Transient expression of GUS and anthocyanin constructs in intact maize immature embryos following electroporation

Electroporation was used for the delivery and subsequent expression of GUS and anthocyanin reporter genes into intact maize immature embryos. The optimal conditions consisted of culturing immature embryos for 4 days on N6 1-100-25-Ag medium prior to electroporation (375 V/cm; 960 µF capacitance) in EPR buffer containing DNA and 0.07 M sodium glutamate at room temperature (22°C) after a 10 min heat shock at 37°C. Under these conditions, over 40 spots of GUS transient activity were observed per immature embryo. Transient gene expression after electroporation was further demonstrated using an anthocyanin construct, which is specific for expression in plant cells.     

Die Temperaturabhängigkeit des Einflusses von Toluylenblau anf die Säurebildung von Streptococcus lactis

Zusammenfassung Es ist der Einfluß der Temperatur auf die Gärung von Streptococcus lactis bei Zusatz von 2,8 mmol Toluylenblau untersucht worden. Die Bildung von Gärungsmilchsäure zeigte Optima bei 28°C, 34°C und 38°C. Unterhalb von 30°C stimmte das Optimum für die Bildung von flüchtigen Säuren (als Essigsäure berechnet) mit dem Optimum für die Milchsäurebildung überein. Oberhalb von 30°C konnten drei Optima für die Bildung von flüchtigen Säuren ermittelt werden, die bei den Temperaturen minderer Milchsäurebildung, d. h. bei 32°C, 36°C und 40°C lagen. Es wird dies als ein Konkurrenzeffekt zwischen der Milchsäurefermentation und der Fermentation von flüchtigen Säuren gedeutet.Oberhalb von 30°C wurde die Milchsäurebildung nur außerhalb der Optimaltemperaturen durch Toluylenblau gehemmt. Die Bildung flüchtiger Säuren ließ sich durch den Farbstoff erst in weiterer Entfernung von dem mittleren Temperaturoptimum (36°C) hemmen. Zwischen 34°C und 38°C war keine Hemmung der Bildung flüchtiger Säuren durch die angewandte Farbstoffkonzentration möglich.

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Temperature dependence of the effect of toluylene blue on the acid formation by Streptococcus lactis

Summary The influence of temperature on the fermentation of Streptococcus lactis in a liquid medium containing 2,8 mmol/l toluylene blue has been investigated. The formation of lactic acid showed optima at 28°, 34°, and 38°C. Below 30°C the optimum for the production of volatile acids corresponded to the optimum of lactic acid production. Above 30°C three optima for the formation of volatile acids could be detected. These optima were located at the temperature of reduced lactic acid production (32°, 36°, 40°C). This has been interpreted as an effect of competition between the fermentations of lactic acid and volatile acids.Beyond 30°C lactic acid fermentation was inhibited by toluylene blue only at temperatures other than the optimum temperatures of 34°C and 38°C. The formation of volatile acids was inhibited by the dye only at a distance from the mean optimum temperature at 36°C. Between 34° and 38°C no inhibition of volatile acid production by the dye, at the concentration used, could be obtained.

     

The effect of quick-freezing in ethylene glycol on morphological survival and in vitro development of mouse embryos frozen at different preimplantation stages

This study was conducted to examine the effect of a quick-freezing protocol on morphological survival and in vitro development of mouse embryos cryopreserved in ethylene glycol (EG) at different preimplantation stages. One-cell embryos were harvested from 6-to 8-wk-old CB6F1 superovulated mice, 20 to 23 h after pairing with males of the same strain and hCG injection. The embryos were cultured in human tubal fluid (HTF) containing 4 mg/ml BSA under mineral oil at 37 degrees C in 5% CO(2) plus 95% room air at maximal humidity. Twenty-four to 96 h after collection, the embryos were removed from culture and frozen at the 2 cell, 4 to 8-cell, compact morula, early blastocyst, expanding blastocyst and expanded blastocyst stages. To perform the quick-freeze procedure, embryos were equilibrated in Dulbecco's phosphate buffered saline (DPBS) + 10 % fetal bovine serum (FBS) + 0.25 M sucrose + 3 M ethylene glycol (freeze medium) for 20 min at room temperature (22 to 26 degrees C) and loaded in a single column of freeze medium into 0.25-ml straws (4 to 5 embryos per straw). The straws were held in liquid nitrogen vapor for 2 min and immersed in liquid nitrogen. Embryos were thawed by gentle agitation in a 37 degrees C water bath for 20 sec and transferred to DPBS + 10 % FBS + 0.5 M sucrose (re-hydration medium) for 10 min at room temperature, rinsed 2 times in HTF plus 4 mg/ml BSA and then cultured for 24 to 96 h. Survival of embryos was based on their general morphological appearance after thawing and their ability to continue development upon subsequent culture in vitro. Survival of blastocysts after thawing also required expansion or reexpansion of the blastocoel after several hours in culture. Significant differences were found in the survival and development of mouse embryos at different developmental stages quick-frozen in ethylene glycol and sucrose: 2-cell embryos 43/84 (51%), 4 to 8-cell embryos 44/94 (47%), morulae and early blastocysts 56/70 (80%; P相似文献   

Respiration of individual honeybee larvae in relation to age and ambient temperature

The CO₂ production of individual larvae of Apis mellifera carnica, which were incubated within their cells at a natural air humidity of 60–80%, was determined by an open-flow gas analyzer in relation to larval age and ambient temperature. In larvae incubated at 34 °C the amount of CO₂ produced appeared to fall only moderately from 3.89±1.57 µl mg^–1 h^–1 in 0.5-day-old larvae to 2.98±0.57 µl mg^–1 h^–1 in 3.5-day-old larvae. The decline was steeper up to an age of 5.5 days (0.95±1.15 µl mg^–1 h^–1). Our measurements show that the respiration and energy turnover of larvae younger than about 80 h is considerably lower (up to 35%) than expected from extrapolations of data determined in older larvae. The temperature dependency of CO₂ production was determined in 3.5-day-old larvae, which were incubated at temperatures varying from 18 to 38 °C in steps of 4 °C. The larvae generated 0.48±0.03 µl mg^–1 h^–1 CO₂ at 18 °C, and 3.97±0.50 µl mg^–1 h^–1 CO₂ at 38 °C. The temperature-dependent respiration rate was fitted to a logistic curve. We found that the inflection point of this curve (32.5 °C) is below the normal brood nest temperature (33–36 °C). The average Q₁₀ was 3.13, which is higher than in freshly emerged resting honeybees but similar to adult bees. This strong temperature dependency enables the bees to speed up brood development by achieving high temperatures. On the other hand, the results suggest that the strong temperature dependency forces the bees to maintain thermal homeostasis of the brood nest to avoid delayed brood development during periods of low temperature.Abbreviations m body mass - R rate of development or respiration - T_I inflexion point of a logistic (sigmoid) curve - T_L lethal temperature - T_O temperature of optimum (maximum) developmentCommunicated by G. Heldmaier     

Effects of interferon and encephalomyocarditis virus on in vitro development of preimplantation mouse embryos with and without the zona pellucida

Development of preimplantation mouse embryos, with or without the zona pellucida, in the presence of interferon (IFN) and mouse encephalomyocarditis (EMC) virus was studied using the in vitro culture method. The embryos (2- to 8-cell stages) were obtained from superovulated mice and cultured in modified Witten's medium under paraffin oil in 5% CO2 in air at 37 degrees C. Removal of the zona pellucida does not affect the subsequent development of the embryos: 90% of embryos with and 87% of embryos without the zona pellucida reached the morula-early blastocyst stages. Mouse IFN (10(4) units/ml) had no inhibitory effect on the developmental ability of the preimplantation embryos with or without the zona pellucida: 88 and 89% of the embryos in each group, respectively, reached the morula-early blastocyst stages. The preimplantation mouse embryos were sensitive to the embryotoxic effect of EMC virus: at a multiplicity of 20 infection particles per embryo the development of 43% of embryos was inhibited. The zona pellucida had no significant protective effect: Its removal changed only slightly the susceptibility of the preimplantation embryos to this virus. Pretreatment of embryos with IFN did not protect them from the embryotoxic effect of EMC virus. This work indicates that preimplantation mouse embryos appear to be resistant for both the antiviral and antiproliferative activities of IFN.     

Variations in response to high temperature treatments in anther culture of Brussels sprouts

The level, time of application and duration of the high temperature treatment necessary for embryo production from Brussels sprouts anther culture were examined. The effects of 29, 32, 35, and 38°C given for 24 h immediately following removal of the anthers from the bud, were tested on different cultivars, on different plants within the cultivars and on different occasions for each plant. Most embryos were produced following 32 and 35°C, very few following 30°C and none following 38°C. Although there was a tendency for some cultivars to respond better to one or other of the two more favourable temperatures, this varied considerably between individual plants. Plant to plant variation was also seen in the overall level of the response, although responsiveness tended to decline with successive samplings of the same plant. Experiments with cultivars Hal and Gower suggested that high temperature was required for at least 12 h after anther removal, but beyond that time the optimum period varied from plant to plant. If the excised anthers were held at 25°C for 16 h or more with Hal or 24 h or more with Gower before being exposed to the high temperature treatment, embrogenesis tended to be reduced. It is suggested that apparent non-responsiveness in anther culture may result to a large extent from the specific conditions that are used during the anther culture process.     

Induction of freezing tolerance in microspore-derived embryos of winter Brassica napus

Freezing tolerance was induced in microspore derived embryos of winter Brassica napus cv. Jet neuf by the addition of ABA or mefluidide to the culture media during embryogenesis. Survival after freezing was estimated by culture of frozen-thawed embryos to plantlets. A higher freezing tolerance (50% survival at –15°C) was induced when 50 M ABA or 3.2 M mefluidide was incorporated initially into the medium during embryogenesis at 25°C followed by culture at 2°C for 3 weeks. When embryos were induced in the absence of ABA or mefluidide and maintained at 2°C for even as long as 12 weeks a lower degree of freezing tolerance (10% survival at –15°C) was obtained. Plants regenerated from embryos hardened maximally by a combination of either ABA or MFD with low temperature did not require further vernalization for flowering.Abbreviations ABA abscisic acid - MFD mefluidide - 2,4-D 2,4-dichlorophenoxyacetic acid - LT₅₀ killing temperature for 50% of the embryos     

Effect of temperature on growth,reproduction and survival of the freshwater planorbid snail,Gyraulus convexiusculus,vector of echinostomiasis

Studies were carried out to investigate the effects of 5°, 10°, 15°, 20°, 25°, 30°, 35°, 40° and 45°C on growth, sexual maturity, reproduction and survival of the freshwater planorbid snail, Gyraulus convexiusculus, vector of echinostomiasis, under laboratory conditions. The growth rate of juvenile and sexually mature snails was at minimum at 15°C and was maximum at 35°C. Sexual maturation time was minimum at 35°C and maximum at 20°C. Fecundity was minimum at 15°C and maximum at 35°C. The minimum average and maximum number of eggs per egg capsule was reached at 35°C and lowest at 15°C. 30°C was the optimum temperature for survival of juvenile snails, while sexually mature snails reached maximum survival time at 20°C.     

Influence of temperature upon growth and sporulation in two species of Phytophthora

The paper deals with the influence of temperature on the growth and sporulation of two species ofPhytophthora, viz.,P. palmivora Butl. andP. parasitica Dast. var.macrospora Ashby, the causal agents of fruit rots ofAchras sapota L. andAnona squamosa L. respectively. Germination of sporangia at different temperatures were also undertaken. There was marked variation in growth and sporulation of these two organisms. Isolate C (Phytophthora palmivora) showed no growth at 5° and 35°C, scanty growth at 10° and 32.5° with an optimum temperature between 26–28°C. On the other hand, Isolate S (Phytophthora parasitica var.macroscora) showed no growth at 10°C, but slight growth even at 37°C. Eight days exposure at 37°C completely stopped the growth of this Isolate. It showed best growth at 30°C and hence this was its optimum temperature. In general, Isolate C sporulated abundantly at all temperatures tested but reached its maximum at 25°C. On the other hand Isolate S showed best growth but failed to sporulate at any of the temperatures in 98 hours growth, although it sporulated freely when the incubation period extended up to two weeks. On the basis of temperature toleration the twoPhytophthora isolates are distinguished from each other as two different species. This confirms the earlier observations and nomenclature criterion as emphasized and formulated byTucker (1931). In the germination studies, it was observed that the indirect germination with the formation of abundant zoospores started from 5° and continued even up to 35°C, reaching maximum at 20°C. High temperature was not favourable for indirect germination. As the temperature proceeded increasing, the percentage of direct germination by formation of germ tubes also increased. Direct germination was observed from 10° which continued up to 37°C, with a maximum reach at 30°C. This confirms the epidemic of fruit rots in nature during monsoon season which is prevalent with the persistence of high humidity and rainfall.Taken from a thesis submitted by the author for the degree of Master of Science in the Faculty of Agriculture, Poona University, India.     

Use of sucrose during removal of cryoprotectants after thawing eight-cell mouse embryos

Eight-cell mouse embryos were frozen in 0.5-ml plastic straws in modified Dulbecco's phosphate buffered saline (PBS) plus 5% steer serum plus either 1.32 M dimethyl sulfoxide (DMSO) or 1.32 M glycerol. Upon thawing, embryos were diluted 1:4 with 0.0, 0.2, 0.6, or 1.0 M sucrose solutions within the straws. Thawing was either in air at ambient temperature or in 8 degrees C or 38 degrees C water. After 48 h of culture, more embryos frozen in DMSO and thawed in 8 degrees C and 37 degrees C water developed to blastocysts (87 and 93%, respectively) than embryos thawed in air (75%; P < 0.05). No significant differences in development were noted among the three thawing regimens when embryos were frozen with glycerol. There was no significant effect of concentration of sucrose during dilution on development of embryos postthaw. With glycerol as the cryoprotectant, damage to zonae pellucidae increased as thawing rates increased, whereas the opposite was observed with DMSO as the cryoprotectant (P < 0.05).     

Effects of paternal heat stress on the in vivo development of preimplantation embryos in the mouse

The objective of this study was to examine the effect of paternal heat stress on the in vivo development of preimplantation embryos in the mouse. Synchronised B6CBF1 female mice were mated either to a control male mouse or to one that had been exposed at 7, 21 or 35 days previously, for 24 h to an ambient temperature of 36+/-0.3 degrees C and 66+/-5.6% relative humidity. Embryos were collected from the oviducts of mice at 14-16 h, 34-39 h or 61-65 h after mating or from the uterus at 85-90 h after mating and their developmental status was evaluated morphologically. The number of cells within blastocysts was also determined using bisbenzimide-propidium iodide staining. Paternal heat stress 7 days before mating reduced the proportion of embryos developing from 4-cell (4-C) to morulae (M), hatched blastocysts, total blastocysts and the number of inner cell mass (ICM) and trophectoderm (TE) cells in the blastocyst. Paternal heat stress 21 days prior to mating reduced the proportion of 2-C and 4-C to M embryos with no embryos developing to blastocysts. There were also increases in the number of 1-C and abnormal embryos recorded at this time. Paternal heat stress 35 days before mating decreased the proportion of 2-C embryos, expanded blastocysts and ICM and TE cells in the blastocyst. These results support previous work demonstrating that both the sperm in the epididymis and germ cells in the testis are susceptible to damage by environmental heat stress, with spermatocytes being the most vulnerable. This study also demonstrates that subtle effects on the male such as a short exposure to elevated environmental temperatures can translate to quite profound paternal impacts on early embryo development.     

Extracellular alkaline protease of newly isolatedRhizopus oryzae

Summary A fungal isolate identified asRhizopus oryzae, produces an extracellular alkaline serine protease. Maximum protease formation was after six days in shake flask culture at two different conditions of pH and temperature optimum (pH 5 at 30°C and pH 10 at 37°C). AgNO₃ and Tween 80 increased protease synthesis. The enzyme is stable between pH 3 and pH 11 and has a temperature optimum of 60°C.     

Role of glucose in mouse preimplantation embryo development

Mouse preimplantation embryos consume pyruvate preferentially during the early developmental stages, before glucose becomes the predominant energy substrate in the blastocyst. To investigate the importance of the switch to glucose utilization at the later developmental stages, mouse embryos from F1 hybrid mice (CBA/Ca × C57BL/6) were cultured from the one-and two-cell stages (22 and 46 h post hCG, respectively) for 5 days in a modified medium, M16, containing 0.33 mM pyruvate and 5 or 23 mM D+L-lactate, in the presence and absence of 1 mM glucose (M16+G and M16-G, respectively). Nutrient uptakes were also determined over this time. Some embryos cultured in M16-G were transferred to M16+G at 94 or 118 h post hCG. Embryos cultured from the two-cell stage in M16+G exhibited the characteristic fall in pyruvate consumption between the morula and the blastocyst stage; those cultured from the two-cell stage in M16-G compensated for the lack of glucose by consuming increasing amounts of pyruvate, from 2.78 pmol/embryo/h at 58 h post hCG to 5.21 pmol/embryo/h at 154 h post hCG. However, the percentage of embryos developing to the blastocyst stage, the hatching rate, and blastocyst cell numbers (50.6 ± 2.5 [28] vs. 105 ± 3.8 [37]) were all lower in this group. When exposed to glucose at 94 or 118 h post hCG, embryos cultured from the two-cell stage in M16-G readily consumed glucose in preference to pyruvate, although the characteristic fall in pyruvate consumption was not observed. One-cell embryos cultured continuously in M16-G were only able to develop to the morula stage, after which time they degenerated. In these embryos pyruvate was readily consumed between 22 and 94 h post hCG, before falling from 2.77 pmol/embryo/h at 83 h post hCG to 0.045 pmol/embryo/h at 130 h post hCG. Transfer of these embryos to M16+G at 94 and 118 h post hCG did not support development to the hatching blastocyst stage. The results show that mouse preimplantation embryos from F1 hybrid mice (CBA/Ca × C57BL/6) need only be exposed to glucose for less than 24 h between 22 and 94 h post hCG in order to develop from the morula to the blastocyst stage in vitro. However, the exposure time needs to be increased to between 24 and 72 h in order that blastocyst cell numbers reach control levels. The importance of glucose before the morula stage may relate to the need to synthesize glycogen for later use. If the obligatory requirement for glucose is fulfilled, embryos are able to utilize pyruvate in the absence of glucose at the later stages of development. These results show that the mouse preimplantation embryo can, to some extent, adapt metabolically to changes in its external environment. © 1995 Wiley-Liss, Inc.     

Short-term storage of rabbit embryos at 4 degrees C

A simple method for storing preimplantation mammalian embryos was tested under conditions which could be easily maintained inside an ordinary refrigerator set at 4 degrees C. No significant loss of viability occurred when rabbit embryos were stored at 4 degrees C for 7 days and either cultured in vitro at 37 degrees C or transferred to recipient does. Significant losses occurred when embryos were stored for 10 days or longer before culture at 37 degrees C (P < .01). Stored embryos transferred to recipients had a significantly longer average gestation period than embryos transferred without cold storage (P < .05).     

Protamine induced intracellular uptake of horseradish peroxidase and vacuolation in mouse skeletal muscle in vitro

Summary The uptake in vitro of horseradish peroxidase (HRP) in mouse skeletal muscle was examined by electron microscopy and chemical determination.In muscles exposed to an HRP solution for 60 min at +37°C, HRP infiltrated the basal lamina of muscle fibres and caused an intense labelling of their sarcolemma. In addition HRP was found within the transverse tubules. Exposure to HRP for 30 min at +37°C followed by HRP together with a polycationic protein (protamine) for 30 min at +37°C caused an intracellular vesicular uptake of HRP. Intracellular HRP was found in numerous vesicles, membrane limited bodies and vacuoles. Protamine also induced focal autophagic vacuolation with progressive muscle fibre degeneration. An intracellular HRP uptake or muscle cell vacuolation could not be detected in the absence of protamine or when the incubation temperature was + 4°C. Chemical determination of HRP uptake was in general agreement with the morphological results. The uptake of HRP in the presence of protamine was stimulated at +31°C and blocked at +4°C.The results suggest that in skeletal muscle in vitro intracellular uptake of macromolecules occurs by endocytosis.     

Altered heat resistance in spores and vegetative cells of a mutant fromBacillus subtilis

The relationship between sporulation temperature and spore killing temperature is described.Bacillus subtilis YB886, grown and sporulated at 25°, 30°, 37°, and 45°C, produced spores having D₉₀ values of 63.5, 76.3, 89.0, and 106 min respectively. In addition, the vegetative cells of this strain also demonstrated resistance to heat killing when grown at elevated temperatures (D₅₀ of 26.6, 32.5, 39.0, and >50 min for cells grown at 25°, 30°, 37°, and 45°C). A transposon-generated mutant of strain YB886, designated as BUL786, which is missing a heat shock-induced protein (97 kDa) (Qoronfleh MW and Streips UN, BBRC, 138:526–532, 1986 and FEMS 1987), was tested for thermotolerance under similar conditions. The cells failed to respond to growth at high temperature by producing heat-resistant spores or vegetative cells. For strain BUL786 the D₉₀ of spores generated at 20°, 25°, 30°, 37°, and 45°C was 9.4, 11.3, 12.8, 14.1, and 20 min, respectively. Similarly, the D₅₀ of vegetative cells was 15, 16.8, 17.8, 19.0, and 22.3 min when the cells were grown at 20°, 25°, 30°, 37°, and 45°C. Also, sporulation of YB886 cells in the presence of cadmium chloride increased the D₉₀ values for the resulting spores (5µM CdCl₂ resulted in a D₉₀ of 160 min). Strain BUL786 failed to produce spores with any elevated D₉₀ when grown in the presence of CdCl₂.     

Assessing the effects of low boron diets on embryonic and fetal development in rodents using in vitro and in vivo model systems

To date, boron (B) essentiality has not been conclusively shown in mammals. This article summarizes the results of a series of in vitro and in vivo experiments designed to investigate the role of B in mammalian reproduction. In the first study, rat dams were fed either a low (0.04 μg B/g) or an adequate (2.00 μg B/g) B diet for 6 wk before breeding and through pregnancy; reproductive outcome was monitored on gestation day 20. Although low dietary B significantly lowered maternal blood, liver, and bone B concentrations, it had no marked effects on fetal growth or development. The goal of the second study was to assess the effects of B on the in vitro development of rat postimplantation embryos. Day 10 embryos collected from dams fed either the low or adequate B diets for at least 12 wk were cultured in serum collected from male rats exposed to one of the two dietary B treatments. Dams fed the low B diet had a significantly reduced number of implantation sites compared to dams fed the B-adequate diet. However, embryonic growth in vitro was not affected by B treatment. The aim of study 3 was to define the limits of boric acid (BA) toxicity on mouse preimplantation development in vitro. Two-cell mouse embryos were cultured in media containing graded levels of BA (from 6 to 10,000 μM). Impaired embryonic differentiation and proliferation were observed only when embryos were exposed to high levels of BA (>2000 μM), reflecting a very low level of toxicity of BA on early mouse embryonic development. Study 4 tested the effects of low (0.04 μg B/g) and adequate (2.00 μg B/g) dietary B on the in vitro development of mouse preimplantation embryos. Two-cell embryos obtained from the dams were cultured in vitro for 72 h. Maternal exposure to the low B diet for 10, 12, and 16 wk was associated with a reduction in blastocyst formation, a reduction in blastocyst cell number, and an increased number of degenerates. Collectively, these studies support the concept that B deficiency impairs early embryonic development in rodents.     

Cold storage of mouse embryos of different stages of development

Experiments were designed to evaluate the survival rates of preimplantation mouse embryos of different stages of development in cold culture at 4 degrees C. Several developmental stages, from one-cell to the blastocyst, were stored at 4 degrees C from 1 to 8 d. Viability following cold culture was determined by blastocyst expansion during culture in Whitten's medium at 37 degrees C. Blastocyst formation of nonstored controls ranged from 93 to 100% for all developmental stages tested. Only 3% of one-cell embryos survived 1 d and none survived 2 days at 4 degrees C. Survival improved using two-cell embryos, with 84, 69 and 15% forming expanded blastocysts following storage for 1, 2 and 3 d, respectively. Eighty five and 38% of eight-cell embryos formed expanded blastocysts following cold storage for 3 and 4 d, respectively. Survival rates for cold stored morulae and blastocysts remained above 75% for 6 d but decreased significantly to 30 and 36%, respectively, when stored for 8 d. A large percentage of blastocysts were observed to collapse when placed in cold storage from 1 to 8 d but almost all expanded when placed in culture at 37 degrees C. This study showed that one-cell embryos were particularly sensitive to cold storage compared to later-stage mouse embryos. Cold storage survival increased with increasing age of the embryo; morula and blastocyst survival rate was similar.     

The antiteratogenic effects of hypo- and hyperthermia in trypan blue-treated chick embryos

Fertile White Leghorn chicken eggs (N = 174) were incubated under optimum conditions until the embryos had reached Hamburger-Hamilton stage 12 (about 48 hr). At that time, 20 μl of 1% trypan blue solution, dissolved in 0.85% NaCl (wt/vol) was injected through the yolk sac into the liquid yolk found just under the embryo. After injection, the eggs were separated into groups and returned to the incubator under control conditions (38°C), or at temperatures lower (35°C) or higher (41°C) than optimum.After an additional 24 hr of incubation, the embryos incubated at 35°C (N = 53) exhibited significantly fewer caudal hematomas (P < 0.02) than did embryos incubated at 38°C (N = 51). Similarly, embryos incubated at 41°C (N = 40) also exhibited significantly fewer caudal hematomas (P < 0.05) than did their corresponding (38°C) controls (N = 30). There was no significant difference between the 35°C group and their controls, or the 38°C group and their controls, in embryonic dry weight, dry weight of the area vasculosa, or crown-rump length. The only other significant difference detected between groups was a very slight but significant (P < 0.0005) decrease in Hamburger-Hamilton stage (0.4 stage unit) between embryos incubated at 35°C and the corresponding controls.Since incubation temperatures either above or below optimum result in a marked reduction in the teratogenic response to trypan blue treatment, we conclude that there exists a temperature optimum for the development of caudal hematomas.