Development of the brine shrimp Artemia is accelerated during spaceflight

Developmentally arrested brine shrimp cysts have been reactivated during orbital spaceflight on two different Space Shuttle missions (STS-50 and STS-54), and their subsequent development has been compared with that of simultaneously reactivated ground controls. Flight and control brine shrimp do not significantly differ with respect to hatching rates or larval morphology at the scanning and transmission EM levels. A small percentage of the flight larvae had defective nauplier eye development, but the observation was not statistically significant. However, in three different experiments on two different flights, involving a total of 232 larvae that developed in space, a highly significant difference in degree of flight to control development was found. By as early as 2.25 days after reactivation of development, spaceflight brine shrimp were accelerated, by a full instar, over ground control brine shrimp. Although developing more rapidly, flight shrimp grew as long as control shrimp at each developmental instar or stage.     

Influence of microgravity on crystal formation in biomineralization.

Biomineralized tissues are widespread in animals. They are essential elements in skeletons and in statocysts. The function of both can only be understood with respect to gravitational force, which has always been present. Therefore, it is not astonishing to identify microgravity as a factor influencing biomineralization, normally resulting in the reduction of biomineralized materials. All known biominerals are composite materials, in which the organic matrix and the inorganic materials, organized in crystals, interact. If, during remodeling and turnover processes under microgravity, a defective organization of these crystals occurs, a reduction in biomineralized materials could be the result. To understand the influence of microgravity on the formation of biocrystals, we studied the shell-building process of the snail Biomphalaria glabrata as a model system. We show that, under microgravity (space shuttle flights STS-89 and STS-90), shell material is built in a regular way in both adult snails and snail embryos during the beginning of shell development. Microgravity does not influence crystal formation. Because gravity has constantly influenced evolution, the organization of biominerals with densities near 3 must have gained independence from gravitational forces, possibly early in evolution.     

Effect of fertility regulating agents on motility and zona-free hamster egg penetration by spermatozoa of bonnet monkey.

Administration of STS-557 (17 alpha-cyanomethyl-17 beta-hydroxyestra 4,9(10)-dien-3-one; 12 mg/monkey daily) for 4 weeks either alone or in combination with 20 Aet-1 (testosterone-trans-4-n-butyl cyclohexyl carboxylate; code CDB 1781; 40 mg/monkey single administration) had no significant effect on motility and zona free hamster egg penetration by spermatozoa of bonnet monkey, but continuation of the treatment for 12 weeks reduced (in one monkey treated with STS-557) or abolished (one treated with STS-557 and two with STS-557 + 20 Aet-1) the motility as well as zona-free hamster egg penetration (by spermatozoa of all treated monkeys). Motility and the ability to penetrate zona-free hamster egg returned to normalcy after 10 weeks of withdrawal of treatments. Active immunization of monkeys with ovine FSH (4 weeks after booster) had no adverse effect on motility of spermatozoa but none of the zona-free hamster eggs was fertilized. The correlation between motility and the capacity to penetrate the zona-free hamster eggs by monkey spermatozoa varies with the treatment. Such correlation was apparent in monkeys treated with STS-557 but not in monkeys immunized with ovine FSH.     

Avian Egg Odour Encodes Information on Embryo Sex,Fertility and Development

Avian chemical communication is a rapidly emerging field, but has been hampered by a critical lack of information on volatile chemicals that communicate ecologically relevant information (semiochemicals). A possible, but as yet unexplored, function of olfaction and chemical communication in birds is in parent-embryo and embryo-embryo communication. Communication between parents and developing embryos may act to mediate parental behaviour, while communication between embryos can control the synchronicity of hatching. Embryonic vocalisations and vibrations have been implicated as a means of communication during the later stages of development but in the early stages, before embryos are capable of independent movement and vocalisation, this is not possible. Here we show that volatiles emitted from developing eggs of Japanese quail (Coturnix japonica) convey information on egg fertility, along with the sex and developmental status of the embryo. Specifically, egg volatiles changed over the course of incubation, differed between fertile and infertile eggs, and were predictive of embryo sex as early as day 1 of incubation. Egg odours therefore have the potential to facilitate parent-embryo and embryo-embryo interactions by allowing the assessment of key measures of embryonic development long before this is possible through other modalities. It also opens up the intriguing possibility that parents may be able to glean further relevant information from egg volatiles, such as the health, viability and heritage of embryos. By determining information conveyed by egg-derived volatiles, we hope to stimulate further investigation into the ecological role of egg odours.     

Technic for Photographing Early Cleavage Stages of the Hen's Egg

Altho photographs have been secured of early cleavage stages in the pigeon's egg, no photographs of corresponding stages of development of the hen's egg have been published. Satisfactory photographs of early cleavage stages of the hen's egg have been difficult to obtain in the past because of the indistinctness of the furrows and the lack of contrast between them and the remainder of the blastodisc. The indistinctness of the cleavage furrows in the hen's egg as compared with those of the pigeon's egg was recognized by Patterson (1910) who, after having studied both types of eggs, states (p. 109): “The lack of a furrow is the cause of the indistinctness of the early cells. In this respect, the early cleavages of the hen's egg differ greatly from those of the pigeon's egg, for in the latter their clearness is such as to permit photographing the living cells, while in the former photographs are impossible, except in a few cases”.     

A functioning ovary is not required for sex peptide to reduce receptivity to mating in D. melanogaster

In many species of invertebrates that mate multiply, mating induces a temporary reduction in sexual receptivity and an increase in the rate of egg laying. These processes often appear to be co-ordinately regulated, and triggered by the passage of seminal fluid components. However, little is known about the mechanisms of the links between these processes. In Drosophila melanogaster females, post-mating sexual receptivity is decreased and egg laying increased by the actions of the male ejaculate-derived sex peptide (SP). Effects of SP on egg laying and receptivity have not been observed separately, which has led to the suggestion that the reduction in receptivity is at least partially dependent on the status of egg development or egg laying, with the presence of an egg in the uterus being a strong predictor of receptivity state. Here, we examine the response to SP of females in which egg development is arrested at an early, pre-vitellogenic stage. We find that females in which egg development is arrested mate normally and that normal receptivity responses to SP are independent of early egg arrest. Among fertile control females that laid eggs, a significant effect of SP on receptivity was also observed, independent of whether an egg was present in the uterus. The results show that the effects of SP on receptivity are not dependent upon a fully functional ovary, and hence that egg development or laying is not causal in the SP receptivity response.     

Morphology,Oviposition, and Embryogenesis in an Australian Population of Acrobeloides nanus

A population of Acrobeloides nanus in Australia is described and illustrated, based on light and scanning electron microscopy. Embryogenesis from egg laying to hatching is followed over a wide range of temperatures. At 15 C, hatching occurs in about 125 hours and at 35 and 37.5 C after about 40 hours. At 40 C, egg development ceases early in cleavage. The capacity of A. nanus to develop over such a range of temperatures, and its anhydrobiotic capabilities, are discussed in relation to its survival and wide distribution in Australia.     

Embryogenesis and swimming behavior of Medaka fish in JUSTSAP STARS Program (STS-107).

JUSTSAP (Japan-US Science, Technology and Space Application Program) Medaka fish experiment was carried out as a part of STARS (Space Technology and Research for Student) experiment, a space shuttle mission, STS-107 in January 2003. Four eggs laid on earth under artificially controlled environment were put in a closed ecological system, AHAB (Aquatic Habitat), and launched by Space Shuttle Columbia. For the control experiment, four eggs were put in the AHAB and remained on the ground. There was no remarkable difference in the time course of the development. In ground experiment embryos were observed to rotate in the egg membrane, whereas in flight unit they did not rotate. One egg hatched out on L (Launch) +8 days in flight unit. Four eggs hatched out in ground unit. Fry in flight unit was observed to face its back usually to the camera with little swimming movement. Fry in ground unit were observed to move actively and also to control their posture with respect to gravity vector.     

A Developmental Journey and Lessons Learned Along the Way

A career in science is a journey of wonder and discovery. To succeed in science requires curiosity, perseverance, a good dose of luck, and wise guidance from those who have taken the journey ahead of you. We also need to use our science skills to contribute to public debate on complex issues of the day.Being honored by the 2009 American Society for Cell Biology Women in Cell Biology (WICB) Senior Award has provided me with an opportunity to look back and examine the importance of mentorship and role models, both female and male, in my career. I am fundamentally a basic biologist, driven by my curiosity about how the world works. The question that has fascinated me for over 30 years is one that we can all relate to: How is it that complex, rational organisms such as ourselves can arise from a single cell, the size of a speck of dust?Over the years my lab colleagues and I have explored many aspects of that question, using mice as our model system, and we''ve discovered more and more about the hierarchy of cell decisions that begins when sperm hits egg. Along the way we have contributed to the development of techniques for manipulating the mouse genome, helped identify key signaling pathways that control blood vessel development, and isolated novel stem cells from the mouse blastocyst. But I always return to the fundamental questions of lineage development in the early embryo, attacking the problem with new tools as they become available.     

NASDA aquatic animal experiment facilities for Space Shuttle.

National Space Development Agency of Japan (NASDA) has been developed aquatic animal experiment facilities for space experiments using NASA Space Shuttle. Vestibular Function Experiment Unit (VFEU) has been firstly designed and developed for Spacelab-J mission (STS-47), and 8 days space experiment with carp has been performed. Following, the VFEU, Aquatic Animal Experiment Unit (AAEU) has been developed to accommodate small aquatic animals second International Microgravity Laboratory mission (IML-2, STS-65). Four kinds of space experiments with goldfish, medaka, newt, and newt eggs have been performed for 15 days mission duration. Then, VFEU has been improved to accommodate marine fish under low temperature condition for Neurolab (STS-90) and STS-95 missions. 17 days (STS-90) and 9 days (STS-95) experiments with oyster toadfish have been performed by using the VFEU. This report summarizes the outline of these aquatic animal experiment facilities.     

TULA-family proteins: Jacks of many trades and then some

UBASH3/STS/TULA is a novel two-member family, which exerts several key regulatory effects in multiple cell types. UBASH3B/STS-1/TULA-2 is a highly active protein tyrosine phosphatase; its major target appears to be a specific regulatory site of protein tyrosine kinases of the Syk family, dephosphorylation of which inhibits Syk and Zap-70 kinases and suppresses receptor signaling mediated by these kinases. UBASH3A/STS-2/TULA exhibits substantial homology to UBASH3B/STS-1/TULA-2, but possesses only a small fraction of phosphatase activity of UBASH3B/STS-1/TULA-2, and thus, its regulatory effect may be based also on the phosphatase-independent mechanisms. Critical physiologic effects of these proteins have been demonstrated in T lymphocytes, platelets, stem cells, and other important cell types. These proteins have also been shown to play a key role in such pathologic conditions as autoimmunity, cancer, and thrombosis. The review focuses on the recent studies of this important family of cellular regulators.     

The axolotl mutants

The Mexican axolotl (Ambystoma mexicanum) has enjoyed wide use in experimental embryology for over 100 yr. Its usefulness has been extended into the area of developmental genetics largely due to the contributions of R. Briggs and R. R. Humphrey at Indiana University. To date over 30 mutants have been described, almost all of which affect development. Some of these have been discovered in inbred strains while others have been uncovered in recent Mexican imports. These mutants can be subdivided into several major classes. Maternal effect mutations lead to deficiencies in informational, structural, or metabolic components of the egg essential to early development prior to the time at which the embryo's own genome becomes active. In contrast, the developmental lethals affect later stages in embryogenesis when both morphogenetic and biochemical events are determined exclusively by the genotype of the embryo. Most lead to death at about feeding stage. Some, the cell lethals, are believed to suffer from fundamental metabolic defects affecting all parts of the embryo. Others affect the development of specific organs or tissues. The developmental nonlethals also affect specific systems, but ones that are not essential to survival. Some affect the development and survival of pigment cells and these, along with isozyme variants, are useful as markers in developmental experiments. A number of the mutants have been studied in detail, but others scarcely at all. The purpose of this review is to bring them to the attention of all developmental biologists in the hope that their potential will be even more widely recognized.     

Early specification for body position in mes-endodermal regions of an amphibian embryo

Specification for development of the body pattern in the amphibian embryo has usually been thought of as a prolonged process, initiated from an ooplasmic localisation of some kind in what will become the dorsal-anterior midline. The evidence has been interpreted as suggesting that this initial localisation is centred in what will become anterior endoderm, but gives rise by an inductive process in early blastula stages to an overlying organising centre which eventually controls the genesis of mesodermal pattern. Neurectodermal development (especially, the position and pattern of the central nervous system) is seen as controlled considerably later, by inductive signals from submigrating mesoderm at gastrulation. Current work tends to confirm that this sequence of inductive influences can occur at least in experimental situations. It also suggests, however, that in the normal development of the rather small egg of Xenopus, genesis of positional cues that specify the body pattern contributions within the more vegetal material (mes-endoderm) is a rather rapid, widespread and direct consequence of events occurring in the interval between fertilisation and cleavage. Possible molecular bases of early nuclear responses to position within egg material, and the more problematic nature of the positional system itself, are discussed.     

Is the Starling Sturnus vulgaris a determinate layer?

European Starlings Sturnus vulgaris have been said to be determinate layers, that is, they do not react to egg removals by laying extra eggs nor to egg additions by laying fewer eggs. Especially in species with a relatively small clutch-size, such as the Starling, it is important to start these experiments early during the laying period to give the laying female the possibility of reacting to these additions and/or removals. I report here addition ( n = 11 nests) and removal experiments ( n = 35) early in laying period in a captive Starling colony. Additional information is presented about the development of incubation behaviour, a good predictor of clutch-size. When three eggs were added to nests at 1500h on the first day of laying, females laid the normal number of eggs, and incubation behaviour developed regularly. Egg removals (one egg on three successive days) that started early in the laying period (at 1500h on the first day or at 0800h on the second day) arrested the development of incubation behaviour and resulted in the laying of extra eggs. Removals later in the laying period had no effect on the number of eggs laid nor on incubation behaviour. Following Kennedy's (1991) terminology, the starling is an addition-determinate, and appears to be a removal-indeterminate, layer.     

Evolutionary Correlations Between Early Development and Life History in Plethodontid Salamanders and Teleost Fishes

SYNOPSIS. This study compares the relationships among earlydevelopment and life history characters between two monophyleticgroups, salamanders and teleost fishes. Plethodontid salamandershave large eggs and slow development. Large egg size in plethodontidsalamanders has been shown to influence several aspects of earlydevelopment, including: (1) time of holoblastic cleavage, (2)thickness of the blastocoel roof, (3) gastrulation (morphogeneticprocesses and timing), (4) early developmental rate, (5) formationof an embryonic disk, and (6) percentage of egg volume contributingto embryonic structures. Egg size is just one of several factorsthat influence the rate of development. While the slow developmentof plethodontids may have evolutionary implications for timingof oviposition, the lack of a clear correlation between thesevariables indicates that other life history characters needto be studied. Comparisons of the timing of oviposition in 28plethodontid species reveal that oviposition in the fall orwinter is the derived condition. On the basis of six early developmentaland six life history characters examined, there do not appearto be strong relationships between these two character sets.Evolutionary increases in egg size that delay when the egg cleavesholoblastically in some amphibian lineages (such as plethodontids)have been considered to be analogous to the changes that ledto the evolution of meroblastic cleavage in such lineages asamniotes. However, teleosts provide an interesting contrastto this standard scenario: The evolution of meroblastic cleavageis not correlated with an increase in egg size, but rather,with a decrease in egg size. Changes in early development ofteleosts that led to the evolution of meroblastic cleavage mayhave significant relationships with life history traits becauseof osmotic influences and could qualify as a key innovation.     

A Mathematical Model of Collective Cell Migration in a Three-Dimensional,Heterogeneous Environment

Cell migration is essential in animal development, homeostasis, and disease progression, but many questions remain unanswered about how this process is controlled. While many kinds of individual cell movements have been characterized, less effort has been directed towards understanding how clusters of cells migrate collectively through heterogeneous, cellular environments. To explore this, we have focused on the migration of the border cells during Drosophila egg development. In this case, a cluster of different cell types coalesce and traverse as a group between large cells, called nurse cells, in the center of the egg chamber. We have developed a new model for this collective cell migration based on the forces of adhesion, repulsion, migration and stochastic fluctuation to generate the movement of discrete cells. We implement the model using Identical Math Cells, or IMCs. IMCs can each represent one biological cell of the system, or can be aggregated using increased adhesion forces to model the dynamics of larger biological cells. The domain of interest is filled with IMCs, each assigned specific biophysical properties to mimic a diversity of cell types. Using this system, we have successfully simulated the migration of the border cell cluster through an environment filled with larger cells, which represent nurse cells. Interestingly, our simulations suggest that the forces utilized in this model are sufficient to produce behaviors of the cluster that are observed in vivo, such as rotation. Our framework was developed to capture a heterogeneous cell population, and our implementation strategy allows for diverse, but precise, initial position specification over a three- dimensional domain. Therefore, we believe that this model will be useful for not only examining aspects of Drosophila oogenesis, but also for modeling other two or three-dimensional systems that have multiple cell types and where investigating the forces between cells is of interest.     

Screening for small molecule inhibitors of embryonic pathways: sometimes you gotta crack a few eggs

Extract prepared from Xenopus eggs represents a cell-free system that has been shown to recapitulate a multitude of cellular processes, including cell cycle regulation, DNA replication/repair, and cytoskeletal dynamics. In addition, this system has been used to successfully reconstitute the Wnt pathway. Xenopus egg extract, which can be biochemically manipulated, offers an ideal medium in which small molecule screening can be performed in near native milieu. Thus, the use of Xenopus egg extract for small molecule screening represents an ideal bridge between targeted and phenotypic screening approaches. This review focuses on the use of this system for small molecules modulators of major signal transduction pathways (Notch, Hedgehog, and Wnt) that are critical for the development of the early Xenopus embryo. We describe the properties of Xenopus egg extract and our own high throughput screen for small molecules that modulate the Wnt pathway using this cell-free system. We propose that Xenopus egg extract could similarly be adapted for screening for modulators of the Notch and Hedgehog pathways.     

Yolk testosterone reduces oxidative damages during postnatal development

Conditions experienced during early life can influence the development of an organism and several physiological traits, even in adulthood. An important factor is the level of oxidative stress experienced during early life. In birds, extra-genomic egg substances, such as the testosterone hormone, may exert a widespread influence over the offspring phenotype. Interestingly, testosterone can also upregulate the bioavailability of certain antioxidants but simultaneously increases the susceptibility to oxidative stress in adulthood. However, little is known about the effects of maternally derived yolk testosterone on oxidative stress in developing birds. Here, we investigated the role of yolk testosterone on oxidative stress of yellow-legged gull chicks during their early development by experimentally increasing yolk testosterone levels. Levels of antioxidants, reactive oxygen species and lipid oxidative damage were determined in plasma during nestlings'' growth. Our results revealed that, contrary to control chicks, birds hatched from testosterone-treated eggs did not show an increase in the levels of oxidative damage during postnatal development. Moreover, the same birds showed a transient increase in plasma antioxidant levels. Our results suggest that yolk testosterone may shape the oxidative stress-resistance phenotype of the chicks during early development owing to an increase in antioxidant defences and repair processes.     

Pollen and ovule development in Arabidopsis thaliana under spaceflight conditions

The development of pollen and ovules in Arabidopsis thaliana on the space shuttle 'Endeavour' (STS-54) was investigated. Plants were grown on nutrient agar for 14 days prior to loading into closed plant growth chambers that received light and temperature control inside the Plant Growth Unit flight hardware on the shuttle middeck. After 6 days in spaceflight the plants were retrieved and immediately dissected and processed for light and electron microscope observation. Reproductive development aborted at an early stage. Pistils were collapsed and ovules inside were seen to he empty. No viable pollen was observed from STS-54 plants; young microspores were deformed and empty. At a late stage, the cytoplasm of the pollen contracted and became disorganized, but the pollen wall developed and the exine appeared normal. The tapetum in the flight flowers degenerated at early stages. Ovules from STS-54 flight plants stopped growing and the integuments and nucellus collapsed and degenerated. The megasporocytes appeared abnormal and rarely underwent meiosis. Apparently they enlarged, or occasionally produced a dyad or tetrad, to assume the form of a female gametophyte with the single nucleus located in an egglike cell that lacks a cell wall. Synergids, polar nuclei, and antipodals were not observed. The results demonstrate the types of lesions occurring in plant reproductive material under spaceflight conditions.     

The egg white and yolk interactomes as gleaned from extensive proteomic data

Combinatorial peptide ligand libraries have recently allowed considerable advances in the mapping of chicken egg yolk and white proteomics. Data from literature have been regrouped and elaborated for network and pathway analyses in order to convey a unified view of these proteomes. Redundant proteins were excluded, while isoforms of the same proteins were maintained to reach a total of 260 distinct gene products for egg yolk and 148 for egg white having a match in the database. From these analyses, a role for proteins involved in cell development, proliferation and migration, cell-to-cell interaction and hematological system development emerged. Although it might turn out that, notwithstanding the extensive mapping, the currently available datasets might be still incomplete, a valuable insight could still be obtained about specific proteins playing a crucial role in antimicrobial responses, mainly histones, lysozyme and vitamin-binding proteins. In particular, SERPINB3 (ovalbumin Y, or Squamous Cell Carcinoma Antigen, SCCA1) was individuated in 8 out of 10 top score pathways in egg yolk and in 6 out 10 in egg white. SERPINB3 is a member of the ov-serpin family, participating in coagulation and inflammation responses. However, it is yet to be assessed how these observations could correlate with previous analyses about the role of egg yolk derived proteins in counteracting blood coagulation.