into the tomato plastome was confirmed by sequence analysis of the targeted region of plastid DNA in the inverted repeat region. Maternal inheritance of spectinomycin and streptomycin resistances or sensitivity in seedlings also confirmed the transplastomic status of the two transformants. The results demonstrate the efficacy in tomato of a selection strategy which avoids the integration of a dominant bacterial antibiotic resistance gene.     

Studies of Generative Cell Development in Pisum sativum--With Special Reference to Cytological Basis of Plastid Maternal Inheritance

It was proved by ultrastructural observations that few plastids and abundent mitochondria were ever present in the generative cell of Pisurn sativurn L. from its initiation to maturation. Fluorescence observations of DNA showed that many cytoplasmic DNA nucleoids were present in generative cell of mature pollen, but none in the early developing generative cell. During the germination of mature pollen in vitro, the cytoplasmic DNA nucleoids of the generative cell in the pollen tube degenerated gradually following the growth of the pollen tube and disappered completely 24 h after germination. The results provided a cytological basis for confirming the conclusion of plastid maternal inheritance in P. sativurn obtained from genetic study, and resolved the contradiction between results from cytological observation and genetic or RFLP analysis.     

The model plant Medicago truncatula exhibits biparental plastid inheritance

The plastid, which originated from the endosymbiosis of a cyanobacterium, contains its own plastid DNA (ptDNA) that exhibits a unique mode of inheritance. Approximately 80% of angiosperms show maternal inheritance, whereas the remainder exhibit biparental inheritance of ptDNA. Here we studied ptDNA inheritance in the model legume, Medicago truncatula. Cytological analysis of mature pollen with DNA-specific fluorescent dyes suggested that M. truncatula is one of the few model plants potentially showing biparental inheritance of ptDNA. We further examined pollen by electron microscopy and revealed that the generative cell (a mother of sperm cells) indeed has many DNA-containing plastids. To confirm biparental inheritance genetically, we crossed two ecotypes (Jemalong A17 and A20), and the transmission mode of ptDNA was investigated by a PCR-assisted polymorphism. Consistent with the cytological observations, the majority of F(1) plants possessed ptDNAs from both parents. Interestingly, cotyledons of F(1) plants tended to retain a biparental ptDNA population, while later emergent leaves tended to be uniparental with either one of the parental plastid genotypes. Biparental transmission was obvious in the F(2) population, in which all plants showed homoplasmy with either a paternal or a maternal plastid genotype. Collectively, these data demonstrated that M. truncatula is biparental for ptDNA transmission and thus can be an excellent model to study plastid genetics in angiosperms.     

长日照处理对牵牛开花抑制作用研究 Ⅰ．不同时间长日照处理对花芽分化和子叶蛋白质的影响

日本紫花牵牛（Ｐｈａｒｂｉｌｉｓｎｉｌｃｖ．Ｖｉｏｌｅｔ）子叶完全展开后,短日照诱导前、诱导后和两个短日照间的长日照处理对植株的花芽分化都有一定的抑制作用。双向凝胶电泳分析表明,长日照处理的牵牛子叶内存在着短日照处理子叶内没有的两种蛋白质（ｐＩ４．１,ＭＷ１６．５ｋＤ;ｐＩ４．２,ＭＷ１６．５ｋＤ）。这些蛋白质可能与长日照抑制牵牛植株的花芽分化有一定关系。     

Paternal inheritance of plastids in the genus Daucus

Summary The plastid DNAs of the species Daucus carota (ssp. sativus, libanotifolia, gingidium), D. maximus and D. muricatus were compared by restriction enzyme analysis. A number of restriction fragment length polymorphisms (RFLPs) were observed. As expected from taxonomic data the degree of plastid DNA homology between D. carota and D. maximus is significantly higher (97%) than between D. carota and D. muricatus (70%). On the basis of RFLPs of plastid DNA the mode of plastid inheritance in interspecific crosses between D. muricatus and D. c. sativus was analysed. The results clearly indicate paternal plastid inheritance. Thus Daucus is the second genus among angiosperms transmitting predominantly male plastids.     

Paternal inheritance of plastids in Medicago sativa

Summary Plastids are plant cellular organelles that are generally inherited from the maternal parent in the angiosperms. Many species exhibit biparental inheritance of plastids, but usually with a predominantly maternal influence. In contrast to this, we report strong paternal inheritance of plastids in reciprocal crosses of alfalfa, Medicago sativa, by following restriction fragment length polymorphisms for plastid DNA in two normal green plastids. Mitochondrial inheritance remained exclusively maternal.     

Quantitative cytology of the alfalfa generative cell and its relation to male plastid inheritance patterns in three genotypes

Summary Studies utilizing restriction analysis of plastid DNA, as well as those employing chlorophyll-deficient mutants, have shown a high frequency of paternal plastid transmission in alfalfa. Recent research has also shown that plastid inheritance patterns among alfalfa genotypes and are under genetic control. In a previous study we were unable to detect any correlations between qualitative, three-dimensional ultrastructure of generative cells and male plastid transmission strength in certain genotypes. In the present study we used serial ultrathin sectioning, computerized reconstruction and quantitation, and stereology to further analyze generative cells within mature pollen. Measurements included volumes and surface areas of cells, nuclei, and organelles, as well as organelle number and distribution. Three genotypes were investigated, one that is a strong transmitter of male plastids (genotype 301), one that is a weaker transmitter of male plastids (genotype 7W), and a third that is an even weaker male plastid transmitter (genotype MS-5). Our results show that genotype MS-5 has significantly fewer plastids/generative cell than either of the other genotypes, which may account for it being a relatively poor transmitter of male plastids. However, plastid number does not explain known differences in male plastid inheritance between genotypes 301 and 7W, since plastid number does not differ significantly between these two genotypes. Regarding the other features of generative cells measured in this study, no consistent correlations were found that might account for differences in male plastid inheritance patterns between genotypes. Plastid distribution is equal in each end of the spindle-shaped generative cell in all genotypes studied. Similar relative results were found with regard to mitochondria within generative cells; however, comparative genetic data are not available on mitochondrial transmission patterns in alfalfa genotypes.     

Structural changes in the plastid DNA of rice (Oryza sativa L.) during tissue culture

To investigate the rearrangement of the plastid genome during tissue culture, DNA from rice callus lines, which had been derived individually from single protoplasts isolated from seed or pollen callus (protoclones), was analyzed by Southern hybridization with rice chloroplast DNA (ctDNA) clones as probes. Among 44 long-term cultured protoclones, maintained for 4, 8 or 11 years, 28 contained plastid DNA (ptDNA) from which portions had been deleted. The ptDNA of all protoclones that had been maintained for 11 years had a deletion that covered a large region of the plastid genome. The deletions could be classified into 15 types from their respective sizes and positions. By contrast, no deletions were found in the ptDNA of 38 protoclones that had been maintained for only 1 month. These results indicate that long-term culture causes deletions in the plastid genome. Detailed hybridization experiments revealed that plastid genomes with deletions in several protoclones were organized as head-to-head or tail-to-tail structures. Furthermore, ptDNAs retained during long-term culture all had a common terminus at one end, where extensive rearrangement is known to have occurred during the speciation of rice and tobacco. Morphological analysis revealed the accumulation of starch granules in plastids and amyloplasts in protoclones in which the plastid genome had undergone deletion. Our observations indicated that novel structural changes in the plastid genome and morphological changes in the plastid had occurred in rice cells during long-term tissue culture. Moreover, the morphological changes in plastids were associated with deletions in the plastid genome.     

Analysis of intergenic spacer regions in the nuclear rDNA of Pharbitis nil.

The nucleotide sequence of a 4.2-kb EcoRI fragment from the intergenic region between the genes for 25S and 18S ribosomal RNA of Pharbitis nil Choisy was determined. The region contained a unique repetitive family of DNA sequences, called the RsaI family, composed of 32-bp units. The 32-bp unit was tandemly repeated in the intergenic region, and four subfamilies of repeating units were clustered as discrete blocks. The RsaI family of repeats was shown to be specific to the genus Pharbitis by Southern blot hybridization.     

Inhibitory role of gibberellins in theobroxide-induced flowering of Pharbitis nil

Theobroxide, a novel active compound isolated from a fungus, has been reported previously to induce potato tuberization and flower bud formation in Pharbitis nil under non-inductive long-day conditions. Up to date, the action mechanism of theobroxide on flower-bud induction of P. nil, however, is still unknown. In the present study, we observed a reduction of the stem length, along with the induction of flower buds, in theobroxide-treated and short-day-grown P. nil plants. Also, the results showed that flower bud formation was delayed markedly in P. nil seedlings with removal of cotyledons or exposure to night break. The suppression effect of night-break and cotyledon-removal, however, was abolished completely by spraying theobroxide. Endogenous gibberellin(1/3) contents in P. nil plants treated with theobroxide or grown under short-day conditions were relatively lower, suggesting that gibberellins probably are negatively involved in theobroxide- and short-day-induced flower-bud formation of P. nil.     

Extensive homologous recombination between introduced and native regulatory plastid DNA elements in transplastomic plants

Homologous recombination within plastids directs plastid genome transformation for foreign gene expression and study of plastid gene function. Though transgenes are generally efficiently targeted to their desired insertion site, unintended homologous recombination events have been observed during plastid transformation. To understand the nature and abundance of these recombination events, we analyzed transplastomic tobacco lines derived from three different plastid transformation vectors utilizing two different loci for foreign gene insertion. Two unintended recombinant plastid DNA species were formed from each regulatory plastid DNA element included in the transformation vector. Some of these recombinant DNA species accumulated to as much as 10–60% of the amount of the desired integrated transgenic sequence in T0 plants. Some of the recombinant DNA species undergo further, “secondary” recombination events, resulting in an even greater number of recombinant plastid DNA species. The abundance of novel recombinant DNA species was higher in T0 plants than in T1 progeny, indicating that the ancillary recombination events described here may have the greatest impact during selection and regeneration of transformants. A line of transplastomic tobacco was identified containing an antibiotic resistance gene unlinked from the intended transgene insertion as a result of an unintended recombination event, indicating that the homologous recombination events described here may hinder efficient recovery of plastid transformants containing the desired transgene. Electronic supplementary material  The online version of this article (doi:) contains supplementary material, which is available to authorized users.     

Potential for biparental cytoplasmic inheritance in Jasminum officinale and Jasminum nudiflorum

 Mature Jasminum officinale and J. nudiflorum pollen grains were stained with 4′,6-diamidino-2-phenylindole (DAPI) and examined by epifluorescence microscopy. The pollen grains were found to be trinucleate, and the sperm cells in both species contained a large number of epifluorescent spots that corresponded to cytoplasmic DNA aggregates (nucleoids). The nucleoids of J. nudiflorum were observed to be dimorphic under the epifluorescence microscope, indicating that the sperm cells might contain both plastid and mitochondrial DNA. The nucleoids of J. officinale presented a similar appearance when stained with DAPI, but electron microscopic examination of the sperm cells revealed that they contained both plastids and mitochondria. When analyzed by DNA immunogold electron microscopy, gold particles were detected on both plastids and mitochondria. These findings demonstrated the preservation of plastid and mitochondrial DNA in mature sperm cells and thus the potential for biparental cytoplasmic inheritance in J. officinale and J. nudiflorum. Received: 8 August 1997 / Revision accepted: 25 February 1998