The effects of embryo stage and cell number on the composition of mouse aggregation chimaeras

Studies with intact preimplantation mouse embryos and some types of chimaeric aggregates have shown that the most advanced cells are preferentially allocated to the inner cell mass (ICM) rather than the trophectoderm. Thus, differences between 4-cell and 8-cell stage embryos could contribute to the tendency for tetraploid cells to colonise the trophectoderm more readily than the ICM in 4-cell tetraploid<-->8 cell diploid chimaeras. The aim of the present study was to test whether 4-cell stage embryos in 4-cell diploid<-->8-cell diploid aggregates contributed equally to all lineages present in the E12.5 conceptus. These chimaeras were compared with those produced from standard aggregates of two whole 8-cell embryos and aggregates of half an 8-cell embryo with a whole 8-cell embryo. As expected, the overall contribution of 4-cell embryos was lower than that of 8-cell embryos and similar to that of half 8-cell stage embryos. In the 4-cell<-->8-cell chimaeras the 4-cell stage embryos did not contribute more to the trophectoderm than the ICM derivatives. Thus, differences between 4-cell and 8-cell embryos cannot explain the restricted tissue distribution of tetraploid cells previously reported for 4-cell tetraploid<-->8-cell diploid chimaeras. It is suggested that cells from the more advanced embryo are more likely to contribute to the ICM but, for technical reasons, are prevented from doing so in simple aggregates of equal numbers of whole 4-cell and whole 8-cell stage embryos.     

Influence of chromosomal determinants on development of androgenetic and parthenogenetic cells

We have examined the role of germline-specific chromosomal determinants of development in the mouse. Studies were carried out using aggregation chimaeras between androgenetic----fertilized embryos and compared with similar parthenogenetic----fertilized chimaeras. Several adult chimaeras were found with parthenogenetic cells but none were found with androgenetic cells. Analysis of chimaeras at mid-gestation showed that parthenogenetic cells were detected in the embryo and yolk sac but that androgenetic cells were found only in the trophoblast and yolk sac and not in the embryo. The contribution of parthenogenetic cells to the embryo and yolk sac was increased by aggregating 2-cell parthenogenetic and 4-cell fertilized embryos but the contribution of parthenogenetic cells in extraembryonic tissues remained negligible even after aggregation of 4-cell parthenogenetic and 2-cell fertilized embryos. Furthermore, parthenogenetic cells were primarily found in the yolk sac mesoderm and not in the yolk sac endoderm. These results suggest that maternal chromosomes in parthenogenetic cells permit their participation in the primitive ectoderm lineage but these cells are presumably eliminated by selective pressure or autonomous cell lethality from the primitive endoderm and trophectoderm lineages. Conversely paternal chromosomes in androgenetic cells confer opposite properties since the embryonic cells can be detected in the trophoblast and the yolk sac but not in the embryos, presumably because they are eliminated from the primitive ectoderm lineage. The spatial distribution of cells with different parental chromosomes may occur partly because of differential expression of some genes, such as proto-oncogenes, and partly due to their ability to respond to a variety of diffusible growth factors.     

慢病毒载体介导的绿色荧光蛋白转基因标记法研究猪嵌合体制作

目的:通过建立慢病毒载体感染猪胚胎体系实现胚胎标记,进而研究不同发育阶段猪孤雌胚胎之间的嵌合能力,为进一步研究猪早期胚胎发育以及细胞分化奠定基础.方法:首先,通过显微注射的方法把2×109I.U./ml、2×108I.U./ml和2×107I.U./ml三个梯度的表达绿色荧光的慢病毒载体分别注射到猪1-细胞胚胎和2-细胞胚胎的透明带下,进行胚胎的GFP转基因标记,在荧光显微镜下观察比较卵裂率、阳性胚胎率、囊胚率、阳性囊胚率和囊胚细胞数.然后,采用凹窝聚合法对同步发育胚胎在不同阶段(2-细胞,4-细胞,8-细胞)进行嵌合,2-细胞胚胎与不同发育阶段(2-细胞、4-细胞、8-细胞)胚胎进行嵌合以及2-细胞胚胎卵裂球互换制作嵌合体胚胎,发育到囊胚时在荧光显微镜下检测胚胎的嵌合状态.结果:2×109I.U./ml的慢病毒感染猪2-细胞胚胎组中,体外受精和孤雌胚胎感染阳性率( 80.00％、76.36％)和阳性囊胚率(90.74％、89.56％)都显著高于其它滴度组(P＜0.05),另外,慢病毒感染的两种胚胎与对照组对卵裂率、囊胚率和囊胚细胞数三个指标没有显著影响(P＞0.05).2-细胞胚胎之间嵌合囊胚率和2-细胞卵裂球互换嵌合囊胚率( 53.85％、62.50％)显著高于2-细胞胚胎与4-细胞胚胎的嵌合率(18.60％,P＜0.05),在同步发育胚胎中8-细胞胚胎之间的嵌合率(75.00％)高于4-细胞胚胎之间和2-细胞胚胎之间的嵌合率( 65.00％、53.80％).结论:2×109I.U./ml的慢病毒感染2-细胞期胚胎效率最高,另外,慢病毒感染对猪胚胎发育没有明显影响.8-细胞间的嵌合率比较高;发育同步胚胎间的嵌合率高于发育非同步胚胎间的嵌合率.     

Prenatal fate of parthenogenetic cells in mouse aggregation chimaeras

Parthenogenetically activated BCF1 and fertilized BALB/c embryos were aggregated to form chimaeras. The fate of the parthenogenetic component was followed in the conceptus during the second half of gestation. The results indicate an early strong selection against parthenogenetic cells in the extra-embryonal part, which is presumably complete by term, and a weaker selective process in the embryo. During early development, parthenogenetic cells have nearly normal developmental potency in the embryo, which allows their balanced contribution in the chimaeras on day 12. Later, this contribution declines significantly resulting in an unbalanced relation to the advantage of the fertilized counterpart. From the results, we suggest that gametic imprinting may play a role not only in the key steps of preimplantation and early postimplantation development, but later in cell and tissue differentiation.     

Effects of feeder layer and BRL conditioned medium on mouse embryonic stem cells

In vitro growth and maintenance of embryonic stem (ES) cell lines derived from ICM cells of various blastocysts of 129 strain mice,the sustenance of their pluripotency and normal karyotype depend on the feeder layer of mouse embryonic fibroblasts (MEF).Compared with the feeder layer of MEF cells,medium conditioned by Buffalo rat liver cells (BRL-CM) is able to maintain pluripotency and karyotypic normality of ES cells only in short term cell propagation.Besides,ES cells grown in BRL-CM are also capable of aggregation with 8-cell embryos of Swiss strain and develop into germ line chimaeras.Modification to the method of aggregating ES cells with early embryos by making a hole in agar layer on the top of MEF feeder cells was shown to be more converient and efficient than the conventional microdrop method.     

Thymus differentiation and T-cell specificity in nu/nu +/+ mouse aggregation chimaeras

Thymus development and T cell differentiation were studied in mouse chimaeras produced by aggregating pre-implantation embryos of thymus-deficient nude BALB/c (nu/nu) and wild-type C57BL/6 (+/+) mice and vice versa. Chimaeras showed mosaic distribution of skin and coat pigmentation, of hair follicles, of glucosephosphate isomerase within all tested organs and of lymphocytes expressing the different major transplantation antigens (H-2). When tested for their capacity to generate vaccinia virus-specific and self-H-2 specific cytotoxic T cells, all chimaeras of BALB/c (nu/nu) H-2d in equilibrium C57BL/6 (+/+) H-2b type generated T cells of one or both parental origins that were specific for virus and for self-H-2 of the +/+ (H-2b) type only. In contrast, some BALB/c (+/+) H-2d in equilibrium C57BL/6 (nu/nu) H-2b chimaeras generated vaccinia virus-specific cytotoxic T cells specific for either H-2d (+/+) type or for H-2b (nu/nu) type. These asymmetrical results can be interpreted to indicate the following: (i) The +/+ thymus part alone is functional, but because of asymmetrical cross-reactivities of anti-self-H-2 specificities, the observed T cell restriction phenotypes differ. (ii) Both nu/nu and +/+ thymus parts are functional but immune response defects may be exaggerated in such chimaeras producing unexpected non-responsiveness to vaccinia virus linked to H-2d in H-2b (+/+) in equilibrium H-2d (nu/nu).     

A and C particles in mouse embryos]

Electron microscopic examination of embryos of the BALB/c and AKR strains of mice from the 1-cell stage to 14 days of age revealed 2 types of intracisternal A particles, one type of C particle budding into the extracellular space and an endoplasmic reticulum-association "dense-cored veiscle". The occurrence of the particles showed a marked dependence on the developmental stage of the embryo. A small percentage of 1 blastomere embryos in both strains showed the presence of a small number of A particles. Embryos of 1 to 16 blastomeres of the AKR strain with A particles were on average more frequent than in the BALB/c strain. The percentage of 7 and 14 day embryos with C particles was much greater in AKR than in Balb/c mice.     

Development of one or two blastomeres from eight-cell mouse embryos to term in the presence of parthenogenetic eggs

This study was undertaken to develop a new technique to produce identical offspring by aggregating a quarter or eighth embryo with a parthenogenetically activated egg in the mouse. One or two blastomeres from 8-cell embryos were aggregated with a parthenogenetic 4-cell egg from which one or two blastomeres had been removed. After micromanipulation and culture for 2 d in vitro, the morphologically normal blastocysts were transferred to the uterus of recipient females. The success rate in micromanipulation of eggs was 93 to 100%: aggregation of blastomeres occured about 60% of the time and the proportion of live young after transfer of aggregated eggs was 11 to 33% for the quarter and 2 to 24% for the eighth egg. The proportion of chimaeras as judged by coat color was 10% for the quarter and 20% for the eighth egg. However, GPI-1 analysis and progeny testing could not detect a parthenogenetic contribution in all offspring. The mean number of young obtained from one embryo was 1.7 for the quarter and 1.6 for the eighth embryo. The maximal number of young obtained from splitting one 8-cell embryo into quarters was three and into eighths was four. The mice of each set derived from a single embryo were of the same sex. Our study clearly demonstrates that the parthenogenone can assist development of the quarter and eighth mouse embryo to term. The proportion of chimaeras is low compared with that obtained when two fertilied eggs are combined.     

Anti-progesterone monoclonal antibody affects early cleavage and implantation in the mouse by mechanisms that are influenced by genotype

Pregnancy was blocked by anti-progesterone monoclonal antibody in two inbred (BALB/cJ, CBA/Ca) but to a lesser degree in an F1 hybrid (CBA/Ca male X BALB/cJ female) or an outbred (Tuck's no. 1) stock of mice when antibody was injected intraperitoneally (i.p.) at 32 h post coitum (p.c.) using a dosage of 9.5-10.9 nmol. This different antifertility effect could not be explained solely by altered tubal transport in inbred mice since the rate of transport was slightly accelerated in one stock (BALB/c) but not in another (CBA). In crossbred mice tubal transport was not significantly altered by antibody treatment. At Day 3 (54-58 h p.c.), the majority of embryos in control mice were at the 4-cell and 8-cell to morula stages in inbred and crossbred stock, respectively, but after antibody treatment they were mainly at the 4-cell stage in all 4 stocks. At Day 4 (78-82 h p.c.) the majority of embryos in control females had reached the blastocyst stage in all stocks, whereas after antibody treatment they had reached this stage in crossbred stock and relatively few had progressed so far in inbred stock. The results indicate that there are two events in early gestation which are susceptible to passive immunization with anti-progesterone monoclonal antibody. The first of these occurs during cleavage shortly after the 4-cell stage when embryo development was arrested in two inbred stocks of mice. Antibody effects on cleavage were not direct since embryos cultured in the presence of high concentrations of antibody, or antibody saturated with progesterone, continued to develop in the normal way and formed blastocysts. The second event is the onset of implantation, an effect also influenced by genotype. The decidual cell reaction induced by intraluminal oil injection was blocked by antibody injected at 8 or 32 h p.c. in BALB/c females, but only when injected at 8 h, and not at 32 h p.c., in F1 hybrid females. The results show that there is a greater resistance in two crossbred stocks compared with two inbred stocks to the effects of passive immunization against progesterone in early pregnancy.     

Development of single mouse blastomeres enlarged to zygote size in conditions of nucleo-cytoplasmic synchrony

The following blastomeres were enlarged to the size of the zygote by one, two or three rounds of blastomere enucleation and electrofusion: (1) from the 2-cell stage (referred to as 2/1 embryos), (2) from the 4-cell stage (referred to as 4/1 embryos), (3) from the 8-cell stage (referred to as 8/1 embryos). Such single enlarged blastomeres developed into blastocysts in vivo in 55.5% (2/1), 28% (4/1) and 6.6% (8/1) of cases. Their mean cell numbers were 45.3, 24.5 and 13.0 in 2/1, 4/1 and 8/1 embryos, respectively. When a blastomere nucleus from another mouse strain (heterologous nucleus) was substituted for a blastomere's own (homologous) one, then fewer blastocysts were formed from 2/1 embryos (34.6%), but not from 4/1 and 8/1 embryos. Five young (10.4%) were born from 2/1 embryos with a homologous nucleus, and nine (8.3%) from 2/1 embryos with heterologous nuclei. Four young (7.1%) were born from 4/1 embryos with heterologous nuclei. No young were obtained from 8/1 embryos. Incorrect cavitation resulting in trophoblastic vesicles and false blastocyst formation was common in 4/1 embryos (18.7% of those with homologous nuclei and 41.3% with heterologous nuclei) and in 8/1 embryos (53.3% and 43.7%, respectively). The results show that neither enlargement to zygote size nor nucleo-cytoplasmic synchrony improve postimplantation development of 4- and 8-cell stage blastomeres when compared with less enlarged non-synchronous ones; therefore, it appears that an insufficient number of inner cell mass cells in blastocysts and not too small a size of isolated blastomeres precludes their postimplantation development.     

"生存还是毁灭",发育还是阻滞--小鼠早胚体外发育2-细胞阻滞产生机制初析

在体外培养条件下,小鼠受精卵往往经一次分裂后就停滞在２－细胞,不能完成到达囊胚的后续发育过程,称作２－细胞阻滞。氧自由基伤害、培养液成分不平衡等外界因素都能引起阻滞。小鼠的２－细胞阻滞现象受细胞质内母型物质制约,具有品系依赖性。在阻滞品系小鼠胚胎的细胞质内可能缺乏某些重要的蛋白因子,在无外源信号的培养体系内不能继续分裂。发生阻滞的胚胎细胞内ＭＰＦ前体物虽然储备充足,但因无法去磷酸化激活而最终导致发     

Viable Chimeras between Embryonal Carcinoma Cells and Mouse Embryos: Comparison of Aggregation and Injection Methods

An embryonal carcinoma (EC) cell line having the ability to form chimeric mice was isolated from embryo-derived teratocarcinomas experimentally induced in BALB/cCrSlc mice. This EC cell line, B242 g, was one of the 5 EC cell lines pre-selected based on the ability to incorporate into blastocysts by means of aggregating with 8-cell mouse embryos.
Using the B242g EC cells, the effectiveness of producing chimeras was compared between two currently available techniques, aggregation and injection, by examining chimerism of the midgestationally recovered conceptuses and live-born mice. The present result revealed that EC cells studied here were able to form chimeras more efficiently by injection as compared to aggregation method.     

Experimental embryology of mammals at the Jastrzebiec Institute of Genetics and Animal Breeding

Our Department of Experimental Embryology originated from The Laboratory of Embryo Biotechnology, which was organized and directed by Dr. Maria Czlonkowska until her premature death in 1991. Proving successful international transfer of frozen equine embryos and generation of an embryonic sheep-goat chimaera surviving ten years were outstanding achievements of her term. In the 1990s, we produced advanced fetuses of mice after reconstructing enucleated oocytes with embryonic stem (ES) cells, as well as mice originating entirely from ES cells by substitution of the inner cell mass with ES cells. Attempts at obtaining ES cells in sheep resulted in the establishment of embryo-derived epithelioid cell lines from Polish Heatherhead and Polish Merino breeds, producing overt chimaeras upon blastocyst injection. Successful re-cloning was achieved from 8-cell rabbit embryos, and healthy animals were born from the third generation of cloned embryos. Recently mice were born after transfer of 8-cell embryonic nuclei into selectively enucleated zygotes, and mouse blastocysts were produced from selectively enucleated germinal vesicle oocytes surrounded by follicular cells, upon their reconstruction with 2-cell nuclei and subsequent activation. Embryonic-somatic chimaeras were born after transfer of foetal fibroblasts into 8-cell embryos (mouse) and into morulae and blastocysts (sheep). We also regularly perform the following applications: in vitro production of bovine embryos from slaughterhouse oocytes or those recovered by ovum pick up; cryopreservation of oocytes and embryos (freezing: mouse, rabbit, sheep, goat; vitrification: rabbit, cow); and banking of somatic cells from endangered wild mammalian species (mainly Cervidae).     

Mutant gene expression in murine aggregation chimeras. 5. The ocular retardation and fidget genes

Analysis of ocular retardation (or) and fidget (fi) genes expression in 18 day old embryos, 10 and 20 day old or/or C/C----+/+ c/c and fi/fi or/or C/C----+/+ +/+ c/c mice has shown that genes or and fi are active in developing retina and suppress cell proliferation. Structural defects of retina and decrease in the eye size in the chimaeras, compared to the normal embryos, were observed already in the presence of 13-16% of mutant cells. As the fraction of mutant cells increased, the degree of eye disturbances increased as well. In the fi/fi or/or----+/+ +/+ chimaeras structural defects of retina and decrease in the eye size are more pronounced than in the or/or----+/+ chimaeras, due to the synergetical effect of both mutant genes in the fi/fi or/or cell clones. In the ontogenesis of the or/or----+/+ chimaeras the development of the retinal photoreceptor layer is normalized due to the substitution of mutant cells for actively proliferating normal cells. No metabolic cooperation between the mutant and normal cells was observed in the developing retina of chimaeras.     

Experimental chimaerism in sheep

Composite sheep embryos (N = 110) were produced by aggregation of blastomeres from 2-, 4- or 8-cell embryos. Each composite embryo consisted of equal numbers of blastomeres from 2-8 parent embryos, the total cell number ranging from one quarter of the normal cell number to 8 times the normal cell number. The embryos were embedded in agar and transferred to ligated sheep oviducts to allow development up to the early blastocyst stage. Of the 101 embryos subsequently recovered, 77 had formed normally organized blastocysts and 74 of these were transferred to 51 recipients. Thirty-eight recipients went to full term, producing a total of 53 lambs. Of the 48 lambs which survived to be blood typed at 60 days of age, 36 were judged to be chimaeric on the basis of their blood type and/or on the basis of external features. The proportion of chimaeras was larger amongst the lambs produced from composite embryos of the normal number of cells or more (25/26) than amongst lambs produced from composite embryos of less than the normal cell number (11/22).     

Relation between rate of cell proliferation and formation of micronuclei after combined treatment with X-rays and caffeine

We studied the effects of caffeine (2 mM), X-rays (1 Gy) and the combination of both agents on cell proliferation and formation of micronuclei in the early stages of preimplantation mouse embryos in vitro. Two-cell embryos were exposed to the agents shortly before division to the 4-cell stage. Proliferation and micronucleus production was monitored every 2 h in the 4- and 8-cell stages. A rather peculiar pattern of micronucleus formation after radiation exposure alone was observed for 8-cell embryos: those embryos that were the first to enter the 8-cell stage showed two to three times higher numbers of micronuclei per cell when compared with those embryos that entered the 8-cell stage some hours later. Studies of the kinetics of cell proliferation and of micronucleus formation in 4- and 8-cell embryos and exposure to caffeine revealed that this result could be explained by two factors: a slight asynchrony in the developmental stage at the time of exposure and the length of the interval being available for repair processes. When caffeine was present, a third factor had to be taken into consideration: direct inhibition of repair by caffeine.Dedicated to Prof. W. Jacobi on the occasion of his 65th birthday     

Developmental potential of mouse tetraploid cells in diploid <--> tetraploid chimeric embryos

Mouse 2n (lacZ-) <--> 4n (lacZ+) aggregation chimeras were examined 5 or 10 days after uterine transfer to test the potential of 4n cells to contribute to embryonic tissues. Recovered embryos corresponded to embryonic day 7.5 approximately 8.0 and 12.5, respectively. Ten days after transfer, 4n cells were never detected, as reported earlier, in embryonic tissues of chimeras produced by the standard procedure in which one 2n embryo at the8-cell stage is aggregated with a4n embryo at the4-cell stage. However, beta-gal positive cells were present in embryonic tissues, though in a low number, in chimeras produced by a 2n and a 4n embryo at the 4-cell stage. Similar results were obtained when one 2n embryo atthe 8-cell stage was aggregated with two 4n embryos atthe 4-cell stage. beta-gal positive cells were found in the heart, liver, skin and intestinal epithelium. The majority of chimeras 5 days after uterine transfer retained beta-gal positive cells in embryonic tissues. The complete lack of 4n cell contribution to chimeras produced by the standard procedure is therefore attributed to the initial low proportion of 4n cells allocated to epiblast and their severe elimination from embryonic tissues.     

Archenteron-Forming Capacity in Blastomeres Isolated from Eight-Cell Stage Embryos of the Starfish, Asterina pectinifera

Starfish blastomeres are reported to be totipotent up to the 8-cell stage. We reinvestigated the development of blastomeres of 8-cell stage embryos with a regular cubic shape consisting of two tiers of 4 blastomeres. On dissociation of the embryo by disrupting the fertilization membrane at the 8-cell stage, each of the 4 blastomeres of the vegetal hemisphere gave rise to an embryo that gastrulated, whereas blastomeres from the animal hemisphere did not. By injection of a cell lineage tracer into blastomeres of 8-cell stage embryos, we found that only those of the vegetal hemisphere formed cells constituting the archenteron. Next, we compressed 4-cell stage embryos along the animal-vegetal axis so that all the blastomeres in the 8-cell stage were in a single layer. When these 8 blastomeres were then dissociated, an average of 7 of them developed into gastrulae. By cell lineage analysis, all the blastomeres in single-layered embryos at the 8-cell stage were shown to have the capacity to form cells constituting an archenteron. Taken together, these findings indicate that the fate to form the archenteron is specified by a cytoplasmic factor(s) localized at the vegetal hemisphere, and that isolated blastomeres that have inherited this factor develop into gastrulae.     

蛋白激酶Cα在小鼠孤雌及四倍体胚胎早期发育过程中的分布和作用

为了观察蛋白激酶Cα(protein kinase Cα,PKCα在昆明白小鼠受精卵、孤雌激活和四倍体胚胎早期发育阶段的亚细胞定位和致密化进程中的表达变化,本实验利用免疫荧光化学染色与激光共聚焦显微镜观察相结合的方法,对受精卵、孤雌激活和四倍体胚胎早期发育阶段PKCα的表达进行了定位观察,并利用Western blot对三组胚胎致密化进程中PKCα的表达进行定量分析.结果显示,PKCα在上述三组胚胎发育的2-细胞期至囊胚期均有表达,虽然不同胚胎PKCα的分布在同一发育阶段存在差异,却表现出在各胚胎期主要分布于卵裂球核染色质内,以及在胚胎致密化开始,PKCα在卵裂球连接处发生重新分布的共同特点.此外,三组胚胎PKCα在致密化进程中的表达呈升高趋势,即致密化后的表达高于敛密化前.结果表明,PKCct对胚胎致密化的调节具有重要作用,其在8-细胞/4-细胞期的重新分布是胚胎进入桑椹胚期的必然事件,是胚胎致密化的前提,同时伴随蛋白表达增多.此外,PKCα在囊胚期发生了植入前的第二次重新分布.PKCα在三组胚胎各发育阶段表达情况各不相同,它对小鼠胚胎发育的影响体现在整个早期发育阶段.PKCα在小鼠受精卵早期发育阶段的两次重新分布可能与在致密化开始时启动的细胞黏附事件存在某种必然联系.     

Analysis of specific factors generating 2-cell block in AKR mouse embryos

The phenomenon of the developmental arrest at the 2-cell stage of 1-cell embryos from some mouse strains during in vitro culture is known as the 2-cell block. We investigated the specific factors involved in the 2-cell block of AKR embryos by means of a modified culture system, the production of reconstructed embryos by pronuclear exchange and a cross experiment. In a culture medium with phosphate, 94.6% of 1-cell embryos from the C57BL mouse strain developed to the blastocyst stage, but 95.7% of embryos from the AKR mouse strain showed 2-cell block. Phosphate-free culture medium rescued the 2-cell block of AKR embryos and accelerated the first cell cycle of the embryos. Co-culture with BRL cells and a BRL-conditioned medium fractionated below 30 kDa also rescued the 2-cell block of AKR embryos. Examinations of in vitro development of reconstructed embryos and of embryos from F1 females between AKR and C57BL strains clearly demonstrated that the AKR cytoplast caused the 2-cell block. In the backcrossed female progeny between (AKR x C57BL) F1 males and AKR females, about three-quarters of the embryos were of the 2-cell blocking phenotype and about one-quarter were of the non-blocking phenotype. These results suggest that two genes are responsible for the 2-cell block of AKR embryos.