Reproduction of the House mouse (Mus musculus) in farm buildings

Live and kill traps were used to remove House mice living in granaries, mixed-food stores, dairy units and ancillary stores on farms. Structural weaknesses were common to all buildings. Cavities in walls, in particular, provided favourable living and nesting quarters for mice and were rapidly exploited. The body-weight structure and reproductive traits of the populations in the different habitats were compared. The onset of maturity, in both sexes, was closely related to body-weight increase in the 10 to 14 g range. Breeding, unlike that in most out-door populations in temperate climates, continued throughout the year. Ancillary buildings holding limited food supported small reservoir populations. Mice inhabiting dairy units containing pelleted cattle feed tended to be heavier than those sampled elsewhere and females in the units produced the largest litters. Reproductive performance on farms was intermediate between that of mice occupying urban buildings and corn ricks. There was evidence that environmental and behavioural factors were operating to limit increase in numbers in the dairy units.     

Ecological genetics of an island population of the House mouse (Mus musculus)

The House mouse ( Mus musculus L.) population on the small Welsh island of Skokholm was founded in the 1890s when a few animals were inadvertently introduced. It has thrived ever since. The animals breed from late March to early October, during which time the population increases 8–10 fold. Winter survival is related to temperature: the spring population can be as low as 100 individuals after a cold winter; if the winter is warm, so many animals survive that high numbers may occur in the following autumn. There are no resident predators of the mice, and no other small mammals on the island.
The population was sampled on 20 occasions between 1957 and 1972, and genetical changes measured by the incidences of non-metrical skeletal variants (which describe a substantial proportion of the genome) and (from 1968–72) by allele and genotype frequencies of electrophoretically detected genes. Two sorts of changes occurred: an irregular but increasing deviation from the genetical composition of the population at the beginning of the study period, and an annual cycle with frequencies changing in one direction during the breeding season and the opposite direction in the winter. Samples collected in the autumn were more similar to each other than spring caught samples, which conforms with independent evidence about the differing environmental contributors to death in different winters, as compared with general homogeneity of mortality factors during the summers. It is concluded that the genetical composition of the population is largely dependent on natural selection, although the agents and intensity of selection change with both seasons and years.     

The inheritance of patterns of metameric variation in the mouse (Mus musculus) vertebral column

In this paper, we examine the patterns of metameric variation shown by different dimensions of vertebrae from the mouse vertebral column. We examine differences in metameric variation between variables within an inbred strain and compare patterns of metameric variation between inbred strains and between inbred strains and their F₁ S. We make both visual and numerical comparisons, the latter being based upon a novel application of Fourier analysis. Comparisons between dimensions within a strain reveal two distinct patterns of metameric variation within the column. The first, shown only by the antero-posterior (dorso-ventral) diameter of the neural canal, is relatively simple: dimensions become progressively smaller caudally. The second is more complex, with two peaks, and appears more closely related to somatic structures. The second pattern may be modified according to the temporal pattern of development of different vertebral elements. Comparisons between mouse strains suggest that those variables which complete growth early, and which preserve the basic patterns of metameric variation in a relatively unmodified form, are best suited to discriminating between inbred strains. The F_l S between inbred strains show patterns of metameric variation which in some cases are more like those of one parental strain and in others more like those of the other parental strain. We consider the significance of these findings in relation to further studies of mammalian vertebral column genetics, development and evolution.     

Biochemical markers of three strains derived from Japanese wild mouse (Mus musculus molossinus)

Twenty-eight biochemical markers were examined in three strains (Mol-A, Mol-N and Mol-T) derived from the Japanese wild mouse, Mus musculus molossinus, as well as five laboratory strains, Mus musculus musculus. The Mol strains showed specific alleles at as many as 12 loci. These findings emphasize that the Mol strains have significance in future genetic and developmental studies.     

Motivational and Heritable Determinants of Dispersal Latency in Wild Male House Mice (Mus musculus musculus)

Divergence of dispersal regimens has been suggested to be the selective basis for the evolutionary differentiation of agonistic phenotypes found in natural populations of house mice. Dispersal propensity may, therefore, be expected to exhibit heritable variation in wild house mice, ultimately related to motivational differences causing observable differences in agonistic behaviour. To test for heritable components in dispersal propensity in wild house mice, father–offspring regressions of dispersal latencies from residential social groups were determined in standardized seminatural social settings. To evaluate potential motivational causes of phenotypic variation in dispersal behaviour, all test animals (fathers, sons, and daughters) were scored prior to the dispersal experiment in a standardized behavioural test, at 60 d of age. Activities were monitored in a 1 m² square test arena during 10‐min observation periods. Test arenas exhibited four equidistant openings leading to cages containing fresh, own, sibling, or foreign bedding material. The apparatus allowed for scoring anxiety, exploratory activity, and kin preference. Subsequently, test animals were exposed to a resident population in a semi‐natural enclosure providing a dispersal opportunity. Father–son regressions of dispersal latencies were significantly positive, but no significant relationship was found for daughters. Dispersal latency decreased with increasing exploratory activity scores in males, but increased in females. Anxiety as well as kin preferences did not affect dispersal propensity. Hence sex‐linked, motivational components reflect heritable social behaviour variation in male house mice that may ultimately be caused by diverging dispersal regimens.     

Genomic copy number variation in Mus musculus

Background

Copy number variation is an important dimension of genetic diversity and has implications in development and disease. As an important model organism, the mouse is a prime candidate for copy number variant (CNV) characterization, but this has yet to be completed for a large sample size. Here we report CNV analysis of publicly available, high-density microarray data files for 351 mouse tail samples, including 290 mice that had not been characterized for CNVs previously.

Results

We found 9634 putative autosomal CNVs across the samples affecting 6.87 % of the mouse reference genome. We find significant differences in the degree of CNV uniqueness (single sample occurrence) and the nature of CNV-gene overlap between wild-caught mice and classical laboratory strains. CNV-gene overlap was associated with lipid metabolism, pheromone response and olfaction compared to immunity, carbohydrate metabolism and amino-acid metabolism for wild-caught mice and classical laboratory strains, respectively. Using two subspecies of wild-caught Mus musculus, we identified putative CNVs unique to those subspecies and show this diversity is better captured by wild-derived laboratory strains than by the classical laboratory strains. A total of 9 genic copy number variable regions (CNVRs) were selected for experimental confirmation by droplet digital PCR (ddPCR).

Conclusion

The analysis we present is a comprehensive, genome-wide analysis of CNVs in Mus musculus, which increases the number of known variants in the species and will accelerate the identification of novel variants in future studies.

Electronic supplementary material

The online version of this article (doi:10.1186/s12864-015-1713-z) contains supplementary material, which is available to authorized users.     

Genetic differentiation and habitat partition of Robertsonian house mouse populations (Mus musculus domesticus) of Tunisia

The karyological analysis of Tunisian populations of house mice revealed the existence of a Robertsonian (Rb) chromosomal race carrying nine pairs of metacentric chromosomes in central Tunisia. Divergence estimates showed that they are genetically differentiated from local all-acrocentric populations and have a reduced level of genic variability. The Rb populations are restricted to urban habitats, whereas all-acrocentric populations occur in rural areas. Contact zones between these two types of habitat yield chromosomally polymorphic populations. Analysis of gene flow indicates that it is reduced and limited to populations bordering the contact areas. The reduced genic variability and patchy distribution exhibited by the Tunisian Rb mice do not agree with results from previous studies of the European Rb populations. Two hypotheses are presented to account for this discrepancy based on local differentiation versus introduction of the Tunisian Rb race.     

Genic differentiation and origin of Robertsonian populations of the house mouse (Mus musculus domesticus Rutty)

This paper examines the relation between chromosomal and nuclear-gene divergence in 28 wild populations of the house mouse semi-species, Mus musculus domesticus, in Western Europe and North Africa. Besides describing the karyotypes of 15 of these populations and comparing them to those of 13 populations for which such information was already known, it reports the results of an electrophoretic survey of proteins encoded by 34 nuclear loci in all 28 populations. Karyotypic variation in this taxon involves only centric (or Robertsonian) fusions which often differ in arm combination and number between chromosomal races. The electrophoretic analysis showed that the amount of genic variation within Robertsonian (Rb) populations was similar to that for all-acrocentric populations, i.e. bearing the standard karyotype. Moreover, divergence between the two types of populations was extremely low. These results imply that centric fusions in mice have not modified either the level or the nature of genic variability. The genetic similarity between Rb and all-acrocentric populations is not attributed to the persistence of gene flow, since multiple fusions cause marked reproductive isolation. Rather, we attribute this extreme similarity to the very recent origin of chromosomal races in Europe. Furthermore, genic diversity measures suggest that geographically separated Rb populations have in situ and independent origins. Thus, Rb translocations are probably not unique events, but originated repeatedly. Two models are presented to explain how the rapid fixation of a series of chromosomal rearrangements can occur in a population without lowering variability in the nuclear genes. The first model assumes that chromosomal mutation rates are between 10(-3) and 10(-4) and that populations underwent a series of transient bottlenecks in which the effective population size did not fall below 35. In the second model, genic variability is restored following severe bottlenecks, through gene flow and recombination.     

Spontaneous thyroid follicular adenoma in a laboratory mouse (Mus musculus)

Spontaneous thyroid micro-follicular adenoma was found in an 18-month-old nursing Swiss albino mouse. The lesion was first noted as a tiny bulge at the base of the neck. The tumor was solid, and within two months, had grown such an enormous size that movement, feeding and suckling of the litter were greatly hampered. The litter of seven mice later died due to improper nursing while their mother remained generally unaffected by the mass.     

Selection in natural populations. IV. British housemice (Mus musculus)

In a number of populations of semi-commensal housemice in England and Wales, the older individuals are on the average larger and more variable in molar width than the younger individuals of the same populations. Several environmental variables have been shown to be unimportant with respect to these within-population differences, and it therefore seems likely that the differences in this age-invariant character are due to directional and destabilizing natural selection. The mean selection intensity is about 0.21 on the variance and about 0.09 on the mean. There is heterogeneity among populations, but not between sexes, in this selection; the amount of selection on at least the mean is related to the kind of food eaten. This selection is absent on an island off Wales, but there a discrete dental polymorphism present in 1957 was lost after a severe reduction in population size in 1959.     

Natural selection in House mice (Mus musculus) from South Georgia (South Atlantic Ocean)

Mice living in tussock grass on a remote headland of the South Atlantic island of South Georgia (54°S) where the mean temperature is less than 2°C and the monthly average below 0°C for four months each year have been studied. They are big animals (although not as large as those on some North Atlantic islands) and have much brown fat, showing their response to their cold environment. Only two out of 27 gene loci scored electrophoretically were segregating (3·4% heterozygosity); these ( Es-6, Got-2 ) are four cross-over units apart on chromosome 8, and were in strong linkage disequilibrium. There were marked changes in allele frequencies with age which go in opposite directions in males and females, showing the action of stabilizing selection: Es-6 ^a increased from 16% in males of less than three months, to 35% in older animals; it declined in females from 36 to 19%.     

Geometric morphometrics on Greek house mouse populations (Mus musculus domesticus) with Robertsonian and all-acrocentric chromosomal arrangements

This work aims to give the first comprehensive morphometric analysis of intraspecific variation for the different populations of the western house mouse (Mus musculus domesticus), in the Robertsonian (Rb) system of the N-NW Peloponnisos. Furthermore, we study all-acrocentric karyotype populations (2n = 40) of the species coming from several localities of Greece. We apply 2D shape analysis, i.e. landmark analysis and Elliptic Fourier Analysis, on the dorsal and ventral side of skull and the occlusal view of the first upper molar (M¹), respectively. Although significant genetic divergence between typical and Rb populations and even ongoing speciation processes have been reported for this species, this was not the case for the Greek populations studied. However, our analyses herein reveal morphologically differentiated chromosome groups in N-NW Peloponnisos Rb system and a clear geographical discrimination of the all-acrocentric (2n = 40) populations for all characters studied. We suggest that in all-acrocentric (2n = 40) karyotype mice the geographical distance drives their differentiation while within the Rb system of N-NW Peloponnisos, karyotype is the key factor that acts on their phenotypic variation.     

New Robertsonian populations of the house mouse (Mus musculus domesticus) from north of the Alps]

New Robertsonian (Rb) populations of the house mouse (Mus musculus domesticus) carrying different combinations of centric fusions are reported in France, Switzerland, and Germany. In Alsace (France), the diploid number varied from 2n = 38 to 34; four fusions were present, with Rb(4.12) homozygous in all populations whereas Rb(5.10), Rb(5.7), or Rb(10.14) were found to be segregating. In Switzerland, only all-acrocentric mice (2n = 40) were present in Bern while Rb(5.7) and Rb(9.16) occurred in Basel. In the Konstanz locality from southern Germany, all the mice were homozygous for nine Rb fusions: Rb(1.18), Rb(2.5), Rb(3.6), Rb(4.12), Rb(7.15), Rb(8.17), Rb(9.14), Rb(10.11), and Rb(13.16). The phylogenetic relationship of these new Rb populations with those already known is discussed.     

Patterns of infection by Salmonella and Yersinia spp. in commensal house mouse (Mus musculus domesticus) populations

AIMS: This study sought to examine the risk posed by house mice transmitting pathogens to livestock on typical mixed-agriculture farms in the UK. METHODS AND RESULTS: In a 10-month longitudinal study at one farm, 222 faecal samples were taken from mice and 57 swabs from the farm environment; 3.2% and 15.8%, respectively, were positive for Yersinia. Seventy-five intestinal samples were taken from house mice from three other farms and 9.3% were positive for Yersinia. The commonest species was Y. enterocolitica (of a wide range of serotypes); all isolates were non-pathogenic, except one of Y. pseudotuberculosis. Salmonella was not isolated from any sample. CONCLUSION: This study provides additional evidence that house mice are generally not significant vectors of either pathogenic Yersinia strains or Salmonella species. SIGNIFICANCE AND IMPACT OF THE STUDY: This is the first longitudinal study of Yersinia in any small mammal population, and shows infection to be a dynamic series of generally non-pathogenic, transient infections.