Investigation of the tissue specificity of the lethal yellow (Ay) gene in mouse embryos

The tissue specificity of the lethal yellow mutant was investigated by separation of blastocyst tissues. Embryos from experimental (Ay/ae X Ay/ae) and control (ae/ae X Ay/ae) crosses of the AG/CamPa inbred strain were recovered at 3.5 days post coitum, cultured for 24 hours, and then mechanically dissected into the component tissues of the blastocyst, the inner cell mass (ICM), and trophectoderm. These fragments were then cultured separately, with or without a feeder layer of inactivated fibroblasts, for an additional 3-5 days. Comparisons between experimental and control crosses indicated that the lethal Ay/Ay embryos were among the blastocysts successfully dissected but that both the ICM and trophectoderm from lethal embryos failed to develop further in vitro, either with or without feeders. With retrospective identification of the lethal embryos, it was found that at 4.5 days, after 1 day of culture, they had formed morphologically normal blastocysts but were frequently more fragile upon dissection and had smaller ICMs. Although none had hatched from the zona pellucida, some had ruptured it and were halfway out. With culture, lethal ICMs showed no development, and lethal trophectoderm usually attached but showed very limited outgrowth. Thus, no rescue of lethal tissue was shown with dissection and in vitro culture, and results are consistent with the gene affecting both tissues of the late blastocyst.     

Effects of the lethal yellow (Ay) mutation in mouse aggregation chimeras

The Ay allele is a recessive lethal mutation at the mouse agouti locus, which results in embryonic death around the time of implantation. In the heterozygous state, Ay produces several dominant pleiotropic effects, including an increase in weight gain and body length, a susceptibility to hepatic, pulmonary and mammary tumors, and a suppression of the agouti phenotype, which results in a yellow coat color. To investigate the cellular action of Ay with regard to its effects upon embryonic viability and adult-onset obesity, we generated a series of aggregation chimeras using embryos that differ in their agouti locus genotype. Embryos derived from Ay/a x Ay/a matings were aggregated with those derived from A/A x A/A matings, and genotypic identification of the resultant chimeras was accomplished using a molecular probe at the Emv-15 locus that distinguishes among the three different alleles, Ay, A, and a. Among 50 chimeras, 25 analyzed as liveborns and 25 as 9.5 day embryos, 29 were a/a in equilibrium A/A and 21 were Ay/a in equilibrium A/A. The absence of Ay/Ay in equilibrium A/A chimeras demonstrates that Ay/Ay cells cannot be rescued in a chimeric environment, and the relative deficiency of Ay/a in equilibrium A/A chimeras suggests that, under certain conditions, Ay heterozygosity may partially affect cell viability or proliferation. In the 25 liveborn chimeras, Ay/a in equilibrium A/A animals became obese as adults and a/a in equilibrium A/A animals did not. There was no correlation between genotypic proportions and rate of weight gain, which shows that, with regard to its effects on weight gain, Ay heterozygosity is cell non-autonomous.     

Action site of the lethal Ay gene in the mouse embryo.

We investigated the lethal effect of Ay gene in embryos at the preimplantation stage in vitro. First, the development until the blastocyst stage and the division of individual cells from 8-cell stage embryos were examined. No difference in development was detected between embryos from the experimental cross (Ay/a x Ay/a) and those from the control cross (a/a x a/a). Therefore, it seems that the abnormality of the Ay/Ay embryo does not appear until blastocyst formation in vitro. We subsequently examined the hatching from zona pellucida of the blastocysts. The hatching ratio of the embryos from the experimental cross was significantly lower than that of the control crosses (Ay/a x a/a, a/a x a/a: p < 0.05). Our observation indicates that deficiency of the Ay/Ay embryo can be detected in vitro at hatching. In order to elucidate the mechanism of the gene action of the Ay, we attempted to rescue the lethal embryos from decreased hatching ratio in vitro. When dbcAMP at the concentration of 1 mM was added to the culture medium, the hatching ratio of blastocysts from the experimental cross increased until the level of those from the control crosses. Since this result indicates that the cAMP content in Ay homozygote seemed to be lower than those in a/a and Ay/a, the cAMP content in individual blastocyst was quantified. It is found that Ay homozygosity was associated with lower level of cAMP. When adenylate cyclase was activated by forskolin and cholera toxin, the hatching ratio was increased. These results seem to suggest that Ay homozygote embryos possess a defect in signal transduction system mediated by adenylate cyclase during hatching.     

In vitro analysis of pre- and early postimplantation development of lethal yellow (Ay/Ay) mouse embryos

Preimplantation embryos from matings between yellow heterozygous (Ay/a) mice were recovered at 56 hours post coitum, cultured for five days, and compared with the development of embryos from three control matings (Ay/a female X a/a male, a/a female X Ay/a male, a/a female X a/a male). Most embryos were at the 8-cell stage at recovery; however fewer embryos from the experimental cross had developed to the 8-cell stage than embryos of control matings, indicating a developmental lag of experimental embryos (P less than 0.01). The yellow (Ay/a) uterus did not contribute (P = 0.05) to delayed development. Experimental and control embryos were equally capable of successful development in culture to the morula stage with no distinct morphological characteristics identifying the class of Ay/Ay mutants. However, significant differences were observed in the development from morulae to blastocysts; 9.4% (10/106) of the morulae in experimental crosses failed to undergo blastocyst formation as compared with 2.5% (10/398) of morulae in pooled control crosses (P = 0.010-0.025). In the experimental cross 25.0% (24/96) of embryos that developed successfully to the blastocyst stage failed to hatch from the zona pellucida; these are presumed to include the class of lethal yellow homozygotes. Abnormalities seen in cultured embryos consisted primarily of blastomere disintegration, blastomere arrest and exclusion, and embryo fragmentation.     

Effects of the lethal yellow (Ay) and recessive yellow (e) genes on the population of epidermal melanocytes in newborn mice

Very few melanocytes can be detected by the DOPA reaction in the dorsal epidermis of newborn lethal yellow mice (Ay/a). Nevertheless, the epidermis contains a considerable number of melanoblasts (cells positive for the combined DOPA-premelanin reaction). On the other hand, numerous melanocytes as well as melanoblasts are found in the dorsal epidermis of black mice (a/a). The number of epidermal melanoblasts is smaller in (Ay/a than in a/a mice even though the same number of melanocytes is found in the dermis of these animals. It seems probable that the product of the A y gene suppresses either the differentiation or the proliferation of epidermal melanoblasts. The number of melanoblasts plus melanocytes in day-17 embryos from a cross between Ay/a and a/a mice shows a bimodal distribution. It seems possible that half of the embryos were Ay/a and possessed a reduced number of melanoblasts and melanocytes. This result seems to suggest that the Ay gene is active at this embryonic stage. In contrast to the case for the epidermis from Ay/a mice, numerous DOPA-positive melanocytes were detected in the epidermis from e/e mice. However, the total number of melanoblasts plus melanocytes in e/e epidermis did not differ from that in Ay/a epidermis, suggesting that the mode of action of the e gene in the epidermis is different from that of the Ay gene.     

Effects of reciprocal ovary transplantation on reproductive performance of lethal yellow mice (Ay/a; C57BL/6J)

This study was conducted to determine whether reproductive failures in ageing, obese lethal yellow (Ay/a) females are due primarily to defects within Ay/a ovaries or to systemic defects which may operate outside the ovaries. Reciprocal ovary transplantation between control (a/a) and lethal yellow (Ay/a) females provided an experimental system to test the reproductive potential of not only Ay/a ovaries in control (a/a) females but also control (a/a) ovaries in mutant (Ay/a) females. Results on reproductive performance of all four combinations of grafts between Ay/a and a/a mice proved that Ay-induced reproductive failures are not due to intrinsic ovarian lesions but rather to defects operating extrinsically to the ovary. The hypothalamo-pituitary axis is a likely site for this reproductive lesion.     

Differentiation of hairbulb pigment cell melanosomes in compound agouti and albino locus mouse mutants (Ay, a, c2J; C57BL/6J)

Our objective was to determine using electron microscopy how nonagouti (a), lethal yellow (Ay), and albino (c2J) genes affect the program of mouse hairbulb melanosome differentiation; 1,921 hairbulb melanosomes from four genotypes (a/a C/C = B,Ay/a C/C = Y, a/a c2J/c2J = BA, and Ay/a c2J/c2J = YA) were scored for developmental stage, length, and width. Qualitative and quantitative electron microscopy revealed the following. An albino locus-induced diminution of melanosome size suggests that the albino locus is involved in structural features of melanosomes not directly related to the synthesis and deployment of tyrosinase. Ratio data on melanosome length-to-width confirm that the agouti locus determines melanosome shape, either spherical or elliptical; melanization is not required for melanosomes to achieve their agouti-locus-determined shapes. YA (Ay/a c2J/c2J) melanosomes, characterized by poorly organized matrices, absence of active tyrosinase, unusually large membrane invaginations, and significantly smaller dimensions than those of BA (a/a c2J/c2J), showed additive effects of both Ay and c2J alleles. These data suggest that the albino locus plays a structural as well as functional (tyrosinase) role in the differentiation of mouse hairbulb melanosomes. The agouti locus, even in the absence of melanization, directs melanosome shape either via synthesis and deployment of agouti-locus-encoded matrix proteins or by other structural factors. The additive effects of Ay and c2J alleles in compound YA mutants document the importance of specific interactions both functional and structural between agouti and albino loci.     

Effects of the Ay gene on susceptibility to hydrocortisone fetotoxicity and teratogenicity in mice

Effects of the Ay gene, a coat color gene, on susceptibility to hydrocortisone fetotoxicity and teratogenicity were investigated by using the congenic strain of C57BL/6-Ay (Ay/a) which had been maintained by repeated back-crosses of the Ay gene to the C57BL/6 (a/a) background. Matings were conducted as follows (female x male): group I, a/a; group II, a/a x Ay/a; and group III, Ay/a x a/a. Pregnant females were subcutaneously given daily doses of 0, 12.5, 25, or 50 mg/kg of hydrocortisone on days 10-13 of pregnancy. On day 18 of pregnancy, fetuses were sexed, weighed, and examined for external abnormalities. In group I, the mean fetal weight was significantly decreased at a dose of 25 mg/kg or more. The incidences of cleft palate were 3.2 and 22.7% at 25 and 50 mg/kg, respectively. In group II, in which half of the fetuses were expected to carry the Ay gene, the mean fetal weight was decreased significantly at 12.5 mg/kg or more. The incidence of cleft palate in group II at 50 mg/kg was 44.2%, which was significantly higher than that in group I. In group III, in which maternal mice as well as half of their fetuses carried the Ay gene, a decrease in the mean fetal weight was greater than in group II. In addition, the mean percentage of fetal resorptions was significantly increased at 50 mg/kg. The incidence of cleft palate in group III was significantly increased at 25 mg/kg (10.5%) when compared with those in groups I and II. These results indicate that the Ay gene may be associated with susceptibility to hydrocortisone fetotoxicity and teratogenicity in mice.     

Sulfhydryl Compounds in Melanocytes of Yellow (Ay/a ), Nonagouti (a/a), and Agouti (A/A) Mice

CLEFFMANN (1953, 1963a,b) has reported that yellow but not black melanocytes of agouti (A/A) rabbits contained reducing sulfhydryl compounds. We have attempted to repeat CLEFFMANN's observations in mouse melanocytes of the lethal yellow (Ay/a), nonagouti (a/a) and agouti (A/A) genotypes. Our results contradict those of CLEFFMANN and reveal that yellow and black melanocytes, regardless of genotype, possess equivalent amounts of histochemically detectable sulfhydryl compounds. These results do not support the hypothesis that agouti-locus genes act by controlling the sulfhydryl metabolism of pigment cells.     

Progressive infertility in female lethal yellow mice (Ay/a; strain C57BL/6J)

Obese Ay/a females of 120 days or older, when compared to age-matched a/a controls (strain C57BL/6J), exhibited abnormal oestrous cyclicity characterized by reduced frequencies of true oestrous-stage smears, decreased mating success to proven a/a males, lowered uterine weights, and depressed ovulation rates. Exogenous gonadotrophins (PMSG/hCG) partly restored ovulation in obese Ay/a females to near control levels, demonstrating the sensitivity of Ay/a ovarian tissues to FSH and LH, at least at superovulatory levels. Concentrations of endogenous gonadotrophins and/or sensitivity of ovarian target cells to gonadotrophins may therefore be impaired in obese Ay/a females. Aberrant copulatory behaviour, reduced uterine weights, and depressed conception rates strongly suggest ovarian steroid deficiencies, perhaps secondary effects of reduced endogenous gonadotrophin activity. As in other obese rodent syndromes e.g. ob/ob, db/db, and fa/fa), a possible fundamental Ay-induced hypothalamic lesion is consistent with our data.     

乌拉尔图小麦(Triticum urartu)1Ay高分子量麦谷蛋白亚基基因编码区的克隆与鉴定

应用简并性引物和基因组PCR反应从乌拉尔图小麦(Triticum urartu)不同种质材料中获得并测定了表达型和沉默型1Ay高分子量麦谷蛋白亚基基因全长编码区的基因组DNA序列.表达型1Ay基因编码区的序列与前人已发表的y型高分子量麦谷蛋白亚基基因编码区的序列高度同源,由其推导的1Ay亚基的一级结构与已知的高分子量麦谷蛋白亚基相似.在细菌细胞中,表达型1Ay基因编码区的克隆序列可经诱导而产生1Ay蛋白,该蛋白与种子中1Ay亚基在电泳迁移率和抗原性上类似,表明所克隆的序列真实地代表了表达型1Ay基因的全长编码区.但是,本研究所克隆的沉默型1Av基因的编码区序列因含有3个提前终止子而不能翻译成完整的1Ay蛋白.讨论了表达型1Ay基因在小麦籽粒加工品质改良中的潜在利用价值以及lAy基因沉默的机制.     

乌拉尔图小麦(Triticum urartu)1Ay高分子量麦谷蛋白亚基基因编码区的克隆与鉴定(英文)

应用简并性引物和基因组PCR反应从乌拉尔图小麦(Triticum urartu)不同种质材料中获得并测定了表达型和沉默型1Ay高分子量麦谷蛋白亚基基因全长编码区的基因组DNA序列。表达型1Ay基因编码区的序列与前人已发表的y型高分子量麦谷蛋白亚基基因编码区的序列高度同源,由其推导的1Ay亚基的一级结构与已知的高分子量麦谷蛋白亚基相似。在细菌细胞中,表达型1Ay基因编码区的克隆序列可经诱导而产生1Ay蛋白,该蛋白与种子中1Ay亚基在电泳迁移率和抗原性上类似,表明所克隆的序列真实地代表了表达型1Ay基因的全长编码区。但是,本研究所克隆的沉默型1Ay基因的编码区序列因含有3个提前终止子而不能翻译成完整的1Ay蛋白。讨论了表达型1Ay基因在小麦籽粒加工品质改良中的潜在利用价值以及1Ay基因沉默的机制。     

Effect of adrenalectomy on weight gain and body composition of yellow obese mice (Ay/a).

It has been reported that the adrenal gland is essential to the development of obesity if Ay/a Yellow obese mice (Hausberger and Hausberger 1960). Since the actual body composition data to support this report has not been published, we attempted to duplicate this observation by adrenalectomy of the Yellow mice before the onset of obesity. Two groups of Yellow mice (Ay/a) and normal mice (a/a) were either sham operated or adrenalectomized at two months of age and at four months of age. Body weight was monitored until body gain had stopped. At that time the animals were sacrified and checked for completeness of adrenal removal. Body composition of dry matter, fat, protein, and ash was determined. Adrenalectomy caused a reduction of body fat of 33% and 30% in both the a/a Control and the Ay/a Yellow mice, respectively. The adrenalectomized Yellow mice were still fatter than adrenalectomized Controls (25.3% fat vs. 10.6% fat). Yellow and control adrenalectomized mice showed similar depression in growth rate. These data suggest that while the adrenal gland is essential for complete expression of the genetic potential for fat deposition, it may not be necessary for partial expression indicating a secondary role in the development of obesity in the Ay/a Yellow mouse.     

The extended survival of tw5/tw5 mouse embryo cells in vitro

The tw5 haplotype is a recessive mutation which is lethal when homozygous in mouse embryos following implantation. This series of studies was undertaken to determine the effect of the tw5/tw5 genotype on embryos developing in vitro. Blastocyst embryos from +/tw5 inter se matings were compared with control blastocysts obtained from matings between T/+ and +/+ females and +/tw5 males for their abilities to continue development in vitro in two culture media. The data show that there are no significant differences between the percentages of experimental and control blastocyst embryos which attach and outgrow or which contain inner cell masses on any day of culture up to equivalent gestation day 21 in either media. These findings show that the life span of cells from tw5/tw5 embryos can be extended significantly by in vitro culture.     

Molecular characterization of two y-type high molecular weight glutenin subunit alleles 1Ay12 and 1Ay8 from cultivated einkorn wheat (Triticum monococcum ssp. monococcum)

Two y-type high molecular weight glutenin subunits (HMW-GSs) 1Ay12^? and 1Ay8^? from the two accessions PI560720 and PI345186 of cultivated einkorn wheat (Triticum monococcum ssp. monococcum, AA, 2n = 2x = 14), were identified by sodium dodecyl sulfate polyacrylamide gel electrophoresis (SDS-PAGE). The mobility of 1Ay12^? and 1Ay8^? was similar to that of 1Dy12 and 1By8 from common wheat Chinese Spring, respectively. Their ORFs respectively consisted of 1812 bp and 1935 bp, encoding 602 and 643 amino acid residues with the four typical structural domains of HMW-GS including signal peptide, conserved N-, and C-terminal and central repetitive domains. Compared with the most similar active 1Ay alleles previous published, there were a total of 15 SNPs and 2 InDels in them. Their encoding functions were confirmed by successful heterogeneous expression. The two novel 1Ay alleles were named as 1Ay12^? and 1Ay8^? with the accession No. JQ318694 and JQ318695 in GenBank, respectively. The two alleles were classed into the two distinct groups, Phe-type and Cys-type, which might be relevant to the differentiation of Glu-A1-2 alleles. Of which, 1Ay8^? belonged to Cys-type group, and its protein possessed an additional conserved cysteine residue in central repetitive region besides the six common ones in N- and C-terminal regions of Phe-type group, and was the second longest in all the known active 1Ay alleles. These results suggested that the subunit 1Ay8^? of cultivated einkorn wheat accession PI345186 might have a potential ability to strengthen the gluten polymer interactions and be a valuable genetic resource for wheat quality improvement.     

Tyrosinase activity (TH, DO, PAGE-defined isozymes) and melanin production in regenerating hairbulb melanocytes of lethal yellow (Ay/a), black (a/a), agouti (AwJ/AwJ/) and albino (a/a/c2J/c2J) mice (C57BL/6J)

We compared tyrosinase activity (TH, DO, and native PAGE-defined isozymes) and melanin production in particulate and soluble fractions of hairbulb melanocytes of lethal yellow (Ay/a C/C), nonagouti black (a/a C/C), and albino (a/a c2J/c2J) of 3-, 6-, 9-, and 12-day regenerating hairbulbs. With respect to tyrosine hydroxylase (TH) and dopa oxidase (DO) activities, Ay/a melanocytes possessed only 25-35% of the activity of a/a; there were no genotype differences in either the subcellular distribution of activity in soluble and particulate fractions or in the relative increases of activity over the 12-day developmental period. TH data on wild-type agouti (AwJ/AwJ) mice over the 3-11 day regeneration interval showed an activity intermediate between that of a/a and Ay/a; the rate of TH increase reflected black and yellow phases of the agouti hair cycle. Analyses of the number and densities of dopa-sensitive bands following native PAGE of 3-, 6-, 9-, and 12-day hairbulb fractions of a/a and Ay/a mice suggested stage-dependent patterns. A comparison of rates and amounts of melanin production in 3-, 6-, 9-, and 12-day fractions showed consistent melanin production in Ay/a to be 10-20% that of a/a; however, fold increases in melanin production over the four stages were similar between genotypes. Overall, tyrosinase activity data support the notion that agouti locus modification of tyrosinase activity is a graded or quantitative rather than a qualitative phenomenon.     

STUDIES ON DROSOPHILA EMBRYONIC CELLS IN VITRO II. TISSUE- AND TIME-SPECIFICITY OF A LETHAL GENE, DEEP ORANGE

Embryonic cells which were homozygous or hemizygous for an X -linked (1-0.3) recessive lethal gene, deep orange ( dor ), were cultured in T-5 flasks. Muscle cells, epithelial cells, fibroblastic cells and nerve cells were maintained in a functionally active state for longer than the effective lethal phase of the embryos. Some defects in syncytium formation of muscle cells, formation of cellular spheres, and droplet formation on nerve fibers were observed. Addition of an extract of unfertilized wild-type eggs to the culture medium resulted in repair of these defective characters of dor embryonic cells.
To examine the time specificity of the paternal dor ⁺ gene, extracts of embryos obtained from matings of dor sn ³/ dor sn ³ females and dor ⁺ sn ³⁺/ Y males were tested for their ability to repair the defects of dor embryonic cells. The extract from embryos at the stage of blastoderm formation was not effective in repairing dor defects, but extracts from embryos at stages after gastrulation were effective for repair of various defects of dor embryonic cells. Various substances in the pteridine metabolic pathway were tested for their ability to repair defects of dor embryonic cells. The effective lethal phase of dor embryos and the pleiotropic effects of the dor gene are discussed.     

Effects of dehydroepiandrosterone on obesity and glucose-6-phosphate dehydrogenase activity in the lethal yellow mouse (strain 129/Sv-Ay/Aw)

We investigated the anti-obesity effects of the adrenal androgen, dehydroepiandrosterone (DHEA), on genetically predisposed obese lethal yellow mice (Ay/Aw). Secondly, we tested the hypothesis that DHEA promotes its anti-obesity effects by decreasing the activity of glucose-6-phosphate dehydrogenase (G6PDH). We subjected four genotype-sex combinations of yellow and agouti (control) mice to four dietary treatments and determined weight changes, food consumption, and G6PDH activity. Although G6PDH activities of yellow mice were considerably decreased in the 0.4% DHEA treatment group, they were elevated in the 0.0 and 0.1% DHEA treatment groups. In contrast, G6PDH activities of DHEA-treated control agouti mice remained relatively constant. These studies confirm that DHEA prevents the Ay gene from promoting excess fat deposition via some mechanism(s) other than reduced dietary intake. However, the overall absence of agreement between weight change (gain or loss) and G6PDH activity suggests that the anti-obesity activity of DHEA is not mediated via G6PDH. Since yellow obese (Ay/Aw) mice were found to be more susceptible to DHEA's effects than their agouti (Aw/Aw) littermates, Ay appears to induce an altered metabolism in Ay/Aw mice which is more susceptible to the effects of DHEA than the normal metabolism of Aw/Aw mice.     

Decreased dopachrome oxidoreductase activity in yellow mice

Dopachrome oxidoreductase (DCOR) is a newly characterized enzyme in the melanin synthetic pathway, active in the conversion of dopachrome to 5,6-dihydroxyindole. DCOR and tyrosinase activity were measured in skin anagen hairbulbs from lethal yellow (Ay/a), sienna yellow (Asy/a) and recessive yellow (e/e) mice with and without treatment with melanocyte-stimulating hormone (MSH). DCOR activity was low (Asy/a) or absent (Ay/a, e/e) in yellow mice without MSH treatment, and increased dramatically in the lethal and sienna yellow mice with MSH. There was no increase in DCOR activity in recessive yellow mice with MSH. Corresponding tyrosinase activity was reduced in lethal yellow and sienna yellow mice without MSH, and increased with MSH. Tyrosinase activity was normal in recessive yellow mice without MSH and did not change with MSH. We conclude that DCOR is an MSH-sensitive enzyme and that DCOR activity is absent in recessive yellow melanocytes. The latter finding suggests that the extension locus may be the DCOR locus.     

Chromosome studies in human in vitro fertilization

Summary The chromosome constitution of 22 human preimplantation embryos from donor oocytes fertilized in vitro by donor sperm was studied to assess the contribution of lethal chromosome anomalies to the high failure rate of implantation of in vitro fertilized embryos after embryo transfer in infertile women. Evidence was found of nondisjunction, resulting in trisomy, monosomy, and nullosomy; structural abnormalities; haploidy; and triploidy. Despite the lethality of their chromosome complements, these embryos could not be distinguished morphologically from those with normal chromosomes.