Muscarinic signalling affects intracellular calcium concentration during the first cell cycle of sea urchin embryos

The existence of a response to acetylcholine (ACh) and cholinomimetic drugs in sea urchin eggs and zygotes was investigated in two sea urchin species: Paracentrotus lividus and Lytechinus pictus. The calcium sensitive fluorescent probe, Fura-2 dextran, was employed to investigate the regulation of cytosolic free calcium concentration ([Ca(2+)](i)) by cholinomimetic drugs in unfertilised and fertilised eggs of both the sea urchin species. Exposure to cholinomimetic agonists/antagonists, either extracellularly or intracellularly, had no effect either on resting [Ca(2+)](i) levels in the unfertilised sea urchin egg, or on the transient [Ca(2+)](i) increase at fertilisation. However, following fertilisation, extracellular application of ACh receptors agonists, such as ACh and carbachol, predominantly muscarinic agonist, but not nicotine, induced a significant increase in [Ca(2+)](i), which was partially inhibited by atropine. As a consequence of exposure after fertilisation to the agonists of ACh receptors, chromatin structure was transiently affected. The hypothesis is proposed that muscarinic receptors may be involved in the (presumably Ca(2+)-dependent) modulation of the nuclear status during the first cell cycles.     

高等植物离体受精研究进展

高等植物的卵细胞深藏在子房内的胚珠体细胞组织中,形成了对高等植物受精过程研究的技术障碍。以前采用超微结构观察研究受精过程已取得了一定的结果,但用固定切片技术研究受精机理需将卵细胞杀死,并且不能进行定点追踪观察。将高等植物的精、卵细胞分离出来在体外诱导其融合的离体受精技术可在很大程度上克服这些技术障碍,对雌、雄配子的识别和融合,合子开始胚胎发生等一系列的受精和胚胎发生机理进行研究。分离的雌、雄配子及合子使应用分子生物学方法研究这些细胞的结构和功能成为可能。将合子的二倍性和胚胎发生特性与外源DNA转入技术结合起来可使转基因植物研究的后期工作简单化。另外,异种植物离体精、卵细胞融合和杂种合子的培养也是进行远缘杂交的一条有潜力的途径。     

Gene Expression Patterns During Somatic Embryo Development and Germination in Maize Hi II Callus Cultures

Gene expression patterns were profiled during somatic embryogenesis in a regeneration-proficient maize hybrid line, Hi II, in an effort to identify genes that might be used as developmental markers or targets to optimize regeneration steps for recovering maize plants from tissue culture. Gene expression profiles were generated from embryogenic calli induced to undergo embryo maturation and germination. Over 1,000 genes in the 12,060 element arrays showed significant time variation during somatic embryo development. A substantial number of genes were downregulated during embryo maturation, largely histone and ribosomal protein genes, which may result from a slowdown in cell proliferation and growth during embryo maturation. The expression of these genes dramatically recovered at germination. Other genes up-regulated during embryo maturation included genes encoding hydrolytic enzymes (nucleases, glucosidases and proteases) and a few storage genes (an α-zein and caleosin), which are good candidates for developmental marker genes. Germination is accompanied by the up-regulation of a number of stress response and membrane transporter genes, and, as expected, greening is associated with the up-regulation of many genes encoding photosynthetic and chloroplast components. Thus, some, but not all genes typically associated with zygotic embryogenesis are significantly up or down-regulated during somatic embryogenesis in Hi II maize line regeneration. Although many genes varied in expression throughout somatic embryo development in this study, no statistically significant gene expression changes were detected between total embryogenic callus and callus enriched for transition stage somatic embryos.Supplementary material is available for this article at     

Establishment of an in vitro fertilization system in rice (<Emphasis Type="Italic">Oryza sativa</Emphasis> L.)

In vitro fertilization (IVF) systems using isolated male and female gametes have been utilized to dissect fertilization-induced events in angiosperms, such as egg activation, zygote development and early embryogenesis, as the female gametophytes of plants are deeply embedded within ovaries. In this study, a rice IVF system was established to take advantage of the abundant resources stemming from rice research for investigations into the mechanisms of fertilization and early embryogenesis. Fusion of gametes was performed using a modified electrofusion method, and the fusion product, a zygote, formed cell wall and an additional nucleolus. The zygote divided into a two-celled embryo 15–24 h after fusion, and developed into a globular-like embryo consisting of an average of 15–16 cells by 48 h after fusion. Comparison of the developmental processes of zygotes produced by IVF with those of zygotes generated in planta suggested that zygotes produced by IVF develop and grow into early globular stage embryos in a highly similar manner to those in planta. Although the IVF-produced globular embryos did not develop into late globular-stage or differentiated embryos, but into irregularly shaped cell masses, fertile plants were regenerated from the cell masses and the seeds harvested from these plants germinated normally. The rice IVF system reported here will be a powerful tool for studying the molecular mechanisms involved in the early embryogenesis of angiosperms and for making new cultivars.     

Parthenogenetic egg cells of wheat: cellular and molecular studies

The 'Salmon' system of wheat comprises three isogenic alloplasmic lines with either zygotic (aS) or autonomous, fertilisation-independent (cS kS) embryo development. While the initiation of embryogenesis from the isolated sexual egg cell depends on in vitro fertilisation, the corresponding parthenogenetic egg cell develops into an early embryo without fertilisation. This demonstrates that parthenogenesis is an inherent feature of the isolated egg cell. Based on this observation, we have constructed egg-cell-specific cDNA libraries and report first results of a sequencing project aimed at the isolation of putative egg-cell-specific and parthenogenesis-related genes.     

Molecular cloning of some components of the translation apparatus of fission yeast Schizosaccharomyces pombe and a list of its cytoplasm ic proteins genes]

Full-length cDNAs of four new genes encoding cytoplasmic ribosomal proteins L14 and L20 (large ribosomal subunit) and S1 and S27 (small ribosomal subunit) were isolated and sequenced during the analysis of the fission yeast Schizosaccharomyces pombe genome. One of the Sz. pombe genes encoding translation elongation factor EF-2 was also cloned and its precise position on chromosome I established. A unified nomenclature was proposed, and the list of all known genetic determinants encoding cytoplasmic ribosomal proteins of Sz. pombe was compiled. By now, 76 genes/cDNAs encoding different ribosomal proteins have been identified in the fission yeast genome. Among them, 35 genes are duplicated and three homologous genes are identified for each of the ribosomal proteins L2, L16, P1, and P2.     

In vitro fertilization as a tool for investigating sexual reproduction of angiosperms

In vitro fertilization (IVF) of isolated male and female gametes of flowering plants was first accomplished in the last decade. Successful isolation of male and female gametes, and culturing of in vitro zygotes to form new plants, is a prelude to the use of IVF for research into the cellular and molecular control of fertilization in higher plants and its application as a tool in biotechnology. Genes unique to male and female gametes and zygotes of higher plants, although currently incompletely characterized, are expected to permit direct molecular dissection of fertilization. By applying IVF and microculture to zygotes and endosperm obtained by both in vivo and in vitro methods, newly activated fusion products may be observed and manipulated in media where they are directly accessible to the techniques of molecular cell biology. IVF and zygote culture may also offer potential for creating new hybrid plants by fusing isolated gametes from different species to produce unique zygotes and ultimately plants that would be impossible to obtain using typical crossing techniques. Transformation and regeneration frequencies using IVF may also be high enough to avoid the necessity of adding controversial antibiotic and herbicide resistant genes to screen transformed products. This review describes advances using IVF in plant sexual reproduction and discusses its potential in the genetic improvement of flowering plants.     

The cytological changes of tobacco zygote and proembryo cells induced by beta-glucosyl Yariv reagent suggest the involvement of arabinogalactan proteins in cell division and cell plate formation

ABSTRACT: BACKGROUND: In dicotyledonous plant, the first asymmetric zygotic division and subsequent several cell divisions are crucial for proembryo pattern formation and later embryo development.. Arabinogalactan proteins (AGPs) are a family of extensively glycosylated cell surface proteins that are thought to have important roles in various aspects of plant growth and development, including embryogenesis. Previous results from our laboratory show that AGPs are concerned with tobacco egg cell fertilization and zygotic division. However, how AGPs interact with other factors involved in zygotic division and proembryo development remains unknown. RESULTS: In this study, we used the tobacco in vitro zygote culture system and series of meticulous cell biology techniques to investigate the roles of AGPs in zygote and proembryo cell division. For the first time, we examined tobacco proembryo division patterns detailed to every cell division. The bright-field images and statistical results both revealed that with the addition of an exogenous AGPs inhibitor, beta-glucosyl Yariv (beta-GlcY) reagent, the frequency of aberrant division increased remarkably in cultured tobacco zygotes and proembryos, and the cell plate specific locations of AGPs were greatly reduced after beta-GlcY treatment. In addition, the accumulations of new cell wall materials were also significantly affected by treating with beta-GlcY. Detection of cellulose components by Calcofluor white stain showed that strong fluorescence was located in the newly formed wall of daughter cells after the zygotic division of in vivo samples and the control samples from in vitro culture without beta-GlcY treatment; while there was only weak fluorescence in the newly formed cell walls with beta-GlcY treatment. Immunocytochemistry examination with JIM5 and JIM7 respectively against the low- and high-esterified pectins displayed that these two pectins located in opposite positions of zygotes and proembryos in vivo and the polarity was not affected by beta-GlcY. Furthermore, FM4-64 staining revealed that endosomes were distributed in the cell plates of proembryos, and the localization pattern was also affected by beta-GlcY treatment. These results were further confirmed by subsequent observation with transmission electron microscopy. Moreover, the changes to proembryo cell-organelles induced by beta-GlcY reagent were also observed using fluorescent dye staining technique. CONCLUSIONS: These results imply that AGPs may not only relate to cell plate position decision, but also to the location of new cell wall components. Correlated with other factors, AGPs further influence the zygotic division and proembryo pattern establishment in tobacco.     

Microtubules and parental genome organisation during abnormal fertilisation in humans

We analysed the distribution of beta-tubulins, acetylated alpha-tubulins and chromatin configuration in 113 human zygotes showing abnormal fertilisation, 16-18 h after conventional in vitro fertilisation (IVF) or intracytoplasmic sperm injection (ICSI). After a first characterisation using phase contrast microscopy, immunofluorescence staining was performed in 67 IVF and 46 ICSI zygotes that developed one, three or more pronuclei and/or subnuclei, with or without extrusion of the second polar body. Independently of the number of pronuclei found, beta-tubulins were uniformly distributed throughout the cytoplasm of the abnormal zygotes. We did not observe any kind of microtubule alteration with respect of the ploidy level and/or its origin. The most frequent abnormal fertilisation pattern found after IVF was the presence of three or four pronuclei (74.6%). On the other hand, the presence of one pronucleus (63.0%) was the main pattern found after ICSI. No differences between the two groups were seen in terms of development of subnuclei. Anamolies detected after IVF and ICSI showed different aetiologies such as parthenogenetic activation, gynogenetic or androgenetic development, as well as digynic or diandric fertilisation.     

Arabidopsis L10 ribosomal proteins in UV-B responses

Ribosomal protein L10 (RPL10) is a ubiquitous protein that participates in joining the 40S and 60S ribosomal subunits into a functional 80S ribosome; however, increasing evidence indicates that RPL10 from various organisms has multiple extra-ribosomal functions, besides being a constituent of ribosome and its role in translation. Arabidopsis thaliana contains in its genome three genes encoding RPL10, named RPL10A, RPL10B and RPL10C. Previously, we found that in maize and in A. thaliana, UV-B induces a reduction in protein biosynthesis, probably as a consequence of ribosomal damage; however, cellular recovery occurs in the absence of UV-B. Here, we show that RPL10s are differentially regulated by UV-B in a dosage and time dependent manner: RPL10C is induced, RPL10B is downregulated at high UV-B intensity and RPL10A is not UV-B regulated. In addition, by co-immunoprecipitation studies using RPL10 antibodies and proteins from control and UV-B irradiated Arabidopsis plants, we demonstrate that RPL10 associates with different proteins under the two different conditions, including nuclear proteins, suggesting that at least one isoform may have extra-ribosomal roles.Key words: UV-B exposure, translation, ribosomal protein, co-immunoprecipitation