Proembryo culture: in vitro development of early globular-stage zygotic embryos from Brassica juncea

We have systematically investigated the nutritional requirements for in vitro culture of zygotic proembryos of Brassica juncea. Normal embryo development in vitro was achieved in a new embryo culture medium (ECM) which contains mineral salts, sugars, amino acids, organic acids and coconut water. The culture system is comprised of two agar layers, with the top layer containing a higher osmolality than the bottom layer. Proembryos were embedded in the top layer in which the osmotic pressure decreased gradually during culture because of the diffusion of osmotically active compounds into the bottom layer. Using such a double-layer culture system and the ECM, proembryos as small as 35 μm (8–36 cells) could be cultured and developed into normal, mature embryos with an efficiency of at least 75%. In contrast to previous findings, we found that the removal of the suspensor had only a small effect on the development of embryos 55 μm or smaller, but no effect on larger proembryos. We expect this system to be very useful for investigations of the mechanism of plant embryogenesis.     

Cell-to-cell transport of macromolecules during early plant development

Plant cells exchange developmental signals, distribute nutrients and ribonucleoprotein complexes through dynamic intercellular channels termed plasmodesmata (PD). Multidisciplinary investigations over the last decade have provided evidence that plasmodesmatal regulation is critical to various basic plant functions, such as development, host-pathogen interactions, and systemic RNA-silencing. This review highlights the cell-to-cell transport of micro- and macromolecules via PD during embryo and seedling growth.     

Establishment of cell polarity during early plant development

Cellular asymmetries have been proposed to play a role in plant embryogenesis. Genetic studies of Arabidopsis and other experimental approaches in several plant species have addressed the origins of cellular asymmetry in specific cases. Although zygote polarity, which precedes the formation of the apical—basal axis of the embryo, is normally aligned with that of the surrounding maternal tissue, isolated single somatic cells that give rise to embryos in culture appear to become polar in the absence of maternal factors. Gene expression patterns reveal the developmental consequences of cellular asymmetries occurring at later stages of embryogenesis. Genetic evidence suggests that these cellular asymmetries are established in response to as yet unidentified signals from adjacent cells.     

Quantitative analysis of changes in actin microfilament contribution to cell plate development in plant cytokinesis

Background  

Plant cells divide by the formation of new cross walls, known as cell plates, from the center to periphery of each dividing cell. Formation of the cell plate occurs in the phragmoplast, a complex structure composed of membranes, microtubules (MTs) and actin microfilaments (MFs). Disruption of phragmoplast MTs was previously found to completely inhibit cell plate formation and expansion, indicative of their crucial role in the transport of cell plate membranes and materials. In contrast, disruption of MFs only delays cell plate expansion but does not completely inhibit cell plate formation. Despite such findings, the significance and molecular mechanisms of MTs and MFs remain largely unknown.     

Cortactin is implicated in murine zygotic development

Cortactin is a cortex-enriched protein implicated in Arp2/3 complex-mediated actin polymerization. However, the physiological role of cortactin remains unknown. We have generated a mouse strain in which the allele of murine cortactin was disrupted by a gene trapping vector. The resulting heterozygous mice developed normally and were fertile, but embryonic fibroblasts derived from heterozygous animals displayed partial impairment in PDGF-induced membrane ruffling. No homozygous offspring or early embryos even at the two-cell stage were detected. Analysis of oocytes revealed a gradual decrease in the detection of homozygous zygotes after fertilization. In normal oocytes arrested at meiotic metaphase II (MII), cortactin immunoreactivity was detected in an apical layer that overlies the maternal chromosome and overlaps with a polarized cortex enriched with actin. The formation of the polarized cortactin layer was diminished upon treatment with latrunculin B, an actin polymerization inhibitor. After resumption of meiosis II, the majority of cortactin protein was accumulated into the second polar body. Microinjection of MII-arrested eggs with either cortactin antibody or RNA encoding a cortactin mutant deficient in Arp2/3 complex binding disrupted the integrity of the actin cap and inhibited emission of the second polar body triggered by parthenogenesis. Our data suggest that cortactin plays an important role in the mechanics of asymmetric division in oocytes.     

Studies on the early development of zygotic and synergid embryo and endosperm in polyembryonic rice ApIII

A morphological, cytological and embryological investigation was conducted on the early development of embryo and endosperm in polyembryonic rice (Oryza sativa L.) ApIII. We found that the percentage of single-, twin- and triple-seedlings from mature caryopses was 82.4–85.6%, 11.3–14.6% and 2.0–3.8%, respectively. From twin-seedlings one of the plants and in the triple-seedlings usually two seedlings were very weak having a mortality of about 50–60% and over 95%, respectively, and most of the dead seedlings were haploid. In addition, among 674 young caryopses the percentage of single-, double- and triple-embryo sacs was 77.60%, 18.10% and 4.30%, respectively. The development of both embryo and endosperm was observed in the embryo sacs of 653 young caryopses, while embryo development occurred in absence of endosperm in the embryo sacs of 21 ones. Furthermore, after pollen tube penetration, frequently one, rarely two, additional embryos arise via apogamy from the typical specialized synergid of normal egg apparatus with a collapsed cap-neck region that had a damaged filiform apparatus at the micropylar end. Finally, the formation of a strikingly degenerated endosperm cell region is a specialized functional structure that serves for the active transport of metabolites from endosperm to the developing embryo. Taken together, these results suggest that synergid apogamy seems to be the unique reason of polyembryony, poor growth and high mortality of many seedlings may be due to haploidy, and high genetic stability of polyembryony occurs in rice ApIII.     

千里光合子胚和胚乳形成及其早期发育的细胞学特征（英文）

千里光(Senecio scandens Buch.-Ham. ex D. Don)是传统中草药,抗菌功效显著。本研究从细胞学角度对千里光合子胚和胚乳的形成与发育进行观察研究。结果显示,结构和功能迥异的基细胞和顶细胞源自细胞质不均一分布的合子所致,推测合子的极性与胚囊的极性和生殖核分裂为二态精细胞有关;基细胞在合子胚胎球型期末期出现分化,早期胚胎的组织分化始于三角期,可辨别的结构差异直到鱼雷期才出现。此外,胚乳形成遵循无细胞壁核化模型。本研究对千里光细胞分化、组织分化和结构差异各发育阶段特征的观察结果,不仅可为深入分析胚胎发育过程功能基因的时空表达提供依据,也为相关近缘物种的系统植物学研究提供参考资料。     

Somatic embryogenesis and plant development from immature zygotic embryos of seedless grapes (Vitis vinifera L.)

Summary Somatic embryo formation occurred from immature zygotic embryos within ovules of stenospermocarpic seedless grapes (Vitis vinifera L.), when cultured for two months on liquid Emershad/Ramming medium. Somatic embryos continued to proliferate after excision and transfer to Emershad/Ramming medium supplemented with 1 M benzylaminopurine and 0.65% TC agar. Plant development from somatic embryos was influenced by genotype, medium, phase (liquid, agar), stage (torpedo, mature) and their interactions. Optimal plant development occurred on Woody Plant Medium supplemented with 1.5% sucrose + 1 M benzylaminopurine + 0.3% activated charcoal and 0.65% TC agar.Abbreviations ABA abscisic acid - BAP benzylaminopurine - ER Emershad/Ramming - GLM general linear model - MGLH multivariate general linear hypothesis - MS Murashige/Skoog - NaClO sodium hypochlorite - TC tissue culture - WP woody plant     

Neural crest contribution to forebrain development

The neural crest (NC), a defining feature of vertebrate embryo, generates most of the skeletal tissues encasing the developing forebrain and provides the prosencephalon with functional vasculature and meninges. Recent findings show that early in development, the cephalic NC is also essential for the pre-otic neural tube closure and promotes the development of the prosencephalic alar plate by regulating the morphogenetic activities of forebrain organizers.     

Maternal effects of zygotic mutants affecting early neurogenesis inDrosophila

Summary The size of the neurogenic region ofDrosophila melanogaster is under the control of several genes of zygotic expression. Lack of function from any of those genes produces an increase of the size of the neurogenic region at the expense of the epidermal anlage. However, differences exist in the extent of neuralisation achieved by each of the genetic loci upon mutation. The present results show that in the case ofN andmam phenotype differences are due to different contributions of maternal gene expression. This could be shown by studying the phenotype which appeared in mutant embryos when the oocytes developed from homozygous mutant precursor cells. Clones of mutant cells were induced in the germ line of females heterozygous for the neurogenic mutationin trans over germ line dependent, dominant female sterile mutations. After removing maternal information the phenotype ofN andmam mutants became identical in both cases. Furthermore maternal information fromN ⁺ was found to be necessary for viability of the wildtype.     

In vitro development of globular zygotic wheat embryos

Summary We have established in vitro culture conditions for globular zygotic wheat embryos (Triticum aestivum L.). Their nutritional requirements have been systematically investigated. The initial sucrose concentration, as well as the sucrose concentration during the culture, a 6-benzylaminopurine supplement, the use of nitrates and ammonium as nitrogen source have a major influence on the embryo development. Proline has an inhibitory effect on the germination. A double layer system with different media was used to give a continuous variation of the medium composition with time. These culture conditions allowed normal direct embryogenesis in up to 47% of the globular embryos.Abbreviations BAP 6-benzylaminopurine - MES 2-N-morpholinoethane-sulfonic acid - MS Murashige and Skoog (1962)     

普里斯特利与光合作用的早期研究

介绍了普利斯特利及其钟罩实验和氧气的发现,普利斯特利对其实验结果解释与当时科学理论的关系．以及钟罩实验对光合作用早期研究的推动作用。     

Variance of the parental genome contribution to inbred lines derived from biparental crosses

The expectation of the parental genome contribution to inbred lines derived from biparental crosses or backcrosses is well known, but no theoretical results exist for its variance. Our objective was to derive the variance of the parental genome contribution to inbred lines developed by the single-seed descent or double haploid method from biparental crosses or backcrosses. We derived formulas and tabulated results for the variance of the parental genome contribution depending on the chromosome lengths and the mating scheme used for inbred line development. A normal approximation of the probability distribution function of the parental genome contribution fitted well the exact distribution obtained from computer simulations. We determined upper and lower quantiles of the parental genome contribution for model genomes of sugar beet, maize, and wheat using normal approximations. These can be employed to detect essentially derived varieties in the context of plant variety protection. Furthermore, we outlined the application of our results to predict the response to selection. Our results on the variance of the parental genome contribution can assist breeders and geneticists in the design of experiments or breeding programs by assessing the variation around the mean parental genome contribution for alternative crossing schemes.