The effective culture method of zona-free rabbit 1-, 2- and 4-cell embryos

The effect of modified incubation systems on the development capacity of the zona-free rabbit embryos was examined. Embryos at 1-, 2- and 4-cell stages were used. The removal of the zona pellucida was accomplished by the enzymic-mechanical technique. Denuded rabbit embryos were cultured using 3 incubation systems. In the first and the second system the embryos were cultured in microdrops. The difference between these first 2 systems concerned the volume of the microdrops and the kind of paraffin oil used. In the first system the embryos were cultured in 5mul microdrops covered with light or heavy paraffin oil; in the second system embryos were cultured in 40-mul microdrops under light paraffin oil. The third traditional system involved the incubation of embryos in glass capillaries into separated columns of medium. The percentage of blastocysts obtained from 1-cell embryos cultured in the first incubation system was 6.1% with heavy paraffin oil as the covering layer and 29.0% with light paraffin oil. In the second and third incubation systems blastocyst yield was 30.8 and 59.6%, respectively. The percentage of blastocysts obtained from 2-cell and 4-cell stage embryos with heavy paraffin oil was 18.7 and 25.0%, respectively; with light paraffin oil these figures were 40.0 and 50.0%, respectively. In the second incubation system these figures were 49.3 and 72.3%; and in the third incubation system they were 72.9 and 78.3%, respectively. The results of the experiment showed that culture into glass capillaries is undoubtedly an effecient method of culturing of the zona-free rabbit embryos.     

Development of golden hamster embryos through the two-cell block in chemically defined medium

The effect of increasing the embryo:medium volume ratio on overcoming the hamster two-cell block was examined. Two-cell golden hamster embryos from each superovulated female were cultured in microdrops (estimated at 0.75 microliter) or 100 microliter macrodrops of chemically defined medium (modified Tyrode's solution [TLP] plus glutamine, isoleucine, methionine, phenylalanine, and taurine). In 11 trials (i.e., with embryos from 11 donors), 28.6% of 269 embryos developed to the four-cell stage in microdrops, whereas only 2 (0.7%) embryos developed in the macrodrops. When two microdrops were used to culture the two-cell embryos from each donor (n = 8), 17.8% of 304 embryos developed to four cells. Increasing the embryo:medium volume ratio further by culturing all of the embryos from each donor (n = 10) in single microdrops resulted in 53.1% of 397 embryos developing to four cells. Conditioning of the culture medium by these embryos could not be demonstrated. Increasing the embryo:medium volume ratio may protect against loss of some intracellular component essential for growth of early-stage hamster embryos. Alternatively, increasing this ratio may permit embryos to reduce the concentration of a substance detrimental to their growth. This work represents the first report of cleavage of hamster two-cell embryos in vitro. These findings are a significant step towards our goal of obtaining complete preimplantation developmental of hamster embryos in vitro and may be helpful for solving the in vitro developmental blocks in embryos from other species.     

Interaction between embryos and culture conditions during in vitro development of bovine early embryos

Various factors such as embryo density and substances in the medium can influence embryo development in vitro. These factors and the embryos probably interact with each other, however the interactions are not fully understood. To investigate the interactions, we examined the effects of the number of embryos, drop size, oxygen concentration and glucose and inorganic phosphate in the medium during protein-free culture of bovine IVM/IVF embryos. In Experiment 1, different numbers of embryos were cultured in a 50 microl drop of medium. The frequencies of blastocyst development in the groups with 25, 50 and 100 embryos per drop were higher than in the other groups. One, five and 25 embryos were cultured in different drop sizes (Experiment 2), a 50 microl drop of medium at different O2 concentrations (Experiment 3) and a 50 microl drop of medium excluding glucose and/or inorganic phosphate (Experiment 4). In Experiment 2, the size of the medium drops did not improve blastocyst development. In Experiment 3, the highest frequency of blastocyst development for one, five and 25 embryos per drop was obtained at 1, 2.5 and 5% O2, respectively. In Experiment 4, blastocyst development for one and five embryos per drop were improved in the medium excluded inorganic phosphate. These results indicate that there is a cooperative interaction among embryos during culture and that this interaction may be mediated by reduction of toxic factors in the medium. At low embryo density, reduced oxygen concentration or the exclusion of inorganic phosphate enhanced blastocyst development.     

Amino acid metabolism of preimplantation bovine embryos cultured with bovine serum albumin or polyvinyl alcohol

Bovine serum albumin (BSA) is an embryotrophic macromolecule used in embryo culture media, which is commonly replaced with synthetic compounds, such as polyvinyl alcohol (PVA). This study compared the effect of BSA and PVA on the development, blastocyst cell number and amino acid metabolism of preimplantation bovine embryos in vitro. Embryos were produced by in vitro maturation and fertilization of immature oocytes from abattoir-derived ovaries. Zygotes were cultured in synthetic oviduct fluid with either 4 mg/ml BSA (SOFaaBSA) or 1 mg/ml PVA (SOFaaPVA) in microdrops with a mineral oil overlay at 39 degrees C under a 5% O2/5% CO2/90% N2 atmosphere. Blastocyst rate and cell numbers were determined after 123 h of culture. In parallel, single expanding blastocysts grown in either medium were incubated in microdrops for 12 h. Amino acid profile of spent drops was determined by high performance liquid chromatography. Replacing BSA with PVA depressed blastocyst rate and cell numbers, and led to quantitative and qualitative differences in amino acid appearance, disappearance and turnover. These differences could partly be due to an increase in free intracellular amino acid concentration in SOFaaBSA embryos derived from hydrolysis of endocytosed BSA, and argue against the inclusion of PVA in bovine embryo culture media.     

Quantifying oxygen diffusion in paraffin oil used in oocyte and embryo culture

Oxygen diffusion through oil is important in the culture of oocytes and embryos. A diffusion coefficient two orders of magnitude smaller than that of oxygen in water has been thought possible, and this has led to concerns of anoxia in cultures. Using an assay for determining the oxygen consumption rate of embryos and oocytes, along with a mathematical model, it is here shown that the oxygen diffusion rate in paraffin oil at 37°C is about two-thirds of that in water at the same temperature. Although not previously recognised for the assay in question, the geometry is such that anoxia does occur for a period of time in excess of 1 hr and, by the completion of the assay, 30–40% of the medium is anoxic. Hence the quantity of oxygen consumed is less than would be consumed in conditions of plentiful oxygen supply. Nevertheless, using a model with a concentration dependent oxygen consumption rate, the oxygen consumption rate can be estimated. Mol. Reprod. Dev. 76: 1178–1187, 2009. © 2009 Wiley-Liss, Inc.     

Bovine herpesvirus-1 associated with single, trypsin-treated embryos was not infective for uterine tubal cells

It has been reported that bovine herpesvirus-1 (BHV-1) remains associated with in vitro-produced (IVP) bovine embryos after exposure to the virus and either washing or trypsin treatment. However, it is not known if the quantity of virus associated with an exposed IVP embryo is likely to infect a recipient cow after transfer. The specific objective of this study was to determine if IVP embryos that were exposed to BHV-1 would infect uterine tubal cells (UTC) in a co-culture system. In vitro-produced Day 7 embryos were exposed to BHV-1 and then washed or trypsin treated according to the IETS guidelines. These embryos were then co-cultured individually or in groups with UTC in microdrops of tissue culture medium 199 (TCM 199) supplemented with 10% equine serum. Following co-culture for 48 h, virus isolation was attempted on the embryos and the UTC from each drop. Virus was detected in washed individual embryos, groups of washed embryos, groups of trypsin-treated embryos and the UTC co-cultured with each of these treatments. However, BHV-1 was not detected in the individual, trypsin-treated embryos or the UTC co-cultured with them. It is concluded that trypsin treatment might effectively prevent infection of recipients if individual, Day 7, exposed embryos were transferred into the uterus.     

Somatic embryogenesis and plantlet regeneration in the soybean Glycine max

A tissue culture procedure for the regeneration of somatic embryos and plantlets from somatic cells of the soybean Glycine max is described. Bean pods of soybean cv. TGM119 were immersed in liquid nitrogen for 20 minutes. Young embryos were excised from the immature seeds and cultured to form calli. Calli grown from the young embryos were incubated in liquid culture for two weeks. The liquid suspension culture was filtered to obtain single cells. The soybean cells were cultured for one month in a liquid medium in hanging drop cultures for development into proembryoids. The proembryoids were maintained on a solid growth medium for 40 days. The resultant callus tissue was transferred into MS media containing selected combinations and concentrations of 2,4-Dichlorophenoxyacetic acid, Naphthaleneacetic acid, Kinetin, Benzyladenine and Indoleacetic acid. In the presence of Benzyladenine (0.2 mg/l) and Indoleacetic acid (0.01 mg/l), globular and heart shaped somatic embryos were formed on the surface of the calli. Calli containing somatic embryos were transferred into liquid medium and incubated under low light conditions. After six months further incubation, more than 1,000 plantlets and a large number of somatic embryoids at various developmental stages were obtained per flask.Abbreviations KT kinetin - CM coconut milk - BA benzyladenine - NAA napthalene acetic acid - IAA indole acetic acid - 2,4-D 2,4 dichlorophenoxy acetic acid - MS Murashige and Skoog medium     

Effect of supplementation of different growth factors in embryo culture medium with a small number of bovine embryos on in vitro embryo development and quality

When embryos are cultured individually or in small groups, blastocyst yield efficiency and quality are usually reduced. The aim of this work was to investigate the effect of supplementation of the embryo culture medium (CM) with several growth factors (GFs) on embryo development and apoptosis rate when a reduced number of embryos were in vitro cultured. Two experimental studies (ES) were carried out. In ES 1, five treatments were tested to study the effect of GF on embryo development: Control (∼30 to 50 embryos cultured in 500 μl of CM); Control 5 (Five embryos cultured in 50 μl microdrops of CM), without addition of GF in either of the two control groups; epidermal GF (EGF); IGF-I; and transforming GF-α (TGF-α) (Five embryos were cultured in 50 μl microdrops of CM with 10 ng/ml EGF, 10 ng/ml IGF-I or 10 ng/ml TGF-α, respectively). In ES 2, following the results obtained in ES 1, four different treatments were tested to study their effect on embryo development and quality (number of cells per blastocyst and apoptotic rate): Control; Control 5; EGF, all three similar to ES 1; EGF + IGF-I group (five embryos cultured in 50 μl microdrops of CM with 10 ng/ml EGF and 10 ng/ml IGF-I). In both ESs, it was observed that a higher proportion of embryos cultured in larger groups achieved blastocyst stage than embryos cultured in reduced groups (22.6% v. 14.0%, 12.6% and 5.3% for Control v. Control 5, IGF-I, TGF-α groups in ES 1, and 24.9% v. 17.1% and 19.0% for Control v. Control 5 and EGF in ES 2, respectively; P < 0.05), with the exception of embryos cultured in medium supplemented with EGF (18.5%) or with EGF + IGF-I (23.5%), in ES 1 and ES 2, respectively. With regard to blastocyst quality, embryos cultured in reduced groups and supplemented with EGF, alone or combined with IGF-I, presented lower apoptosis rates than embryos cultured in reduced groups without GF supplementation (11.6% and 10.5% v. 21.9% for EGF, EGF + IGF-I and Control 5 groups, respectively; P < 0.05). The experimental group did not affect the total number of cells per blastocyst. In conclusion, this study showed that supplementation of the CM with EGF and IGF could partially avoid the deleterious effect of in vitro culture of small groups of bovine embryos, increasing blastocyst rates and decreasing apoptosis rates of these blastocysts.     

Differential response of cumulus cell-enclosed and denuded mouse oocytes in a meiotic induction model system

In this study we have examined the effects of denuded oocyte coculture with dissociated cumulus cells (CC) or intact oocyte-CC complexes on meiotic resumption. When denuded oocytes (DO) or cumulus cell-enclosed oocytes (CEO) were cultured in 40-microl drops of medium under oil, and held in meiotic arrest with 4 mM hypoxanthine plus 25 microM dbcAMP, they underwent germinal vesicle breakdown (GVB) at similar frequencies (34%-35%). Coculture of DO with complexes or dissociated CCs stimulated maturation (50% and 61% GVB, respectively), with no effect of DO on maturation of cocultured CEO (32% GVB). This coculture effect was increased with the number of CCs added to the culture drop. When either glucose or glutamine was eliminated from the medium, no meiotic induction resulted from cocultured CCs. When CEO were cultured alone in microdrops, increasing their number from 10 to 50 significantly lowered the percentage resuming maturation, an effect also reduced by removing glucose and/or glutamine from the medium. This effect was not observed with DO. When inhibitory medium was conditioned overnight with complexes, subsequent culture with DO led to higher maturation percentages than culture in unconditioned medium; however, when CEO were cultured in conditioned medium, there was either no effect or increased inhibition of maturation. Assay of glucose and pyruvate in spent medium showed that DO cultured alone consumed glucose and pyruvate, but under CC coculture conditions more glucose was consumed and significant amounts of pyruvate accumulated in the medium, changes that led to an increase in the maturation of DO. Further experiments showed that DO were more sensitive than CEO to the meiosis-inducing effect of pyruvate. These results demonstrate different responsiveness of DO and CEO to coculture conditions and question the physiological relevance of denuded oocyte/CC coculture to study meiotic induction.     

The effect of growth rate on differentiation of chick embryo limb bud mesenchyme in organ culture

Small explants of limb bud mesenchyme of day chick embryos which form muscle in organ culture synthesize proportionally less protein than DNA than do large explants which form cartilage. Chondrogenesis occurred in the central area of greatest population density in reaggregating limb bud cells, myotubes in areas of lesser density and fibroblasts in the sparsely populated periphery. Small explants grown in microdrops in plastic dishes undergo less cell division and form cartilage, but not muscle. Small explants on lens paper undergo more cell division and form muscle, but not cartilage.     

Uptake and distribution of sinigrin in microspore derived embryos of Brassica napus L

In Brassica napus, glucosinolates are transported from all parts of the plant into the embryo during seed development. In this study we describe the uptake of the alkenyl glucosinolate sinigrin by microspore derived embryos from high and low glucosinolate genotypes. Microspore derived embryos develop completely isolated from maternal tissues unlike zygotic embryos, which contains glucosinolates transported into the embryo synthesised in the vegetative tissues. The sinigrin in the culture medium was almost completely absorbed by the embryos after three days of culture. The embryos of high and low glucosinolate genotypes were equally capable of absorbing sinigrin from the medium. A significant increase in different alkenyl glucosinolates following feeding of sinigrin suggests induction of biosynthetic enzymes in the embryos. Following excess feeding of sinigrin, we found a strong uptake against a concentration gradient and stable accumulation by the embryos. The glucosinolate was detected in single dissected cotyledons by a photometric test and by HPLC. This test could potentially be useful for screening mutants defective in glucosinolate uptake into the embryo.     

Oxygen balance for small organisms: an analytical model

An analytical model is developed that describes oxygen transport and oxygen consumption for small biological structures without a circulatory system. Oxygen inside the organism is transported by diffusion alone. Oxygen transfer towards the organism is retarded by a thin static fluid film at the surface of the organism. The thickness of this film models the outward water conditions, which may range from completely stagnant water conditions to so-called well-stirred water conditions. Oxygen consumption is concentration-independent above a specified threshold concentration (regulator behaviour) and is proportional to the oxygen concentration below this threshold (conformer behaviour). The model takes into account shape and size of the organism and predicts the transition from (pure) regulator behaviour to (pure) conformer behaviour, as well as the mean oxygen consumption rate. Thereby the model facilitates a proper analysis of the physical constraints set on shape and size of organisms without an active internal oxygen transport mechanism. This analysis is carried out in some detail for six characteristic shapes (infinite sheet, cylinder and beam; finite cylinder, sphere and block). In a well-stirred external medium, a flattened shape appears to be the most favourable for oxygen supply, while a compact shape (cube) is more favourable if the external medium is nearly stagnant. The theoretical framework is applied to oxygen consumption data of eight teleost embryos. This reveals relative insensitivity to external flow conditions in some species (e.g., winter flounder, herring), while others appear to rely on external stirring for a proper oxygen supply (e.g., largemouth bass). Interestingly, largemouth bass is the only species in our analysis that exhibits ‘fin-fanning’.     

One-step sucrose dilution of frozen-thawed sheep embryos

Sheep embryos of the late morula to early blastocyst stage were frozen, thawed and cultured to test several sucrose solutions for post-thaw dilution of the cryoprotective agent glycerol. Ewes of mixed breeding were superovulated and embryos were flushed from the uterus either surgically or at slaughter 5 d after estrus. Fifty-eight embryos were pooled in microdrops of modified Dulbecco's phosphate buffered saline (MDPBS) then randomly divided into four treatments. A 2 x 2 factorial design was used to compare 0.25 M sucrose in MDPBS as an in-straw cryoprotectant dilution with a standard step-wise dilution procedure within standard fast and slow freeze-thaw systems. After storage in liquid nitrogen for 6 to 8 d, the embryos were thawed and the cryoprotectant (1.4 M glycerol) removed before culture in microdrops of modified synthetic oviduct fluid under paraffin oil in water-saturated 5% CO(2) in air atmosphere at 37 C. No significant interaction was found between the freeze-thaw procedure and cryoprotectant + dilution procedures. Embryos in the fast freeze-thaw procedure had a mean development score of 1.3 +/- 0.3 and those in the slow freeze-thaw procedure had a mean score of 1.2 +/- 0.3. The mean development score 2.0 +/- 0.3 for the standard dilution procedure was superior (P<0.001) to the score of 0.6 +/- 0.2 for the 0.25 M sucrose dilution procedure. In a separate trial, 18 sheep morulae were collected and equilibrated with 1.4 M glycerol in MDPBS. A standard fast freeze-thaw procedure was used and, after 18 d of storage at -196 C, the glycerol was diluted from the embryo with 1.0 M sucrose. Culture was conducted in a similar manner and a mean development score of 1.0 +/- 0.3 was obtained. These results indicate standard cryoprotectant dilution procedures for sheep embryos are superior to dilution with 0.25 M sucrose. In a limited study, dilution with 1.0 M sucrose was also not as effective as standard dilution procedures.     

Inhibiteurs non acides et dormance embryonnaire chez Taxus baccata

Non-acidic inhibitors and embryo dormancy in Taxus baccata L. Embryo dormancy of Taxus baccata is eliminated when the embryos are continuously kept in sterile nutritive liquid medium. After 3 weeks of culture, an important non-acidic inhibitory complex can be extracted from this liquid medium. At least three substances are involved: two pigments and a compound with some properties that suggest xanthoxin. These substances are neither found in embryos taken directly from the seeds, nor in liquid medium after 8 days of culture, which is the time necessary and sufficient to allow germination after transfer on agar medium. Such behaviour is quite different from that of ABA previously studied and indicates that these non-acidic inhibitors appear late during the culture and are not directly involved in embryo dormancy.     

Increase of callus and embryoid production from hypocotyl protoplasts of sunflower (Helianthus annuus L.) by culture in microdrops

Hypocotyls of seedling plants of the sunflower inbred line HNK-81 were used as a source of protoplasts. Optimal conditions of isolation and culture of protoplasts were established. Using the method of individual culture in microdrops, a 77% final plating efficiency was achieved. Cytokinins, especially zeatin, showed a significant influence on the formation of globular embryo-like structures, but these failed to develop into mature embryos. Calli obtained in liquid media containing auxins and cytokinins grew on agar solidified media without growth regulators. Communicated by M. ONDŘEJ     

A novel microtube culture system that enhances the in vitro development of parthenogenetic murine embryos

Oil is an indispensable material in micro-droplet culture; it prevents medium from evaporation, and its transparency facilitates monitoring. However, lipophilic factors in the medium can be absorbed into the oil overlay, and conversely, deleterious materials can diffuse into the medium. In the present study, we describe a novel oil-free microtube culture (MTC) system. Parthenogenetic mouse embryos were placed into 0.2-mL thin-wall flat cap PCR tubes and cultured to the blastocyst stage. Conventional drop culture was used as a control. Embryos in MTC had a higher blastocyst formation rate (89.2%) and larger population of cells in the blastocysts (92.0+/-6.9; mean+/-S.E.M.) compared with drop culture (78.3% and 74.7+/-8.1; P<0.05 for each). The large blastocyst cell population in MTC was due to higher numbers of trophectoderm (TE) cells (70.5+/-5.9 versus 53.8+/-7.4; P<0.05) rather than inner cell mass cells. The presence of more TE cells was attributed to faster development in MTC. Embryos cultured in oil-covered MTC had fewer TE cells (61.5+/-5.6) than oil-free cultures (70.5+/-5.9; P<0.05). In conclusion, oil-free MTC was an alternative to conventional micro-drops, without the deleterious effects of oil.     

Culture of bovine embryos to the blastocyst stage using Buffalo rat liver (BRL) cells

A comparison was made between the development of in vitro matured and fertilized bovine oocytes in co-culture with bovine oviduct epithelial (BOE) cells or with Buffalo rat liver (BRL) cells. Both cell types supported development from the 1-cell to the blastocyst stage with equal efficiencies (4.4% for BRL cells, 4.0% for BOE cells). Medium conditioned by either cell type supported development to the blastocyst stage as efficiently as co-cultures (6.4 and 7.3% blastocysts for BOE and BRL conditioned medium, respectively). A higher percentage of blastocyst development was found when embryos were cultured closely apposed in small drops of BRL-conditioned medium compared with larger volumes (20.5 versus 7.0%). The ability of BRL-conditioned medium to support embryonic development was dependent on the duration of the conditioning period (optimum 24 to 48 h), and was not lost when the medium was stored at -20 degrees C for extended periods. The effects were independent of the conditions used to promote maturation in vitro and the procedure for fertilization. With 2 different methods to produce embryos in culture, both the BRL cell co-culture and BRL-conditioned medium in microdrops supported embryo development to the blastocyst stage. The use of the BRL cell line reduces the variability associated with primary BOE cell cultures.     

Oxidative phosphorylation-dependent and -independent oxygen consumption by individual preimplantation mouse embryos

The self-referencing electrode technique was employed to noninvasively measure gradients of dissolved oxygen in the medium immediately surrounding developing mouse embryos and, thereby, characterized changes in oxygen consumption and utilization during development. A gradient of depleted oxygen surrounded each embryo and could be detected >50 microm from the embryo. Blastocysts depleted the surrounding medium of 0.6+/-0.1 microM of oxygen, whereas early cleavage stage embryos depleted the medium of only 0.3+/-0.1 microM of oxygen, suggesting a twofold increase in oxygen consumption at the blastocyst stage. Mitochondrial oxidative phosphorylation (OXPHOS) accounted for 60-70% of the oxygen consumed by blastocysts, while it accounted for only 30% of the total oxygen consumed by cleavage-stage embryos. The amount of oxygen consumed by non-OXPHOS mechanisms remained relatively constant throughout preimplantation development. By contrast, the amount of oxygen consumed by OXPHOS in blastocysts is greater than that consumed by OXPHOS in cleavage-stage embryos. The amount of oxygen consumed by one-cell embryos was modulated by the absence of pyruvate from the culture medium. Treatment of one-cell embryos and blastocysts with diamide, an agent known to induce cell death in embryos, resulted in a decline in oxygen consumption, such that the medium surrounding dying embryos was not as depleted of oxygen as that surrounding untreated control embryos. Together these results validate the self-referencing electrode technique for analyzing oxygen consumption and utilization by preimplantation embryos and demonstrate that changes in oxygen consumption accompany important physiological events, such as development, response to medium metabolites, or cell death.     

Relationship Between Downward Oxygen Transport and Intercellular Spaces in Root Cortex in Water Cultured and Moist Cultured Seedlings

In the present investigation, seedlings of rice, pea, sorghum, and maize are raised both in water culture and moist culture. The former culture is to provide the roots with an oxygen deficient condition; while the latter, a direct access to air. The amount of oxygen transported downwards in the seedlings varies not only with the nature of plants but also with the way how they are raised: More oxygen is transported downwards in marsh plant (rice) than in land plants (pea, sorghum, maize); and, in case the same plant is concerned, more in water cultured seedlings than in moist cultured ones. Downward oxygen transport in the various seedlings is intimately correlated with the relative volume of the intercellular spaces in the root: the more the downward transport, the larger the air spaces in the cortex. The fractional volume of the intercellular spaces in a small plant segment can be conveniently estimated by determining the specific gravities of the fresh turgescent segment before and after it is filled with water by vaccum infiltration. The difference between the two consecutive measurements in specific gravity times 100 gives directly the percentage of the volume occupied by air spaces. When large root segments are used, the relative volume can also be determined by weighing before and after vaccum infiltration. To test whether oxygen diffusion in the intercellular spaces of roots could actually account for its downward transport, a model is built of capillary tubings with dimensions and oxygen pressure gradients similar to those found in roots. The amount of oxygen diffused in such a model is measured with a respiratory hydrometer (see Fig. 1) and fits closely that measured in roots. By comparing the amount of oxygen transported downwards in a seedling with that consumed by its excised roots in air, it can be shown that, in case of rice, it could meet (and at times may even exceed) 100% of that consumed by roots in water cultured seedlings, but is less in moist cultured ones. In land plants (pea, sorghum, and maize), however, the downward oxygen supply is far below its requirement, being 80%–100% in water cultured seedlings and 30%–60% in moist cultured ones. The above results, together with those obtained in previous communications, support the view that adaptation of a plant to flooded condition is primarily achieved by its capacity of providing adequate intercellular spaces for downward oxygen diffusion. The capacity depends not only upon the phylogeny of the plant concerned but also upon its ontogenic development.     

Secretion of stem cell factor and granulocyte-macrophage colony-stimulating factor by mouse embryos in culture: influence of group culture

Previous studies showed that the addition of a growth factor to the culture medium could modulate embryo development. The possible secretion of different factors to the culture medium by the embryo itself, however, has been poorly evaluated. The present study was designed to investigate: (1) the influence of single or group culture on the development of 2-cell mouse embryos (strain CD-1) to the blastocyst stage; (2) the release of granulocyte-macrophage colony-stimulating factor (GM-CSF) and stem cell factor (SCF) into the culture medium by the embryo; and (3) the levels of GM-CSF and SCF in the culture medium from both single and group embryos. Two-cell CD-1 mouse embryos were cultured for 96 h singly or in groups of five embryos per drop. GM-CSF and SCF were assayed by ELISA in the complete culture medium. It was found that embryos cultured in groups gave a higher percentage of total blastocyst formation and hatched blastocyst when compared with single embryo culture. The mouse embryos secreted GM-CSF and SCF to the culture medium. The concentration of these cytokines is significantly higher in the group cultures than the level found in single cultures. In conclusion, mouse embryos in culture secrete GM-CSF and SCF to the culture medium and the concentration of these cytokines increases during communal culture. These factors may be operating in both autocrine and paracrine pathways to modulate embryo development during in vitro culture.