Expression of glucose phosphate isomerase in interspecific hybrid (Mus musculus x Mus caroli) mouse embryos.

Hybrid Mus musculus x Mus caroli embryos were produced by inseminating M. musculus (C57BL/OlaWs) females with M. caroli sperm. Control M. caroli embryos developed more rapidly than did control M. musculus embryos and implanted approximately 1 day earlier. At 1 1/2 days, both the hybrid embryos and those of the maternal species (M. musculus) had cleaved to the 2-cell stage. By 2 1/2 days some of the hybrids were retarded compared to M. musculus, and by 3 1/2 days most were lagging behind. This is consistent with the idea that the rate of development of hybrid embryos declines once it becomes dependent on embryo-coded gene products. We have used this difference in rate of preimplantation development, between hybrid and M. musculus embryos, to try to determine whether the activation of embryonic Gpi-1s genes, that encode glucose phosphate isomerase (GPI-1), is age-related or stage-related. In control M. musculus embryos (both mated and Al groups), the GPI-1AB and GPI-1A allozyme, indicative of paternal gene expression, were detected in 7 of 9 samples of 3 1/2-day compacted morula stage embryos and were seen in all 19 samples of 3 1/2-day blastocysts. In hybrid embryos, these allozymes were detected 1 day later. They were not detected in any 3 1/2-day samples (12 samples of compacted morulae) but were consistently detected at 4 1/2 days (4 samples of blastocysts and 2 samples of uncompacted morulae). Our interpretation of the results is that gene activation in hybrid embryos is stage-specific, rather than age-specific, and probably begins around the 8-cell stage, with detectable levels of enzyme accumulating later. Analysis of GPI-1 electrophoresis indicated that both the paternal (M. caroli) and maternal (M. musculus) Gpi-1s alleles were equally expressed in hybrid embryos and that the paternally derived allele was not activated before the maternally derived allele.     

Morphological demonstration of the failure of Mus caroli trophoblast in the Mus musculus uterus

A histological study of Mus caroli embryos gestating in the Mus musculus uterus was undertaken at Day 8.5 of gestation, 1 day after such embryos are reported to be normal and 1 day before the earliest events associated with death of the xenogeneic embryos. In comparison to control M. caroli embryos recovered from M. caroli and to control M. musculus embryos recovered from M. musculus, the xenogeneically transferred embryos showed intrauterine growth retardation that was associated with trophoblastic insufficiency. Trophoblast cell degeneration was observed, in the absence of lymphocytic infiltration. Therefore, loss of trophoblast cell function rather than lymphocyte-mediated destruction of trophoblast appears to underlie the death of M. caroli embryos in the M. musculus uterus.     

Expression of glucose phosphate isomerase in interspecific hybrid (Mus musculus × Mus caroli)

Hybrid Mus musculus × Mus caroli embryos were produced by inseminating M. musculus (C57BL/Ola Ws) females with M. caroli sperm. Control M. caroli embryos developed more rapidly than did control M. musculus embryos and implanted approximately 1 day earlier. At 1 1/2 days, both the hybrid embryos and those of the maternal species (M. musculus) had cleaved to the 2-cell stage. By 2 1/2 days some of the hybrids were retarded compared to M. musculus, and by 3½ days most were lagging behind. This is consistent with the idea that the rate of development of hybrid embryos declines once it becomes dependent on embryo-coded gene products. We have used this difference in rate of preim-plantation development, between hybrid and M. musculus embryos, to try to determine whether the activation of embryonic Gpi-1s genes, that encode glucose phosphate isomerase (GPI-1), is age-related or stage-related. In control M. musculus embryos (both mated and Al groups), the GPI-1AB and GPI-1A allozyme, indicative of paternal gene expression, were detected in 7 of 9 samples of 3 1/2-day compacted morula stage embryos and were seen in all 19 samples of 31/2-day blastocysts. In hybrid embryos, these allozymes were detected 1 day later. They were not detected in any 31/2-day samples (12 samples of compacted morulae) but were consistently detected at 4½ days (4 samples of blastocysts and 2 samples of uncompacted morulae). Our interpretation of the results is that gene activation in hybrid embryos is stage-specific, rather than age-specific, and probably begins around the 8-cell stage, with detectable levels of enzyme accumulating later. Analysis of GPI-1 elec-trophoresis indicated that both the paternal (M. caroli) and maternal (M. musculus) Gpi-1s alleles were equally expressed in hybrid embryos and that the paternally derived allele was not activated before the maternally derived allele. © 1992 Wiley-Liss, Inc.     

年龄对小家鼠筑巢的影响

为研究不同年龄组小家鼠筑巢能力的差异,分别采用24-h等级法和连续4d巢材获取重量法,对幼年组、亚成年组、成年组小家鼠筑巢能力进行了测定。结果表明:1)小家鼠在亚成年期已具备较强的筑巢能力;2)成年组与亚成年组小家鼠能够快速完成筑巢,24h即可筑成稳定的杯状巢,而幼年组未能筑成稳定巢;3)小家鼠雄性与雌性筑巢能力相当;4)连续4d巢材获取重量表现为成年组>亚成年组,这与两组间身体大小有关,而4d后两组间筑巢等级无显著差异。研究结果提示,不同年龄组的小家鼠均有较强的筑巢需求,筑巢能力基本形成于亚成年期。     

Genetic analysis of the hybridization zone between two subspecies Mus musculus domesticus and Mus musculus musculus in Bulgaria

The hybrid zone between the two subspecies of mice Mus musculus domesticus and Mus musculus musculus, which has been studied extensively in Denmark, crosses Europe to the Black Sea through the Alps and the Balkans. Two hundred and seventy-nine animals were captured in 22 localities along a transect across the Balkans. The animals were characterized for seven diagnostic nuclear loci by protein electrophoresis and by restriction pattern analysis of their mitochondrial DNA. The nuclear data show a sharp transition between the two subspecies, most of the variations in allele frequencies (from 0.9 to 0.1) occurring within a 36-km section of the transect. The introgression varies from one locus to the other and is more pronounced, in terms of distance, in M. m. musculus territory. Mitochondrial DNA introgression is important but occurs in one direction only, i.e. from M. m. musculus to M. m. domesticus, while a cytoplasmic transfer from M. m. domesticus to M. m. musculus has been reported. A previous study showed that no Y chromosome introgression occurs. The different behaviour of these three types of markers could be due to the interaction between selection against hybrid genomes and meiotic recombination. Objectively, it would appear that the genes that can introgress are neutral or nearly so and have been separated from deleterious genes they were linked to by recombination. This could explain the differential introgression between autosomal loci. The mitochondrial and Y chromosomes undergo no or very little recombination and each is transmitted as a whole. Their degree of introgression is thus indicative of the intensity of selection resulting from the amount of functional differentiation between the two taxa, which seems to be strong for the Y chromosome and weak for mitochondrial DNA. We propose that the asymmetry of nuclear introgression is due to different population structures. As M. m. musculus is relatively less structured, the rapid spreading of introgressed genes would be favoured. Such a scheme, however, can hardly account for the unidirectionality of the mitochondrial flow, which could be due to sex-dependent behaviour.     

Berberine improves the intestinal antioxidant status of laboratory mice,Mus musculus

Oral administration of berberine chloride to mice induced an obvious enhancement in jejunal health status as expressed by the significant reduction of apoptotic cells within the intestinal villi from 15.5 to 8.3 apoptotic cell/10 VCU. In addition, jejunal antioxidant biomarkers were significantly improved as revealed by the increase in the activities of catalase and glutathione peroxidase enzymes with a concurrent increase in reduced glutathione levels and total antioxidant capacity. Also, it was associated with a significant decrease in oxidative damage biomarkers of hydrogen peroxides, malondialdehyde, nitrite/nitrate, inducible nitric oxide synthase and protein carbonyl content. Moreover, BBR treatment induced a reduction in the pro-inflammatory cytokine, TNF-α by about 40%. It is highly recommended to use berberine as food supplements or as natural drug therapy to enhance the antioxidant status within the intestinal tissue.     

Mitochondrial DNA in the hybrid zone between Mus musculus musculus and Mus musculus domesticus: a comparison of two transects

We studied mtDNA introgression across the contact zone between Mus musculus musculus and M. m. domesticus in two independent transects in the Czech Republic and Bavaria, Germany. A total of 1270 mice from 98 localities in the Czech transect and 456 mice from 41 localities in the Bavarian transect were examined for presence or absence of a Bam HI restriction site in the mt-Nd1 gene. Using this simple mtDNA marker, variants that belonged to the M. m. domesticus lineage (presence of restriction site) could be unequivocally distinguished from those belonging to the M. m. musculus lineage (absence of restriction site). The extent of introgression of mtDNA, three autosomal allozymes and the X chromosome was compared. The introgression of X markers was more limited than was that of the allozymes and mtDNA. In the Czech transect, the centre for the mtDNA cline was shifted about 3.6 km to the west relative to the X chromosome cline, with asymmetric introgression from M. m. musculus to M. m. domesticus . Interestingly, in the Bavarian transect, the centre of the mtDNA cline was shifted about 10.9 km to the east relative to the X chromosome cline, with asymmetric introgression from M. m. domesticus to M. m. musculus, opposite in direction to that observed in the Czech transect.  © 2005 The Linnean Society of London, Biological Journal of the Linnean Society , 2005, 84 , 363–378.     

食物营养成分变化对卡氏小鼠和黄毛鼠摄食消化的影响

动物从环境中获取足够营养和能量的能力决定着其生存和繁殖。为探讨同域分布不同体型的鼠类对不同营养成分食物的摄食消化对策,以三种不同营养成分食物分别饲喂卡氏小鼠和黄毛鼠,在第10天和20天,以食物平衡法测定日摄食量、日粪便量、净摄入量和表观消化率。结果发现,在整个驯化过程中,两种鼠的不同食物组间体重无显著差异,表明均能够适应食物营养的变化维持收支平衡。在驯化第10天时,高蛋白组卡氏小鼠的日摄食量显著高于高淀粉组,但两组与普通组均无差异;高蛋白组卡氏小鼠的日粪便量显著高于高淀粉组和普通组;而净摄入量无组间差异;高淀粉组和普通组的表观消化率显著高于高蛋白组。至第20天时,三组动物日摄食量无差异;高蛋白组的日粪便量高于高淀粉组和普通组。黄毛鼠仅在第10天时高淀粉组和普通组表观消化率高于高蛋白组,三组黄毛鼠其他消化参数在第10天和第20天均无显著组间差异。结果表明,体型不同的鼠类因消化冗余能力的差异,面对相同的食物营养成分变化,会以不同的摄食消化策略调节适应。     

Genetic Heterogeneity in the Indian Mus musculus

This study deals with the characterization of 10populations of M. musculus from differentgeographical locations in India. The genetics of Indianwild mice has been completely obscure and this is thefirst report on allozyme variations in the naturalpopulation. We have used a set of 24 biochemical geneticmarkers to measure levels of diversity within and amongpopulations. The allelic frequency data indicate extreme genetic variability, which is furtherenhanced by the presence of novel alleles. Overall thespecies shows a high level of heterogenity. The highlypolymorphic central populations of M. musculus cannot be assigned to any one particularsubspecies. The allelic profiles, however, indicate agradual differentiation toward the castaneus andbatcrianus subspecies lineages.     

Gene amplification in a mouse embryo? Double minutes in cell lines independently derived from a Mus musculus x M. caroli fetus

Double minutes (DM) were found to be present in six of seven clones derived from a 16-day female Mus musculus x M. caroli fetus. The DM-positive clones derived from three primary populations independently set up from the fetus, and included clones with an active M. caroli X chromosome as well as clones with an active M. musculus X. The simplest explanation of these findings is that DM were already present in cells of the M. musculus x M. caroli embryo at the time of X chromosome inactivation and persisted during in vivo development and in vitro culture. This suggests that gene amplification occurred in the early embryo, or even the fertilized egg, perhaps because of interactions between components of germ cells contributed by the M. musculus and M. caroli parents. Alternatively, induction may have occurred independently in these lines, requiring that amplification is an unusually common occurrence in cells from interspecific hybrids.     

Extensive movement of LINES ONE sequences in beta-globin loci of Mus caroli and Mus domesticus.

LINES ONE (L1) is a family of movable DNA sequences found in mammals. To measure the rate of their movement, we have compared the positions of L1 elements within homologous genetic loci that are separated by known divergence times. Two models that predict different outcomes of this analysis have been proposed for the behavior of L1 sequences. (i) Previous theoretical studies of concerted evolution in L1 have indicated that the majority of the 100,000 extant L1 elements may have inserted as recently as within the last 3 million years. (ii) Gene conversion has been proposed as an alternative to a history of prolific recent insertions. To distinguish between these two models, we cloned and characterized two embryonic beta-globin haplotypes from Mus caroli and compared them with those of M. domesticus. In 9 of 10 instances, we observed an L1 element to be present in one chromosome and absent at the same site in a homologous chromosome. This frequency is quantitatively consistent with the known rate of concerted evolution. Therefore, we conclude that gene conversion is not required for concerted evolution of the L1 family in the mouse. Furthermore, we show that the extensive movement of L1 sequences contributes to restriction fragment length polymorphism. L1 insertions may be the predominant cause of restriction fragment length polymorphisms in closely related haplotypes.     

Polymorphism of esterase-10 in Mus musculus

An esterase, esterase-10, in the house mouse, Mus musculus, is specific for esters of 4-methylumbelliferone and exhibits a polymorphism detectable by electrophoresis. Fifteen inbred strains and two outbred strains have been examined for this polymorphism, and two phenotypes, ES-10A and ES-10B, have been observed. Each phenotype manifests itself as a single band of enzyme activity, but under the electrophoretic conditions used the ES-10A phenotype has less anodal electrophoretic mobility than the ES-10B phenotype. In F₁ hybrids (C3H/He/Lac×C57BL/Gr) a third phenotype was observed, ES-10AB, consisting of three bands of enzyme activity, two of which correspond to the parental forms and the third with intermediate mobility. The triple-band pattern in the F₁ hybrids indicates that esterase-10 is a dimeric enzyme protein.This work was supported by the Medical Research Council.