ESS gene expression of X-linked imprinted genes subject to sexual selection

We define ESS (Evolutionary Stable Strategy) conditions for the evolution of genomic imprinting at an X-linked locus. The system analysed is designed for mammalian imprinting in which X-linked genes typically undergo random X-inactivation and lack Y-linked homologues. We consider two models that map cellular gene expression to fitness in females subject to random X-inactivation. In the first model, female fitness is simply a function of the average gene expression across all cells. In the second model, each cell contributes independently to fitness, and female fitness is assessed as the average of these contributions across all cells. In both models, imprinting readily evolves when sexual selection favours different levels of gene expression in the two sexes. Imprinting is beneficial as it improves adaptation in both sexes. There are limits to the improvement in adaptation when sexual selection is strong and favours greater gene expression in males (the heterogametic sex). We also consider the consequences of an active Y-linked homologue on the evolution of imprinting. Our analysis suggests that restrictive conditions apply for the evolution of polymorphic ESSs at an X-linked imprinted loci.     

Rapid detection of male-specific DNA sequence in bovine embryos using fluorescence in situ Hybridization

An accurate, reliable, and quick (less than an hour) method for determining the sex of bovine embryos was developed using a fluorescence in situ hybridization (FISH), with a probe designed from a bovine Y chromosome specific DNA (BC1.2). First, to improve a protocol of FISH and evaluate an accuracy of the method, lymphocyte nuclei prepared from three bulls, two cows, and one freemartin were tested. We found that 5 min was enough for hybridization. The washing solution adequate for posthybridization was 0.5× SSC at 72°C for 5 min. The whole procedure for FISH can be accomplished in less than an hour. A male-specific signal was detected, on average, as 97, 0.5, and 83%, respectively, of lymphocytes in males, females, and a freemartin. Using the rapid FISH protocol developed, 28 embryos were divided. According to the presence of the digoxigenin signal, 16 embryos (57.1%) were predicted as male, and 12 embryos (42.9%), predicted as female. Mol. Reprod. Dev. 51:390–394, 1998. © 1998 Wiley-Liss, Inc.     

Sex determination of prehistoric central California skeletal remains using discriminant analysis of the femur and humerus

A large sample (n = 370) of Central California prehistoric skeletal remains was analyzed for sexual dimorphism of long bones using nine femoral and nine humeral dimensions. Sex of all individuals was assessed using traits of the os pubis. Discriminant analysis was done separately for the robust Early Horizon sample and the Middle/Late Horizon sample. Use of multiple variables did not produce appreciably better results over the use of several of the best variables, analyzed singly. Attention is focused on measurements of maximum diameter femoral head, femoral bicondylar width, and diameter of the humeral head (transverse or vertical). These variables produce excellent separation of the sexes with about 90% accuracy for the Middle/Late Horizon sample. They have been overlooked in the recent literature in which the relative values of length versus midshaft dimensions are debated. The measurements found to be superior in this study are taken at the ends of the bones where durability of these regions is indicated by large sample sizes found in this study. We suggest workers redirect their focus from the midshaft to the ends of the long bones. The discriminant analyses presented here have greater accuracy than most claims for either long bone or cranial sex determination. These standards, based on two samples with differing robusticity, may have applicability for workers in other areas who lack large skeletal samples.     

Sexing and detection of gene construct in microinjected bovine blastocysts using the polymerase chain reaction

We present a polymerase chain reaction (PCR)-based procedure for rapid bovine embryo sexing and classifying embryos for the presence of exogenous DNA. Fourteen bovine blastocysts microinjected with gene construct DNA at the pronuclear stage were divided into quarters and subjected to amplification with construct-specific and sex gene-specific (ZFY/ZFX) primers in the same initial PCR reaction. Blastocysts carrying microinjected construct DNA could be identified by the presence of construct-specific PCR product in approximately 4 h. Approximately half of the microinjected and two of 16 non-microinjected blastocysts typed PCR-positive for the construct DNA. Owing to erroneous amplifications in the two non-microinjected control blastocysts, and the inability of the system to distinguish integrated from non-integrated copies of the microinjected construct, the number of construct-positive blastocysts determined in our assay most likely overestimates the number of true transgenic embryos. Nevertheless, using this assay, we were able to determine that approximately half of the microinjected embryos were negative for the transgene construct and thus could be eliminated from transfer to a recipient cow. Embryo sexing was achieved in less than 6 h by restriction fragment length polymorphism analysis of nestedZFY/ZFXPCR products reamplified from initial PCR reactions. In 11/14 microinjected blastocysts all sections assayed unambiguously as the same sex. In one embryo, only one section was analysed, while two other blastocysts whowed some discrepancies of sexing results between the sections analysed. The approach employed here to determine the sex and presence of microinjected construct DNA in bovine preimplantation embryos is rapid, accurate among different sections of an embryo and can be used to increase the efficiency of current transgenic cattle production procedures.     

The expression pattern of a mouse doublesex-related gene is consistent with a role in gonadal differentiation

The signal for somatic sex determination in mammals, Caenorhabditis elegans and Drosophila melanogaster is chromosomal, but the overall mechanisms do not appear to be conserved between the phyla. However it has been found quite recently that the C. elegans sex-determining gene Mab-3 contains a domain highly homologous to the Drosophila sex-determining gene doublesex (dsx) and shares a similar role. These data suggest that at least some aspects of the regulation of sex determination might be conserved. In humans, a doublesex-related gene (DMRT1) was identified at less than 30 kb from the critical region for sex reversal on chromosome 9p24 (TD9). In order to get insights into the role of DMRT1 in sex determination/differentiation, we have isolated DMRT1 mouse homologue (Dmrt1) and analysed its expression pattern. The gene is expressed in the genital ridges of both sexes during the sex-determining switch and it shows male/female dimorphism at late stages of sex differentiation.     

Trichostatin A-treated eight-cell bovine embryos had increased histone acetylation and gene expression, with increased cell numbers at the blastocyst stage

The objective was to determine the effects of trichostatin A (TSA), a potent histone deacetylase inhibitor, on eight-cell bovine embryos. That treatment increased histone acetylation was confirmed by immunostaining with anti-AcH4K5 and AcH4K8 antibodies. Embryos treated with TSA (100 nM) for various intervals (4, 8, and 12 h) developed to the blastocyst stage as frequently as untreated embryos (average development rate, 49.5%). Treatment with TSA for 12 h increased (P < 0.05) the numbers of inner cell mass (ICM) cells and total cells (TC), as well as the ICM/TC ratio in the blastocyst, but the number of cells in the trophectoderm decreased (P < 0.05). Treated embryos had increased relative abundance (RA) of OCT3/4 and E-CADHERIN mRNA relative to controls at the morula stage (P < 0.05), however, the RA of CDX2 mRNA was unchanged. In conclusion, TSA-treated eight-cell stage embryos had increased histone acetylation and gene expression, which increased ICM and TC numbers and the ICM/TC ratio, but significantly decreased the number of cells in the trophectoderm of resulting blastocysts.     

Global gene expression response to telomerase in bovine adrenocortical cells

The infinite proliferative capability of most immortalized cells is dependent upon the presence of the enzyme telomerase and its ability to maintain telomere length and structure. However, telomerase may be involved in a greater system than telomere length regulation, as recent evidence has shown it capable of increasing wound healing in vivo, and improving cellular proliferation rate and survival from apoptosis in vitro. Here, we describe the global gene expression response to ectopic telomerase expression in an in vitro bovine adrenocortical cell model. Telomerase-immortalized cells showed an increased ability for proliferation and survival in minimal essential medium above cells transgenic for GFP. cDNA microarray analyses revealed an altered cell state indicative of increased adrenocortical cell proliferation regulated by the IGF2 pathway and alterations in members of the TGF-B family. As well, we identified alterations in genes associated with development and wound healing that support a model that high telomerase expression induces a highly adaptable, progenitor-like state.     

Daily supplementation with ghrelin improves in vitro bovine blastocysts formation rate and alters gene expression related to embryo quality

Ghrelin is a gastric peptide having regulatory role in the reproductive system functionality, acting mainly at central level. Because the expression of ghrelin system (ghrelin and its receptor) has been detected in the bovine ovary, the objectives of the present study were to investigate whether ghrelin can affect the developmental potential of in vitro-produced embryos, and to test their quality in terms of relative abundance of various genes related to metabolism, apoptosis and oxidation. In the first experiment, in vitro-produced zygotes were cultured in the absence (control [C]) and in the presence of three concentrations of acylated ghrelin (200 pg/mL [Ghr200], 800 pg/mL [Ghr800]; and 2000 pg/mL [Ghr2000]); blastocyst formation rates were examined on Days 7, 8, and 9. In the second experiment, only the 800 pg/mL dose of ghrelin was used. Zygotes were produced as in experiment 1 and 24 hours post insemination they were divided into 4 groups; in two groups (C; without ghrelin; Ghr800 with ghrelin), embryos were cultured without medium replacement; in the remaining two groups (Control N and GhrN), the culture medium was daily renewed. A pool of Day-7 blastocysts were snap frozen for relative mRNA abundance of various genes related to metabolism, oxidation, implantation, and apoptosis. In experiment 3, embryos were produced as in experiment 2, but in the absence of serum (semi-defined culture medium). In experiment 1, no differences were detected between C, Ghr200, and Ghr2000, although fewer blastocysts were produced in group Ghr800 compared with C. In experiment 2, the lowest blastocysts yield was found in Ghr800, whereas daily renewal of ghrelin (Ghr800N) resulted to increased blastocysts formation rate, which on Day 7 was the highest among groups (P < 0.05). In experiment 3, ghrelin significantly suppressed blastocysts yield. Significant differences were detected in various relative mRNA abundance, giving an overall final notion that embryos produced in the presence of ghrelin were of better quality than controls. Our results imply a specific role of ghrelin in early embryonic development; however, the specific mode of its action needs further investigation.     

Single in vitro bovine embryo production: coculture with autologous cumulus cells, developmental competence, embryo quality and gene expression profiles

Studies concerning oocyte quality markers, oocyte/embryo metabolism or commercial OPU settings treating donors with low oocyte yields, indicate a need for optimization of IVP protocols to culture single oocytes to the blastocyst stage. However, culture conditions for single oocyte usually impair development, although previous research showed that single oocyte culture on a monolayer of cumulus cells can lead to similar developmental competence than group oocyte culture. Aiming to develop a fully single IVP procedure, Experiment 1 and 2 revealed that individual maturation, fertilization and culture in 20 μL droplets, using a monolayer of heterologous (SSSm, Exp 1) or autologous cumulus cells in coculture (SSSa, Exp 2), resulted in 23.9% and 15.1% of blastocysts 8 days p.i., respectively, which is significantly less compared to regular group IVP (GGGc, 33.5% (Exp 1) and 26.2% (Exp 2), respectively). In a third Experiment, day 7 p.i. blastocyst quality was analyzed in four treatment groups: regular group IVP (GGGc), group IVP with coculture (GGGm), in group produced zygotes, singly cultured on a heterologous cumulus cell monolayer (GGSm) and individually matured and fertilized zygotes, singly cultured on a monolayer (SSSm). Mean cell number and apoptotic cell index, were similar for all treatment groups. Moreover, mRNA abundance relative to H2AFZ was equal for 9 qualitatively linked genes (TP53, BAX, SHC1 SHC, IGF2R, PTGS2, AKR1B1, PLAC8, SLC2A1, and MNSOD). Only GPX1, involved in detoxification and mtDNA protection to oxidative stress, was significantly downregulated (ANOVA, P < 0.05) in singly produced blastocysts (SSSm), compared to the other treatments. In conclusion, a valuable individual IVP system was established and autologous cumulus cells in coculture showed to partly neutralize hampered individual culture conditions. Additionally, to our knowledge this is the first report in which blastocyst quality, in terms of cell number, apoptosis and gene expression, of singly produced embryos was investigated and shown to be similar to in group produced embryos, implicating that the single IVP system can be applied as a tool in oocyte and embryo quality studies.     

A model describing the effect of sex-reversed YY fish in an established wild population: The use of a Trojan Y chromosome to cause extinction of an introduced exotic species

A novel means of inducing extinction of an exotic fish population is proposed using a genetic approach to shift the ratio of male to females within a population. In the proposed strategy, sex-reversed fish containing two Y chromosomes are introduced into a normal fish population. These YY fish result in the production of a disproportionate number of male fish in subsequent generations. Mathematical modeling of the system following introduction of YY fish at a constant rate reveals that female fish decline in numbers over time, leading to eventual extinction of the population.     

A novel loop-mediated isothermal amplification approach for sex identification of Columbidae birds

Because it is difficult to differentiate male and female Columbidae birds (e.g., Columba livia) on the basis of morphology, detection of DNA fragments associated with Chromobox-Helicase-DNA binding genes or female-specific genes have been widely used. The objective was to establish a loop-mediated isothermal amplification system involving the 18S ribosomal RNA gene and a female-specific gene for sex identification of Columba livia birds. Unlike polymerase chain reaction (PCR), random amplification polymorphic DNA-PCR and amplified fragment length polymorphism-PCR, target DNA was amplified under isothermal conditions (the entire process was completed in <60 min). By modulating various parameters involved in amplification, e.g., concentrations of MgSO₄, betaine, Bst polymerase, and deoxynucleotide triphosphates, as well as the relative ratio of outer/inner primers and temperatures, optimal conditions for both targets were established that had equal detection limits (62.5 ng). To simplify sex determination, direct observations of the presence of white precipitate (derived from magnesium pyrophosphates) were used for positive samples, which was compared with the whitish ring which formed in a negative sample after addition of CuSO₄. This approach was a rapid alternative to electrophoresis or turbidimetry. DNA extracted from the blood and feathers of various birds were tested using loop-mediated isothermal amplification; results were consistent with a standard PCR. Thus, the assay was a simple, accurate, fast, and economical alternative suitable for veterinary practice.     

The expression pattern of a mouse doublesex-related gene is consistent with a role in gonadal differentiation

The signal for somatic sex determination in mammals, Caenorhabditis elegans and Drosophila melanogaster is chromosomal, but the overall mechanisms do not appear to be conserved between the phyla. However it has been found quite recently that the C. elegans sex-determining gene Mab-3 contains a domain highly homologous to the Drosophila sex-determining gene doublesex (dsx) and shares a similar role. These data suggest that at least some aspects of the regulation of sex determination might be conserved. In humans, a doublesex-related gene (DMRT1) was identified at less than 30 kb from the critical region for sex reversal on chromosome 9p24 (TD9). In order to get insights into the role of DMRT1 in sex determination/differentiation, we have isolated DMRT1 mouse homologue (Dmrt1) and analysed its expression pattern. The gene is expressed in the genital ridges of both sexes during the sex-determining switch and it shows male/female dimorphism at late stages of sex differentiation.