Investigating the relative importance of parentage versus environmental factors on heterochrony in basommatophoran freshwater snails

The importance of genetics in inter-specific heterochrony is long known; however, intra-specific heterochrony was believed to be driven by environmental variation. Recent studies on Radix balthica showed higher similarity in developmental timing across generations in genetically similar embryos than in distantly related individuals. In the present study, the relative importance of parentage and egg-mass origin is compared with the environmental importance in generating the heterochrony in Radix balthica. Six developmental events were recorded daily. The analysis of the variations showed that parentage influencing variation in developmental timing to be more important than environmental conditions. Only hatching was affected by the environment as well as parentage. When comparing the sequence of developmental events, a strong link was found between treatments showing sequence variation and nil mortality in the same treatment. This was found between parents and between egg-masses from a single parent. This study shows that timing of developmental events is influenced by parentage whereas the sequence of developmental events is influenced by treatment. These findings indicate that both genetics and environmental plasticity influences intra-specific heterochrony but in different ways

La vitrification en une seule étape d’embryons murins définit de nouveaux standards de cryopréservation

La cryopréservation d’embryons est un des outils les plus efficaces, économiques et utiles au niveau éthique pour préserver indéfiniment la génétique des animaux de laboratoire. Les bénéfices liés à son utilisation sont nombreux, et incluent la réduction des coûts associés à la pérennisation de lignées, la limitation de l’apparition et de la dissémination de mutations non voulues, la facilité et la sécurité pour les transferts internationaux, et la réduction du nombre d’animaux à élever en captivité. La vitrification a été démontrée comme étant plus efficace que la congélation lente en procréation médicalement assistée humaine, où elle constitue maintenant la méthode de référence. Il en va de même pour la cryopréservation des embryons de souris, où la vitrification préserve mieux l’intégrité de la chromatine, réduit la pénétration intracytoplasmique d’agents cryoprotecteurs potentiellement toxiques, et in fine permet une meilleure survie et un meilleur développement après réchauffement que la congélation lente. Cependant, pour être efficaces, les méthodes actuelles de vitrification nécessitent plusieurs étapes d’exposition des embryons à des solutions spécifiques avant le refroidissement, mais aussi au cours de leur réchauffement ultérieur. Cette relative complexité peut s’avérer difficile à gérer de manière optimale quand un grand nombre d’embryons doivent être traités au cours d’une même session. Nous avons développé et breveté une technologie de vitrification d’embryons en une étape (« one-step ») qui est aussi efficace que les meilleures méthodes de vitrification multi-étapes. De plus, nos milieux sont chimiquement définis (sans sérum ou autre composant biologique non défini), et des supports permettant la vitrification aseptique peuvent être utilisés sans perte de rendement. Notre technologie de vitrification one-step d’embryons de rongeurs répond ainsi aux problèmes d’ergonomie liés aux méthodes classiques de vitrification, et fournit ainsi aux scientifiques une solution efficace, biologiquement sûre et facile à utiliser pour la cryopréservation d’embryons de rongeurs. Elle rend ainsi l’efficacité de la vitrification plus aisément applicable aux rongeurs de laboratoire, contribuant ainsi à la réduction du nombre d’animaux nécessaires à la pérennisation et à la diffusion de lignées ou de colonies utiles.Vitricell: développement et valorisation de kits de vitrification de cellules en conditions aseptiques et chimiquement définie

The effect of substrate on water quality in ornamental fish tanks

SIMPLE SUMMARY: Fish kept as pets are almost always held in tanks with substrate such as gravel or sand on the bottom of the tank. This may be added as a form of enrichment to encourage natural fish behaviours, or for aesthetic reasons. However, substrate can also harbour elevated levels of waste products and unwanted bacteria; therefore, whether the use of substrate in home aquaria is advantageous or disadvantageous has not been fully considered. Here, we investigated whether there was a difference in water quality in home aquaria that contained either no substrate (bare tanks), plastic plants as enrichment but no substrate, sand or gravel substrate. Water quality (e.g., temperature, oxygen, pH and ammonia) and the presence of bacteria were measured over a 7-week period. As water quality can also vary with the season, the study was repeated at different times of the year. Addition of both gravel and sand substrate resulted in increased pH and the waste products ammonia and nitrate. Substrate was also associated with a greater presence of bacteria. In conclusion, the use of substrate affected water quality, with further research needed on the use of substrate in home aquaria. ABSTRACT: Almost all home aquaria contain substrate, either as intentional enrichment or for aesthetic purposes. For fishes, benefits of structural enrichment have been well considered, particularly in research and aquaculture settings. However, our understanding of the impacts of tank substrate as enrichment is limited. While substrate can induce foraging in some species, a major drawback is the potential of substrate to harbour elevated levels of waste and pathogenic bacteria. Here, we considered whether substrate as a form of environmental enrichment significantly altered water quality and bacterial presence in home aquaria. Water quality (temperature, oxygen, pH, TAN, unionised ammonia, nitrate, Ca(2+), Na(+), Mg(2+) and K(+)) and bacterial presence (Pseudomonas spp.) were measured over two seven-week periods in stand-alone, tropical, freshwater tanks that simulated home aquaria. The following four enrichment conditions were considered: bare tanks, plastic plants, gravel substrate or sand substrate. The addition of both gravel and sand resulted in increased pH, concentrations of total ammonia nitrogen and nitrate. Substrate was also associated with a greater Pseudomonas presence. Decreased pH alongside an increased concentration of ions were also observed depending on the time of year. In conclusion, enrichment type affected the water quality of home aquaria, with further research needed on the role of the tank biome in fish welfare

Ultra-Rapid Warming Yields High Survival of Mouse Oocytes Cooled to −196°C in Dilutions of a Standard Vitrification Solution

Intracellular ice is generally lethal. One way to avoid it is to vitrify cells; that is, to convert cell water to a glass rather than to ice. The belief has been that this requires both the cooling rate and the concentration of glass-inducing solutes be very high. But high solute concentrations can themselves be damaging. However, the findings we report here on the vitrification of mouse oocytes are not in accord with the first belief that cooling needs to be extremely rapid. The important requirement is that the warming rate be extremely high. We subjected mouse oocytes in the vitrification solution EAFS 10/10 to vitrification procedures using a broad range of cooling and warming rates. Morphological survivals exceeded 80% when they were warmed at the highest rate (117,000°C/min) even when the prior cooling rate was as low as 880°C/min. Functional survival was >81% and 54% with the highest warming rate after cooling at 69,000 and 880°C/min, respectively. Our findings are also contrary to the second belief. We show that a high percentage of mouse oocytes survive vitrification in media that contain only half the usual concentration of solutes, provided they are warmed extremely rapidly; that is, >100,000°C/min. Again, the cooling rate is of less consequence

Motile sperm organelle morphology examination (MSOME): intervariation study of normal sperm and sperm with large nuclear vacuoles

<p>Abstract</p> <p>Background</p> <p>Although the motile sperm organelle morphology examination (MSOME) was developed only as a selection criterion, its application as a method for classifying sperm morphology may represent an improvement in evaluation of semen quality, with potential clinical repercussions. The present study aimed to evaluate individual variations in the motile sperm organelle morphology examination (MSOME) analysis after a time interval.</p> <p>Methods</p> <p>Two semen samples were obtained from 240 men from an unselected group of couples undergoing infertility investigation and treatment. Mean time interval between the two semen evaluations was 119 +/- 102 days. No clinical or surgical treatment was realized between the two observations. Spermatozoa were analyzed at greater than or equal to 8400× magnification by inverted microscope equipped with DIC/Nomarski differential interference contrast optics. At least 200 motile spermatozoa per semen sample were evaluated and percentages of normal spermatozoa and spermatozoa with large nuclear vacuoles (LNV/one or more vacuoles occupying >50% of the sperm nuclear area) were determined. A spermatozoon was classified as morphologically normal when it exhibited a normal nucleus (smooth, symmetric and oval nucleus, width 3.28 +/- 0.20 μm, length 4.75 +/- 0.20 μm/absence of vacuoles occupying >4% of nuclear area) as well as acrosome, post-acrosomal lamina, neck and tail, besides not presenting cytoplasm around the head. One examiner, blinded to subject identity, performed the entire study.</p> <p>Results</p> <p>Mean percentages of morphologically normal and LNV spermatozoa were identical in the two MSOME analyses (1.6 +/- 2.2% vs. 1.6 +/- 2.1% <it>P </it>= 0.83 and 25.2 +/- 19.2% vs. 26.1 +/- 19.0% <it>P </it>= 0.31, respectively). Regression analysis between the two samples revealed significant positive correlation for morphologically normal and for LNV spermatozoa (r = 0.57 95% CI:0.47-0.65 <it>P </it>< 0.0001 and r = 0.50 95% CI:0.38-0.58 <it>P </it>< 0.0001, respectively).</p> <p>Conclusions</p> <p>The significant positive correlation and absence of differences between two sperm samples evaluated after a time interval with respect to normal morphology and LNV spermatozoa indicated that MSOME seems reliable (at least for these two specific sperm forms) for analyzing semen. The present result supports the future use of MSOME as a routine method for semen analysis.</p

Efficacy of the motile sperm organelle morphology examination (MSOME) in predicting pregnancy after intrauterine insemination

Background: Although the motile sperm organelle morphology examination (MSOME) was developed merely as a selection criterion, its application as a method for classifying sperm morphology may represent an improvement in the evaluation of semen quality. The aim of this study was to determine the prognostic value of normal sperm morphology using MSOME with regard to clinical pregnancy (CP) after intrauterine insemination (IUI).Methods: A total of 156 IUI cycles that were performed in 111 couples were prospectively analysed. Each subject received 75 IU of recombinant FSH every second day from the third day of the cycle. Beginning on the 10th day of the cycle, follicular development was monitored by vaginal ultrasound. When one or two follicles measuring at least 17 mm were observed, recombinant hCG was administered, and IUI was performed 12-14 h and 36-40 h after hCG treatment. Prior to the IUI procedure, sperm samples were analysed by MSOME at 8400x magnification using an inverted microscope that was equipped with DIC/Nomarski differential interference contrast optics. A minimum of 200 motile spermatozoa per semen sample were evaluated, and the percentage of normal spermatozoa in each sample was determined.Results: Pregnancy occurred in 34 IUI cycles (CP rate per cycle: 21.8%, per patient: 30.6%). Based on the MSOME criteria, a significantly higher percentage of normal spermatozoa was found in the group of men in which the IUI cycles resulted in pregnancy (2.6+/-3.1%) compared to the group that did not achieve pregnancy (1.2+/-1.7%; P = 0.019). Logistic regression showed that the percentage of normal cells in the MSOME was a determining factor for the likelihood of clinical pregnancy (OR: 1.28; 95% CI: 1.08 to 1.51; P = 0.003). The ROC curve revealed an area under the curve of 0.63 and an optimum cut-off point of 2% of normal sperm morphology. At this cut-off threshold, using the percentage of normal sperm morphology by MSOME to predict pregnancy was 50% sensitive with a 40% positive predictive value and 79% specificity with an 85% negative predictive value. The efficacy of using the percentage of normal sperm morphology by MSOME in predicting pregnancy was 65%.Conclusions: The present findings support the use of high-magnification microscopy both for selecting spermatozoa and as a routine method for analysing semen before performing IUI