Early embryonic development of the mayfly Ephemera japonica McLachlan (Insecta: Ephemeroptera,Ephemeridae)

In the newly laid egg of the mayfly Ephemera japonica, an egg nucleus (oocyte nucleus) at metaphase of the first maturation division is in the polar plasm at the mid-ventral side of the egg, and a male pronucleus lies in the periplasm beneath a micropyle situated just opposite the polar plasm or at the mid-dorsal side of egg. The maturation divisions are typical. An extensive and circuitous migration of the male pronucleus is involved in the fertilization process: it first moves anteriad in the periplasm from beneath the micropyle to the anterior pole of the egg and then turns posteriad in the yolk along the egg's long axis to the site of syngamy, near the center of the egg. Cleavage is superficial. The successive eight cleavages, of which the first five are synchronized, result in the formation of the blastoderm, and about ten primary yolk cells remain behind in the yolk. Even in the newly formed blastoderm, the thick embryonic posterior half and the thin extraembryonic anterior half areas are distinguished: the former cells are concentrated at the posterior pole of the egg to form the germ disc, and the latter cells become more flattened, forming serosa. Time-lapse VTR observations reveal a yolk stream that is in accord with the migration of the male pronucleus in time and direction. The yolk stream is also generated in activated unfertilized eggs, and it is probable that the migration of the male pronucleus in association with the fertilization may be directed by the yolk stream. J. Morphol. 238:327–335, 1998. © 1998 Wiley-Liss, Inc.     

Germ cell specification and early embryonic patterning in Bombyx mori as revealed by nanos orthologues

In the silkmoth Bombyx mori, the germ cells first appear from the posterior ventral side of the egg (from within the mesodermal primordium) after blastoderm formation. This is in contrast to Drosophila, where germ cells appear at the posterior pole before cellular blastoderm formation. To date, germ plasm has not been found in B. mori. In this study, we describe the identification and expression pattern of nanos from B. mori, in which we recovered four nanos orthologues. One orthologue showed strong expression in embryonic germ cells, which was traced back to periplasmic granules dispersed on the ventral midline of the egg from the posterior-ventral focus of preblastoderm embryos. This suggests that, in B. mori, as in dipterans, germ cell formation depends on a localized determinant in the egg. The expression of another orthologue was observed in the posterior of the germ band. We speculate that nanos has dual functions; one in germ cell formation and the other in posterior body patterning, which is conferred by one nanos gene in Drosophila, but is assigned to different genes in B. mori.     

The maturation divisions of the parthenogenetic stick insect Carausius morosus Br. (Orthoptera,Phasmidae)

The meiotic stages in the maturation of the egg of the parthenogenetic stick insect Carausius morosus Br. is described. The meiosis consists of two equational divisions and parthenogenesis is thus apomictic. The first prometaphase is formed between 5.8–5.5 days before oviposition; the first metaphase lasts until oviposition; the meiosis ends between 14 and 24 hours after oviposition. An extra chromosome doubling occurs before first anaphase, causing the first metaphase chromosomes to resemble bivalents and requiring that meiosis consists of two divisions instead of one. A terminal affinity between the daughter chromosomes influences chromosome movement during first and second metaphase and anaphase. The first and second polar bodies degenerate. The first polar body divides amitotically during pycnosis. Meiosis takes place ventrally in the egg, the germ anlage development dorsally. The pronucleus divides mitotically in the ventral part of the egg during its migration from ventral to dorsal, enabling blastoderm development to take place both ventrally and dorsally.     

细胞骨架与卵子减数分裂器的再启动和旋转关系的研究

本文采用体外授精(IVF)技术,通过小鼠受精卵早期发育过程中的形态变化,来研究受精过程中减数分裂器的重新启动与旋转。得到以下几个结果:①精子是在小鼠卵子的减数分裂器旋转之前进入卵子,随后精核发生去凝缩,从而使停滞的减数分裂器复苏启动。②雄性原核的形成过程,伴随着减数分裂器的旋转过程,雄性原核的形成要比雌性原核的为早。③在减数分裂器旋转过程中,微丝不仅参与,并且控制着旋转;解聚微丝,将阻止减数分裂器的旋转。④微管是减数分裂器的主要构成部分,它的稳定为减数分裂器形成提供了保证;解聚微管,将使减数分裂器解体。     

Fertilization,syngamy, and early embryonic development in the cricket Gryllus bimaculatus (De Geer)

Fertilization and early embryonic mitoses of the cricket Gryllus bimaculatus were examined by fluorescence staining of whole-mount as well as squash preparations. Egg meiosis occurs near the ventral surface of the egg, while sperm transforms into a sperm pronucleus in the cytoplasmic island on the dorsal side. After meiosis, the egg pronucleus moves across the egg toward the sperm pronucleus in the island, where union of these nuclei occurs. The first cleavage mitosis is gonomeric, as in insects such as Pyrrhocoris, Drosophila, and Bombyx. After the third cleavage the synchrony of nuclear division is lost and the dividing nuclei are distributed all over the egg by 12 h after deposition.     

Pronuclear formation in starfish eggs inseminated at different stages of meiotic maturation: correlation of sperm nuclear transformations and activity of the maternal chromatin

Changes in sperm nuclei incorporated into starfish, Asterina miniata, eggs inseminated at different stages of meiosis have been correlated with the progression of meiotic maturation. A single, uniform rate of sperm expansion characterized eggs inseminated at the completion of meiosis. In oocytes inseminated at metaphase I and II the sperm nucleus underwent an initial expansion at a rate comparable to that seen in eggs inseminated at the pronuclear stage. However, in oocytes inseminated at metaphase I, the sperm nucleus ceased expanding by meiosis II and condensed into chromosomes which persisted until the completion of meiotic maturation. Concomitant with the formation and expansion of the female pronucleus, sperm chromatin of oocytes inseminated at metaphase I enlarged and developed into male pronuclei. Condensation of the initially expanded sperm nucleus in oocytes inseminated at metaphase II was not observed. Instead, the enlarged sperm nucleus underwent a dramatic increase in expansion commensurate with that taking place with the maternal chromatin to form a female pronucleus. Fusion of the relatively large female pronucleus and a much smaller male pronucleus was observed in eggs fertilized at the completion of meiotic maturation. In oocytes inseminated at metaphase I and II, the male and female pronuclei, which were similar in size, migrated into juxtaposition, and as separate structures underwent prophase. The chromosomes in each pronucleus condensed, intermixed, and became aligned on the metaphase palate of the mitotic spindle in preparation for the first cleavage division. These observations demonstrate that the time of insemination with respect to the stage of meiotic maturation has a significant effect on sperm nuclear transformations and pronuclear morphogenesis.     

Microtubules mediate germ-nuclear behavior after meiosis in conjugation of Paramecium caudatum

Microtubule dynamics in Paramecium caudatum were investigated with an anti-alpha-tubulin antibody and a microinjection technique to determine the function of microtubules on micronuclear behavior during conjugation. After meiosis, all four haploid micronuclei were connected by microtubular filaments to the paroral region and moved close to this region. This nuclear movement was micronucleus-specific, because some small macronuclear fragments transplanted from exconjugants never moved to the region. Only one of the four germ nuclei moved into the paroral cone and was covered by microtubule assembly (the so-called first assembly of microtubules, AM-I). This nucleus survived there, while the other three not in this region degenerated. The movement of germ nucleus was inhibited by the injection of the anti-alpha-tubulin antibody. The surviving germ nucleus divided once and produced a migratory pronucleus and a stationary pronucleus. Prior to the reciprocal exchange of the migratory nuclei, microtubules assembled around the migratory pronuclei again (the so-called second assembly of microtubules, AM-II). Then, the migratory pronucleus moved into the partner cell and fused with the stationary pronucleus. Thus, microtubules appear to be indispensable for nuclear behavior: they enable migration of postmeiotic nuclei to the paroral region and they permit the survival of the nucleus at the paroral cone.     

Egg structure and outline of embryonic development of the basal mantodean, Metallyticus splendidus Westwood, 1835 (Insecta,Mantodea, Metallyticidae)

The egg structure and outline of the embryonic development of Metallyticus splendidus of one of the basal Mantodea representatives, Metallyticidae, were described in the present study. The results obtained were compared with those from the previous studies, to reconstruct and discuss the groundplan of Mantodea and Dictyoptera. In M. splendidus, the egg is spheroidal, it has a convex ventral side at the center in which numerous micropyles are grouped, and it possesses a conspicuous hatching line in its anterior half. These are the groundplan features of mantodean eggs and the “grouped micropyles in the ventral side of the egg” are regarded as an apomorphic groundplan feature of Dictyoptera. A small circular embryo is formed by a simple concentration of blastoderm cells, which then undergoes embryogenesis of the typical short germ band type. Blastokinesis is of the “non-reversion type” and the embryo keeps its original superficial position and original orientation throughout embryonic development. During the middle stages of development, the embryo undergoes rotation around the egg's anteroposterior axis. These features are a part of the groundplan of Mantodea. It is uncertain whether sharing of the “non-reversion type” of blastokinesis by Mantodea and blaberoidean Blattodea can be regarded as homology or homoplasy.     

Microtubules During Blastoderm Formation in the Egg of the Silkworm, Bombyx mori L.

Microtubules in the silkworm egg, Bombyx mori , were observed by electron microscopy, in order to investigate the relationship between cytoskeletal organelles and the migration of energids, the cleavage nuclei accompanied by the associated cytoplasm, near the egg surface or during blastoderm formation. Numerous microtubules were observed in the associated cytoplasm of an energid even in the interphase of mitosis.
At about 8.5 hr after oviposition, when many energids had already cleft and distributed near the peripheral yolk granule region, long microtubules distributed radially from the perinuclear region to the periphery in the associated cytoplasm. When an energid was protruding, the microtubules above the nucleus distributed at a more acute angle than those under the nucleus. When a blastoderm cell had just been formed, the microtubules were observed only under the nucleus.
Colchicine, an inhibitor of microtubules, stopped the migration of energids and inhibited the formation of blastoderm cells even after many energids had already distributed at the peripheral yolk granule region. The relationship between the microtubules and the migration of energids near the egg surface or during blastoderm formation was discussed.     

雌核发育银鲫卵抑制异源精子原核化的作用模式初探

雌核发育银鲫卵能抑制异源精子原核化,其个体发育完全由雌核控制。本实验通过去核、卵质转移和去除卵膜等手段,初步揭示了银鲫卵抑制异源精子原核化的作用,提出了双重控制的假说,即银鲫卵对异源精子具有初级控制和次级控制功能。初级控制可能是由于在精子进入卵子深部的通道上存在着某种特殊的抑制物的缘故,而次级控制的产生则可能是因为银鲫卵质中缺少某种两性融合生殖鱼类卵质所具有的促精子核化物质。     

The Drosophila calcipressin sarah is required for several aspects of egg activation

Activation of mature oocytes initiates development by releasing the prior arrest of female meiosis, degrading certain maternal mRNAs while initiating the translation of others, and modifying egg coverings. In vertebrates and marine invertebrates, the fertilizing sperm triggers activation events through a rise in free calcium within the egg. In insects, egg activation occurs independently of sperm and is instead triggered by passage of the egg through the female reproductive tract ; it is unknown whether calcium signaling is involved. We report here that mutations in sarah, which encodes an inhibitor of the calcium-dependent phosphatase calcineurin, disrupt several aspects of egg activation in Drosophila. Eggs laid by sarah mutant females arrest in anaphase of meiosis I and fail to fully polyadenylate and translate bicoid mRNA. Furthermore, sarah mutant eggs show elevated cyclin B levels, indicating a failure to inactivate M-phase promoting factor (MPF). Taken together, these results demonstrate that calcium signaling is involved in Drosophila egg activation and suggest a molecular mechanism for the sarah phenotype. We also find the conversion of the sperm nucleus into a functional male pronucleus is compromised in sarah mutant eggs, indicating that the Drosophila egg's competence to support male pronuclear maturation is acquired during activation.     

Embryogenesis of Heliconius erato (Lepidoptera,Nymphalidae): A contribution to the anatomical development of an evo‐devo model organism

This study reports on the embryogenesis of Heliconius erato phyllis between blastoderm formation and the prehatching larval stage. Syncytial blastoderm formation occurred approximately 2 h after egg laying (AEL) and at about 4 h, the cellular blastoderm was formed. The germ band arose from the entire length of the blastoderm, and rapidly became compacted occupying approximately two‐thirds of the egg length. At about 7 h AEL, protocephalon and protocorm differentiation occurred. Continued proliferation of the germ band was followed by penetration into the yolk mass, forming a C‐shaped embryo at about 10 h. Approximately 12 h AEL, the gnathal, thoracic and abdominal segments became visible. The primordium of the mouthparts and thoracic legs formed as paired evaginations, while the prolegs formed as paired lobes. At about 30 h, the embryo reversed dorsoventrally. Approximately 32 h AEL, the protocephalon and gnathal segments fused, shifting the relative position of the rudimentary appendages in this region. At about 52 h, the embryo was U‐shaped in lateral view and at approximately 56 h, the bristles began evagination from the larval cuticle. Larvae hatched at about 72 h. We found that H. erato phyllis followed an embryonic pattern consistent with long‐germ embryogenesis. Thus, we believe that H. erato phyllis should be classified as a long‐germ lepidopteran. The study of H. erato phyllis embryogenesis provided a structural glimpse into the morphogenetic events that occur in the Heliconius egg period. This study could help future molecular approaches to understanding the evolution of Heliconius development.     

中国对虾受精过程中精卵核的细胞学变化

中国对虾精子以其棘部顶端随机附着在卵上,精子在凝胶膜形成后,第一极体排出前入卵,精子入卵后,絮状的精核经过重建形成雄原核,中国对虾卵子排放时处于第一次成熟分裂的中期,卵子入海水时,纺锤体的长轴与质膜平行,卵子激活后,纺锤体的长轴开始旋转,旋转至纺鲑体长轴与质膜垂直时,由纺锤丝牵引着染色体向两极移动,外侧的染色体由质膜包裹形成第一极体,受膜举起后,由次级卵母细胞排放出第二极体,此后,单倍雌核重建形成雌原核,雄原核形成早于雌原核,雌雄原核于卵子中央联会形成联合核,受精后的50分钟纺锤丝牵关染色体称向两极,质膜内缢断裂形成两个细胞的胚胎。     

Germ cell sex prior to meiosis in the rainbow trout

Germ cells make two major decisions when they move from an indeterminate state to their final stage of gamete production. One decision is sexual commitment for sperm or egg production, and the other is to maintain mitotic division or entry into meiosis. It is unclear whether the two decisions are made as a single event or separate events, because there has been no evidence for the presence of germ cell sex prior to meiosis. Here we report direct evidence in the fish rainbow trout that gonia have distinct sexuality. We show that dazl expression occurs in both male and female gonia but exhibits differential intracellular distribution. More strikingly, we show that boule is highly expressed in male gonia but absent in female gonia. Therefore, mitotic gonia possess sex, sperm/egg decision and mitosis/meiosis decision are two independent events, and sperm/egg decision precedes mitosis/meiosis decision in rainbow trout, making this organism a unique vertebrate model for mechanistic understanding of germ cell sex differentiation and relationship between the two decisions.     

大熊猫与金黄地鼠体外异种受精的研究

在大熊猫精子与地鼠卵的体外异种受精中,发现大熊猫精子穿入地鼠卵后可以激活受精卵产生极区,释放第二极体,受精卵内雌性原核形成。与此同时,地鼠卵的胞质也能促使大熊猫精子头发育成雄性原核,异种精卵间的相互作用与同种受精的相似。 细胞松弛素B能阻抑大熊猫雄性原核从地鼠卵皮层迁移到卵的中央,实验表明大熊猫雄性原核的迁移也受异种卵的微丝的控制。     

Oogenesis and Reproduction of the Birch Cyst Nematode,Heterodera betulae

Cytological study revealed that maturation of oocytes of Heterodera betulae is by regular meiosis and reproduction is by parthenogenesis. Restoration of the somatic chromosome number occurs after telophase II and before egg pronucleus formation, in the absence of a mitotic apparatus through a type of endomitotic division. The haploid chromosome number is 12 (2n = 24) in 95% of the female nematodes studied and 13 in the remaining 5%. The phylogenetic relationship of H. betulae with most other Heterodera species having n = 9 is not clear.     

Early embryonic development and diapause stage in the band-legged ground cricket Dianemobius nigrofasciatus

The band-legged ground cricket Dianemobius nigrofasciatus enters diapause at an early embryonic stage when adults are reared under short-day conditions or the eggs are exposed to a low temperature. We examined the morphological features of the embryo during early development and determined the exact stage of entry into diapause. In non-diapause eggs, no periplasmic space was observed in the surface region and a small number of nuclei surrounded by cytoplasm (energids) were found among the yolk granules and lipid droplets 12 h after egg laying (AEL) at 25°C. The energids sparsely but evenly populated the surface region at 40 h AEL, but there were some gaps between these energids. A continuous thin layer of nuclei with cytoplasm had completely covered the egg surface at 56 h AEL, suggesting that the blastoderm is formed between 40 and 56 h AEL. At 72 h AEL, we found a germ band at the posterior pole. Electron microscopy revealed clear cell membranes at 40 h AEL. Staining with rhodamine-dextran dye demonstrated that the cell membrane is formed when the nuclei appear on the egg surface at 12–24 h AEL. These results indicate that cellularization occurs before blastoderm formation. In diapause eggs, neither the embryonic rudiment nor germ band was formed, but a continuous layer of cells covered the egg surface. It is concluded that D. nigrofasciatus enters diapause at the cellular blastoderm.     

Surface ultrastructure of paddlefish eggs before and after fertilization

The surface ultrastructure of eggs of the paddlefish Polyodon spathula was investigated by scanning electron microscopy. Mature eggs of paddlefish possess four to 12 micropyles in the animal polar region. There are sperm entry sites in the egg surface under the micropyles which consist of tufts of microvilli. Five to nine sperm entry sites were observed on mature eggs. Probably, the number of sperm entry sites corresponds to the number of micropyles. In a few eggs, 1 min after fertilization the ball-like enlarged top of a cytoplasmic process (probably a full-grown fertilization cone) had reached the external aperture or the canal of several micropyles. In other micropyles of the same egg, a few smaller cytoplasmic processes or flocculent material were found in the micropylar canal. With one exception, no sperm tails were found there. The formation of the full-grown cytoplasmic process is possibly initiated before the cortical reaction has started in an area of the animal hemisphere. Three, 10 and 20 min after fertilization, the uneven surface of the cortical cytoplasm in the animal polar region rose gently where microvilli were much less than the in other area and together with a secondary polar body at the latter stage. Taken together, paddlefish eggs may have sperm entry sites corresponding to the number of micropyles and respond to the stimulus of fertilization by forming a few cytoplasmic processes–fertilization cones (larger and smaller). Sperm penetration into the egg may be achieved at an earlier stage of fertilization (sperm-egg contact), as inferred from the fact that a secondary polar body was formed at the 20-min stage irrespective of the exceptional finding of the sperm tail.