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4. Widespread introgression of theMus musculus musculusY chromosome in Central Europe

Author

Iva Martincová, Macholán M, Ďureje Ľ, Fornůsková A, Piálek J, Baird Sje, Rubík P, and Emanuel Heitlinger

Subjects
0106 biological sciences, 0303 health sciences, 03 medical and health sciences, Chromosome (genetic algorithm), Evolutionary biology, Introgression, 14. Life underwater, Biology, 010603 evolutionary biology, 01 natural sciences, 030304 developmental biology
Abstract

According to Haldane’s rule, sex chromosomes should harbour more incompatibilities than autosomes. As a consequence, transmission of sex-linked genes across a genetic barrier is expected to be hampered. A remarkable example of a contradiction of this assumption was reported from the hybrid zone between two house mouse subspecies in western Czechia and south-eastern Germany where unidirectional east→west Y chromosome introgression was observed. Since the phenomenon was coupled with differences in sex ratio, this was hypothesised to be caused by a genetic conflict between sex-specific genes on sex chromosomes or elsewhere in the genome. Here we capitalise on a large material consisting of almost 7500 mice collected across a vast area from the Baltic Sea to the Alps embracing a ~900 km long portion of the zone with the aim to (i) detect its exact course and (ii) reveal the extent and pattern of the Y chromosome introgression in Central Europe. We show that the path of the zone is quite tortuous even at the global scale and the introgression is rather a rule than an exception. We also show that although sex ratio perturbations described in our previous study appear also in other introgression areas, they may not be ubiquitous. Finally, we reveal that although not all Y chromosome types are associated with the introgression, it is not restricted to a single ‘winning’ haplotype.

Published
2019

6. Large-scale genetic analysis reveals mammalian mtDNA heteroplasmy dynamics and variance increase through lifetimes and generations

Author

Burgstaller, J, Kolbe, T, Havlicek, V, Hembach, S, Poulton, J, Piálek, J, Steinborn, R, Rülicke, T, Brem, G, Jones, N, Johnston, I, Medical Research Council (MRC), and Engineering & Physical Science Research Council (EPSRC)

Subjects
SELECTION, DNA Copy Number Variations, TRANSMISSION, Science, Datasets as Topic, DNA, Mitochondrial, DISEASE, Article, Mice, MD Multidisciplinary, RAPID SEGREGATION, Animals, lcsh:Science, GERM-LINE, Science & Technology, Age Factors, EVOLUTION, Mitochondria, Multidisciplinary Sciences, MITOCHONDRIAL-DNA HETEROPLASMY, Mice, Inbred C57BL, DRIFT, EXPLAINS, Haplotypes, BOTTLENECK, Genome, Mitochondrial, Models, Animal, Oocytes, Science & Technology - Other Topics, lcsh:Q, Female
Abstract

Vital mitochondrial DNA (mtDNA) populations exist in cells and may consist of heteroplasmic mixtures of mtDNA types. The evolution of these heteroplasmic populations through development, ageing, and generations is central to genetic diseases, but is poorly understood in mammals. Here we dissect these population dynamics using a dataset of unprecedented size and temporal span, comprising 1947 single-cell oocyte and 899 somatic measurements of heteroplasmy change throughout lifetimes and generations in two genetically distinct mouse models. We provide a novel and detailed quantitative characterisation of the linear increase in heteroplasmy variance throughout mammalian life courses in oocytes and pups. We find that differences in mean heteroplasmy are induced between generations, and the heteroplasmy of germline and somatic precursors diverge early in development, with a haplotype-specific direction of segregation. We develop stochastic theory predicting the implications of these dynamics for ageing and disease manifestation and discuss its application to human mtDNA dynamics., Mitochondrial populations in cells may consist of heteroplasmic mixtures of mtDNA types, and their evolution through development, aging and generations is central to genetic diseases. Here the authors dissect these population dynamics using a large mouse-based data set to characterise the dynamics of heteroplasmy mean and variance throughout life and across generations.

Published
2017

11. Comparative cytogenetics of hamsters of the genus Calomyscus

Author

Graphodatsky, A.S., primary, Sablina, O.V., additional, Meyer, M.N., additional, Malikov, V.G., additional, Isakova, E.A., additional, Trifonov, V.A., additional, Polyakov, A.V., additional, Lushnikova, T.P., additional, Vorobieva, N.V., additional, Serdyukova, N.A., additional, Perelman, P.L., additional, Borodin, P.M., additional, Benda, P., additional, Frynta, D., additional, Leikepová, L., additional, Munclinger, P., additional, Piálek, J., additional, Sádlová, J., additional, and Zima, J., additional

Published
2000
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12. Genetic structure and contrasting selection pattern at two major histocompatibility complex genes in wild house mouse populations.

Author

Čížková, D, de Bellocq, J. Gouy, Baird, S. J. E., Piálek, J., and Bryja, J.

Subjects
MAJOR histocompatibility complex, POLYMORPHISM (Zoology), EVOLUTIONARY theories, GENE frequency, MICE
Abstract

The mammalian major histocompatibility complex (MHC) is a tightly linked cluster of immune genes, and is often thought of as inherited as a unit. This has led to the hope that studying a single MHC gene will reveal patterns of evolution representative of the MHC as a whole. In this study we analyse a 1000-km transect of MHC variation traversing the European house mouse hybrid zone to compare signals of selection and patterns of diversification at two closely linked MHC class II genes, H-2Aa and H-2Eb. We show that although they are 0.01 cM apart (that is, recombination is expected only once in 10 000 meioses), disparate evolutionary patterns were detected. H-2Aa shows higher allelic polymorphism, faster allelic turnover due to higher mutation rates, stronger positive selection at antigen-binding sites and higher population structuring than H-2Eb. H-2Eb alleles are maintained in the gene pool for longer, including over separation of the subspecies, some H-2Eb alleles are positively and others negatively selected and some of the alleles are not expressed. We conclude that studies on MHC genes in wild-living vertebrates can give substantially different results depending on the MHC gene examined and that the level of polymorphism in a related species is a poor criterion for gene choice. [ABSTRACT FROM AUTHOR]

Published
2011
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13. Comparative cytogenetics of hamsters of the genus Calomyscus.

Author

Graphodatsky, A.S., Sablina, O.V., Meyer, M.N., Maiikov, V.G., Isakova, E.A., Trifonov, V.A., Polyakov, A.V., Lushnikova, T.P., Vorobieva, N.V., Serdyukova, N.A., Perelman, P.L., Borodin, P.M., Benda, P., Frynta, D., Leikepová, L., Munclinger, P., Piálek, J., Sádlová, J., and Zima, J.

Subjects
CYTOGENETICS, GENETICS, HAMSTERS, CHROMOSOME banding, MEIOSIS, IN situ hybridization
Abstract

Karyotypes of Calomyscus from different regions of Turkmenistan, Iran, and Azerbaijan were studied using chromosome banding (G- and C-banding) and analyses of meiosis in laboratory hybrids. Extensive variation in the diploid number and the number of autosomal arms (FNa) was revealed (2n = 30, FNa = 44; 2n = 32, FNa = 42; 2n = 44, FNa = 46; 2n = 44, FNa = 58; 2n = 37, FNa = 44; 2n = 50, FNa = 50; 2n = 52, FNa = 56). Centric and tandem fusions and heterochromatin changes were identified as the major modes of karyotype evolution in this group. Natural hybrids between individuals with different karyotypes were recorded, and regular chromosome pairing in meiosis was observed in laboratory hybrids. Fluorescence in situ hybridization with a 353-bp Bsp RI complex tandem repeat indicated that chromosomal repatterning occurred recently within the genus. There is no unequivocal evidence suggesting the role of chromosomal change in the speciation of the populations of Calomyscus examined. Copyright © 2000 S. Karger AG, Basel [ABSTRACT FROM AUTHOR]

Published
2000
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15. Comparative cytogenetics of hamsters of the genus Calomyscus

Author

Graphodatsky, A. S., Sablina, O. V., Meyer, M. N., Malikov, V. G., Isakova, E. A., Trifonov, V. A., Polyakov, A. V., Lushnikova, T. P., Vorobieva, N. V., Serdyukova, N. A., Perelman, P. L., Borodin, P. M., Benda, P., Frynta, D., Leikepová, L., Pavel Munclinger, Piálek, J., Sádlová, J., and Zima, J.

17. Genetic conflict outweighs heterogametic incompatibility in the mouse hybrid zone?

Author

Dufková Petra, Munclinger Pavel, Baird Stuart JE, Macholán Miloš, Bímová Barbora, and Piálek Jaroslav

Subjects
Evolution, QH359-425
Abstract

Abstract Background The Mus musculus musculus/M. m. domesticus contact zone in Europe is characterised by sharp frequency discontinuities for sex chromosome markers at the centre of wider clines in allozyme frequencies. Results We identify a triangular area (approximately 330 km2) where the musculus Y chromosome introgresses across this front for up to 22 km into domesticus territory. Introgression of the Y chromosome is accompanied by a perturbation of the census sex ratio: the sex ratio is significantly female biased in musculus localities and domesticus localities lacking Y chromosome introgression. In contrast, where the musculus Y is detected in domesticus localities, the sex ratio is close to parity, and significantly different from both classes of female biased localities. The geographic position of an abrupt cline in an X chromosome marker, and autosomal clines centred on the same position, seem unaffected by the musculus Y introgression. Conclusion We conclude that sex ratio distortion is playing a role in the geographic separation of speciation genes in this section of the mouse hybrid zone. We suggest that clines for genes involved in sex-ratio distortion have escaped from the centre of the mouse hybrid zone, causing a decay in the barrier to gene flow between the two house mouse taxa.

Published
2008
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19. The strength of gut microbiota transfer along social networks and genealogical lineages in the house mouse.

Author

Bendová B, Bímová BV, Čížková D, Daniszová K, Ďureje Ľ, Hiadlovská Z, Macholán M, Piálek J, Schmiedová L, and Kreisinger J

Subjects
Animals, Mice, Female, Male, Microsatellite Repeats, Bacteria genetics, Bacteria classification, Bacteria isolation & purification, Gastrointestinal Microbiome genetics, RNA, Ribosomal, 16S genetics
Abstract

The gut microbiota of vertebrates is acquired from the environment and other individuals, including parents and unrelated conspecifics. In the laboratory mouse, a key animal model, inter-individual interactions are severely limited and its gut microbiota is abnormal. Surprisingly, our understanding of how inter-individual transmission impacts house mouse gut microbiota is solely derived from laboratory experiments. We investigated the effects of inter-individual transmission on gut microbiota in two subspecies of house mice (Mus musculus musculus and M. m. domesticus) raised in a semi-natural environment without social or mating restrictions. We assessed the correlation between microbiota composition (16S rRNA profiles), social contact intensity (microtransponder-based social networks), and mouse relatedness (microsatellite-based pedigrees). Inter-individual transmission had a greater impact on the lower gut (colon and cecum) than on the small intestine (ileum). In the lower gut, relatedness and social contact independently influenced microbiota similarity. Despite female-biased parental care, both parents exerted a similar influence on their offspring's microbiota, diminishing with the offspring's age in adulthood. Inter-individual transmission was more pronounced in M. m. domesticus, a subspecies, with a social and reproductive network divided into more closed modules. This suggests that the transmission magnitude depends on the social and genetic structure of the studied population., (© The Author(s) 2024. Published by Oxford University Press on behalf of FEMS.)

Published
2024
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20. Aberrant microbiomes are associated with increased antibiotic resistance gene load in hybrid mice.

Author

Jarquín-Díaz VH, Ferreira SCM, Balard A, Ďureje Ľ, Macholán M, Piálek J, Bengtsson-Palme J, Kramer-Schadt S, Forslund-Startceva SK, and Heitlinger E

Abstract

Antibiotic resistance is a priority public health problem resulting from eco-evolutionary dynamics within microbial communities and their interaction at a mammalian host interface or geographical scale. The links between mammalian host genetics, bacterial gut community, and antimicrobial resistance gene (ARG) content must be better understood in natural populations inhabiting heterogeneous environments. Hybridization, the interbreeding of genetically divergent populations, influences different components of the gut microbial communities. However, its impact on bacterial traits such as antibiotic resistance is unknown. Here, we present that hybridization might shape bacterial communities and ARG occurrence. We used amplicon sequencing to study the gut microbiome and to predict ARG composition in natural populations of house mice ( Mus musculus ). We compared gastrointestinal bacterial and ARG diversity, composition, and abundance across a gradient of pure and hybrid genotypes in the European House Mouse Hybrid Zone. We observed an increased overall predicted richness of ARG in hybrid mice. We found bacteria-ARG interactions by their co-abundance and detected phenotypes of extreme abundances in hybrid mice at the level of specific bacterial taxa and ARGs, mainly multidrug resistance genes. Our work suggests that mammalian host genetic variation impacts the gut microbiome and chromosomal ARGs. However, it raises further questions on how the mammalian host genetics impact ARGs via microbiome dynamics or environmental covariates., Competing Interests: The authors declare there are any competing financial interests concerning the work., (© The Author(s) 2024. Published by Oxford University Press on behalf of the International Society for Microbial Ecology.)

Published
2024
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21. Convergence of gut phage communities but not bacterial communities following wild mouse bacteriophage transplantation into captive house mice.

Author

Čížková D, Payne P, Bryjová A, Ďureje Ľ, Piálek J, and Kreisinger J

Subjects
Animals, Mice, Bacteria classification, Bacteria virology, Bacteria genetics, Bacteria isolation & purification, Animals, Wild microbiology, Specific Pathogen-Free Organisms, Feces microbiology, Feces virology, Female, Virome, Gastrointestinal Microbiome, Bacteriophages isolation & purification, Bacteriophages genetics, Bacteriophages physiology
Abstract

Bacteriophages are abundant components of vertebrate gut microbial communities, impacting bacteriome dynamics, evolution, and directly interacting with the superhost. However, knowledge about gut phageomes and their interaction with bacteriomes in vertebrates under natural conditions is limited to humans and non-human primates. Widely used specific-pathogen-free (SPF) mouse models of host-microbiota interactions have altered gut bacteriomes compared to wild mice, and data on phageomes from wild or other non-SPF mice are lacking. We demonstrate divergent gut phageomes and bacteriomes in wild and captive non-SPF mice, with wild mice phageomes exhibiting higher alpha-diversity and interindividual variability. In both groups, phageome and bacteriome structuring mirrored each other, correlating at the individual level. Re-analysis of previous data from phageomes of SPF mice revealed their enrichment in Suoliviridae crAss-like phages compared to our non-SPF mice. Disrupted bacteriomes in mouse models can be treated by transplanting healthy phageomes, but the effects of phageome transplants on healthy adult gut microbiota are still unknown. We show that experimental transplantation of phageomes from wild to captive mice did not cause major shifts in recipient phageomes. However, the convergence of recipient-to-donor phageomes confirmed that wild phages can integrate into recipient communities. The differences in the subset of integrated phages between the two recipient mouse strains illustrate the context-dependent effects of phage transplantation. The transplantation did not impact recipient gut bacteriomes. This resilience of healthy adult gut microbiomes to the intervention has implications for phage allotransplantation safety., (© The Author(s) 2024. Published by Oxford University Press on behalf of the International Society for Microbial Ecology.)

Published
2024
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22. The effect of host admixture on wild house mouse gut microbiota is weak when accounting for spatial autocorrelation.

Author

Čížková D, Schmiedová L, Kváč M, Sak B, Macholán M, Piálek J, and Kreisinger J

Subjects
Mice, Animals, Biological Evolution, Reproductive Isolation, Gastrointestinal Microbiome genetics, Microbiota
Abstract

The question of how interactions between the gut microbiome and vertebrate hosts contribute to host adaptation and speciation is one of the major problems in current evolutionary research. Using bacteriome and mycobiome metabarcoding, we examined how these two components of the gut microbiota vary with the degree of host admixture in secondary contact between two house mouse subspecies (Mus musculus musculus and M. m. domesticus). We used a large data set collected at two replicates of the hybrid zone and model-based statistical analyses to ensure the robustness of our results. Assuming that the microbiota of wild hosts suffers from spatial autocorrelation, we directly compared the results of statistical models that were spatially naive with those that accounted for spatial autocorrelation. We showed that neglecting spatial autocorrelation can strongly affect the results and lead to misleading conclusions. The spatial analyses showed little difference between subspecies, both in microbiome composition and in individual bacterial lineages. Similarly, the degree of admixture had minimal effects on the gut bacteriome and mycobiome and was caused by changes in a few microbial lineages that correspond to the common symbionts of free-living house mice. In contrast to previous studies, these data do not support the hypothesis that the microbiota plays an important role in host reproductive isolation in this particular model system., (© 2023 The Authors. Molecular Ecology published by John Wiley & Sons Ltd.)

Published
2024
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23. A gene copy number arms race in action: X,Y-chromosome transmission distortion across a species barrier.

Author

Baird SJE, Hiadlovská Z, Daniszová K, Piálek J, and Macholán M

Subjects
Mice, Animals, Male, Spermatozoa physiology, Gene Dosage, Europe, Semen, Y Chromosome genetics
Abstract

A remarkable gene copy number (CN) arms race system has recently been described in laboratory mice, where Slx;Slxl1 and Sly genes compete over transmission by altering the fertilization success of X and Y chromosome-bearing sperm, respectively. Here, we focus on this system in nature, where natural selection can counter CN/gene product escalation. Our model is house mouse subspecies hybridizing in Europe. In some regions, Y chromosomes of the Eastern subspecies have introgressed onto Western genomic backgrounds, accompanied by sex ratio distortion in favor of males, consistent with the inbred lines suggested mechanism: Overabundance of SLY protein expressed by invading Y chromosomes. We take Slx as representative of the X side of this arms race and measure Slx|Sly CN and expression across an "Invasion" transect where Ys introgress and a "Control" transect with negligible introgression. Since we found similar Slx|Sly ratios in both transects, SLY overabundance is unlikely to explain the introgression. However, Slx CN is relatively low in the introgression area, suggesting that Slx is less able to combat Sly effects here. Furthermore, deterministic changes in Slx;Sly expression proportions versus CN proportions suggest standing variation for trans regulation of Slx|Sly is being co-opted in nature where their arms race reduces population fitness., (© The Author(s) 2023. Published by Oxford University Press on behalf of The Society for the Study of Evolution (SSE). All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.)

Published
2023
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24. Variation in mouse chemical signals is genetically controlled and environmentally modulated.

Author

Stopková R, Matějková T, Dodoková A, Talacko P, Zacek P, Sedlacek R, Piálek J, and Stopka P

Subjects
Male, Female, Mice, Animals, Cues, Signal Transduction, Genetic Variation, Mammals, Proteomics, Proteins
Abstract

In most mammals and particularly in mice, chemical communication relies on the detection of ethologically relevant fitness-related cues from other individuals. In mice, urine is the primary source of these signals, so we employed proteomics and metabolomics to identify key components of chemical signalling. We show that there is a correspondence between urinary volatiles and proteins in the representation of genetic background, sex and environment in two house mouse subspecies Mus musculus musculus and M. m. domesticus. We found that environment has a strong influence upon proteomic and metabolomic variation and that volatile mixtures better represent males while females have surprisingly more sex-biased proteins. Using machine learning and combined-omics techniques, we identified mixtures of metabolites and proteins that are associated with biological features., (© 2023. The Author(s).)

Published
2023
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25. Whole-genome sequencing reveals the genetic mechanisms of domestication in classical inbred mice.

Author

Liu M, Yu C, Zhang Z, Song M, Sun X, Piálek J, Jacob J, Lu J, Cong L, Zhang H, Wang Y, Li G, Feng Z, Du Z, Wang M, Wan X, Wang D, Wang YL, Li H, Wang Z, Zhang B, and Zhang Z

Subjects
Animals, Mice, Nucleotides, Phenotype, Selection, Genetic, Whole Genome Sequencing, Domestication, Genome
Abstract

Background: The laboratory mouse was domesticated from the wild house mouse. Understanding the genetics underlying domestication in laboratory mice, especially in the widely used classical inbred mice, is vital for studies using mouse models. However, the genetic mechanism of laboratory mouse domestication remains unknown due to lack of adequate genomic sequences of wild mice., Results: We analyze the genetic relationships by whole-genome resequencing of 36 wild mice and 36 inbred strains. All classical inbred mice cluster together distinctly from wild and wild-derived inbred mice. Using nucleotide diversity analysis, Fst, and XP-CLR, we identify 339 positively selected genes that are closely associated with nervous system function. Approximately one third of these positively selected genes are highly expressed in brain tissues, and genetic mouse models of 125 genes in the positively selected genes exhibit abnormal behavioral or nervous system phenotypes. These positively selected genes show a higher ratio of differential expression between wild and classical inbred mice compared with all genes, especially in the hippocampus and frontal lobe. Using a mutant mouse model, we find that the SNP rs27900929 (T>C) in gene Astn2 significantly reduces the tameness of mice and modifies the ratio of the two Astn2 (a/b) isoforms., Conclusion: Our study indicates that classical inbred mice experienced high selection pressure during domestication under laboratory conditions. The analysis shows the positively selected genes are closely associated with behavior and the nervous system in mice. Tameness may be related to the Astn2 mutation and regulated by the ratio of the two Astn2 (a/b) isoforms., (© 2022. The Author(s).)

Published
2022
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26. Divergent gut microbiota in two closely related house mouse subspecies under common garden conditions.

Author

Bendová B, Mikula O, Vošlajerová Bímová B, Čížková D, Daniszová K, Ďureje Ľ, Hiadlovská Z, Macholán M, Martin JF, Piálek J, Schmiedová L, and Kreisinger J

Subjects
Animals, Host Microbial Interactions, Mice, RNA, Ribosomal, 16S genetics, Gastrointestinal Microbiome
Abstract

The gastrointestinal microbiota (GM) is considered an important component of the vertebrate holobiont. GM-host interactions influence the fitness of holobionts and are, therefore, an integral part of evolution. The house mouse is a prominent model for GM-host interactions, and evidence suggests a role for GM in mouse speciation. However, previous studies based on short 16S rRNA GM profiles of wild house mouse subspecies failed to detect GM divergence, which is a prerequisite for the inclusion of GM in Dobzhansky-Muller incompatibilities. Here, we used standard 16S rRNA GM profiling in two mouse subspecies, Mus musculus musculus and M. m. domesticus, including the intestinal mucosa and content of three gut sections (ileum, caecum, and colon). We reduced environmental variability by sampling GM in the offspring of wild mice bred under seminatural conditions. Although the breeding conditions allowed a contact between the subspecies, we found a clear differentiation of GM between them, in all three gut sections. Differentiation was mainly driven by several Helicobacters and two H. ganmani variants showed a signal of codivergence with their hosts. Helicobacters represent promising candidates for studying GM-host coadaptations and the fitness effects of their interactions., (© The Author(s) 2022. Published by Oxford University Press on behalf of FEMS.)

Published
2022
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27. New Perspective on the Geographic Distribution and Evolution of Lymphocytic Choriomeningitis Virus, Central Europe.

Author

Fornůsková A, Hiadlovská Z, Macholán M, Piálek J, and de Bellocq JG

Subjects
Animals, Europe epidemiology, Genome, Lymphocytic choriomeningitis virus genetics, Mice, Phylogeny, Lymphocytic Choriomeningitis epidemiology, Rodent Diseases
Abstract

Lymphocytic choriomeningitis virus (LCMV) is an Old World mammarenavirus found worldwide because of its association with the house mouse. When LCMV spills over to immunocompetent humans, the virus can cause aseptic meningitis; in immunocompromised persons, systemic infection and death can occur. Central Europe is a strategic location for the study of LCMV evolutionary history and host specificity because of the presence of a hybrid zone (genetic barrier) between 2 house mouse subspecies, Mus musculus musculus and M. musculus domesticus. We report LCMV prevalence in natural mouse populations from a Czech Republic-Germany transect and genomic characterization of 2 new LCMV variants from the Czech Republic. We demonstrate that the main division in the LCMV phylogenetic tree corresponds to mouse host subspecies and, when the virus is found in human hosts, the mouse subspecies found at the spillover location. Therefore, LCMV strains infecting humans can be predicted by the genetic structure of house mice.

Published
2021
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28. Experimental validation of small mammal gut microbiota sampling from faeces and from the caecum after death.

Author

Čížková D, Ďureje Ľ, Piálek J, and Kreisinger J

Subjects
Animals, Cecum, Feces, Mammals, Mice, RNA, Ribosomal, 16S genetics, Gastrointestinal Microbiome
Abstract

Data on the gut microbiota (GM) of wild animals are key to studies on evolutionary biology (host-GM interactions under natural selection), ecology and conservation biology (GM as a fitness component closely connected to the environment). Wildlife GM sampling often requires non-invasive techniques or sampling from dead animals. In a controlled experiment profiling microbial 16S rRNA in 52 house mice (Mus musculus) from eight families and four genetic backgrounds, we studied the effects of live- and snap-trapping on small mammal GM and evaluated the suitability of microbiota from non-fresh faeces as a proxy for caecal GM. We compared CM from individuals sampled 16-18 h after death with those in live traps and caged controls, and caecal and faecal GM collected from mice in live-traps. Sampling delay did not affect GM composition, validating data from fresh cadavers or snap-trapped animals. Animals trapped overnight displayed a slight but significant difference in GM composition to the caged controls, though the change only had negligible effect on GM diversity, composition and inter-individual divergence. Hence, the trapping process appears not to bias GM profiling. Despite their significant difference, caecal and faecal microbiota were correlated in composition and, to a lesser extent, diversity. Both showed congruent patterns of inter-individual divergence following the natural structure of the dataset. Thus, the faecal microbiome represents a good non-invasive proxy of the caecal microbiome, making it suitable for detecting biologically relevant patterns. However, care should be taken when analysing mixed datasets containing both faecal and caecal samples., (© 2021. The Author(s), under exclusive licence to The Genetics Society.)

Published
2021
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29. Prdm9 Intersubspecific Interactions in Hybrid Male Sterility of House Mouse.

Author

Mukaj A, Piálek J, Fotopulosova V, Morgan AP, Odenthal-Hesse L, Parvanov ED, and Forejt J

Subjects
Animals, Female, Male, Meiosis, Phylogeography, Genetic Introgression, Histone-Lysine N-Methyltransferase genetics, Infertility genetics, Mice genetics, Reproductive Isolation
Abstract

The classical definition posits hybrid sterility as a phenomenon when two parental taxa each of which is fertile produce a hybrid that is sterile. The first hybrid sterility gene in vertebrates, Prdm9, coding for a histone methyltransferase, was identified in crosses between two laboratory mouse strains derived from Mus mus musculus and M. m. domesticus subspecies. The unique function of PRDM9 protein in the initiation of meiotic recombination led to the discovery of the basic molecular mechanism of hybrid sterility in laboratory crosses. However, the role of this protein as a component of reproductive barrier outside the laboratory model remained unclear. Here, we show that the Prdm9 allelic incompatibilities represent the primary cause of reduced fertility in intersubspecific hybrids between M. m. musculus and M. m. domesticus including 16 musculus and domesticus wild-derived strains. Disruption of fertility phenotypes correlated with the rate of failure of synapsis between homologous chromosomes in meiosis I and with early meiotic arrest. All phenotypes were restored to normal when the domesticus Prdm9dom2 allele was substituted with the Prdm9dom2H humanized variant. To conclude, our data show for the first time the male infertility of wild-derived musculus and domesticus subspecies F1 hybrids controlled by Prdm9 as the major hybrid sterility gene. The impairment of fertility surrogates, testes weight and sperm count, correlated with increasing difficulties of meiotic synapsis of homologous chromosomes and with meiotic arrest, which we suppose reflect the increasing asymmetry of PRDM9-dependent DNA double-strand breaks., (© The Author(s) 2020. Published by Oxford University Press on behalf of the Society for Molecular Biology and Evolution.)

Published
2020
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30. Coupling between tolerance and resistance for two related Eimeria parasite species.

Author

Balard A, Jarquín-Díaz VH, Jost J, Mittné V, Böhning F, Ďureje Ľ, Piálek J, and Heitlinger E

Abstract

Resistance (host capacity to reduce parasite burden) and tolerance (host capacity to reduce impact on its health for a given parasite burden) manifest two different lines of defense. Tolerance can be independent from resistance, traded off against it, or the two can be positively correlated because of redundancy in underlying (immune) processes. We here tested whether this coupling between tolerance and resistance could differ upon infection with closely related parasite species. We tested this in experimental infections with two parasite species of the genus Eimeria . We measured proxies for resistance (the (inverse of) number of parasite transmission stages (oocysts) per gram of feces at the day of maximal shedding) and tolerance (the slope of maximum relative weight loss compared to day of infection on number of oocysts per gram of feces at the day of maximal shedding for each host strain) in four inbred mouse strains and four groups of F1 hybrids belonging to two mouse subspecies, Mus musculus domesticus and Mus musculus musculus . We found a negative correlation between resistance and tolerance against Eimeria falciformis , while the two are uncoupled against Eimeria ferrisi . We conclude that resistance and tolerance against the first parasite species might be traded off, but evolve more independently in different mouse genotypes against the latter. We argue that evolution of the host immune defenses can be studied largely irrespective of parasite isolates if resistance-tolerance coupling is absent or weak ( E. ferrisi ) but host-parasite coevolution is more likely observable and best studied in a system with negatively correlated tolerance and resistance ( E. falciformis )., Competing Interests: This work is original and has not been published elsewhere, nor is it currently under consideration for publication elsewhere, we have no conflicts of interest to disclose, its submission for publication has been approved by all relevant authors and institutions, all persons entitled to authorship have been so named, and all authors have seen and agreed to the submitted version of the manuscript., (© 2020 The Authors. Ecology and Evolution published by John Wiley & Sons Ltd.)

Published
2020
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31. Sperm quality, aggressiveness and generation turnover may facilitate unidirectional Y chromosome introgression across the European house mouse hybrid zone.

Author

Bímová BV, Macholán M, Ďureje Ľ, Bímová KB, Martincová I, and Piálek J

Subjects
Animals, Europe, Female, Male, Phenotype, Aggression, Mice genetics, Spermatozoa physiology, Y Chromosome genetics
Abstract

The widespread and locally massive introgression of Y chromosomes of the eastern house mouse (Mus musculus musculus) into the range of the western subspecies (M. m. domesticus) in Central Europe calls for an explanation of its underlying mechanisms. Given the paternal inheritance pattern, obvious candidates for traits mediating the introgression are characters associated with sperm quantity and quality. We can also expect traits such as size, aggression or the length of generation cycles to facilitate the spread. We have created two consomic strains carrying the non-recombining region of the Y chromosome of the opposite subspecies, allowing us to study introgression in both directions, something impossible in nature due to the unidirectionality of introgression. We analyzed several traits potentially related to male fitness. Transmission of the domesticus Y onto the musculus background had negative effects on all studied traits. Likewise, domesticus males possessing the musculus Y had, on average, smaller body and testes and lower sperm count than the parental strain. However, the same consomic males tended to produce less- dissociated sperm heads, to win more dyadic encounters, and to have shorter generation cycles than pure domesticus males. These data suggest that the domesticus Y is disadvantageous on the musculus background, while introgression in the opposite direction can confer a recognizable, though not always significant, selective advantage. Our results are thus congruent with the unidirectional musculus → domesticus Y chromosome introgression in Central Europe. In addition to some previous studies, they show this to be a multifaceted phenomenon demanding a multidisciplinary approach.

Published
2020
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32. Geographical Distribution of Ljungan Virus in Small Mammals in Europe.

Author

Fevola C, Rossi C, Rosso F, Girardi M, Rosà R, Manica M, Delucchi L, Rocchini D, Garzon-Lopez CX, Arnoldi D, Bianchi A, Buzan E, Charbonnel N, Collini M, Ďureje L, Ecke F, Ferrari N, Fischer S, Gillingham EL, Hörnfeldt B, Kazimírová M, Konečný A, Maas M, Magnusson M, Miller A, Niemimaa J, Nordström Å, Obiegala A, Olsson G, Pedrini P, Piálek J, Reusken CB, Rizzolli F, Romeo C, Silaghi C, Sironen T, Stanko M, Tagliapietra V, Ulrich RG, Vapalahti O, Voutilainen L, Wauters L, Rizzoli A, Vaheri A, Jääskeläinen AJ, Henttonen H, and Hauffe HC

Subjects
Animals, Body Weight, Eulipotyphla, Europe epidemiology, Parechovirus classification, Parechovirus genetics, Phylogeny, Picornaviridae Infections epidemiology, Reverse Transcriptase Polymerase Chain Reaction, Rodentia, Seasons, Parechovirus isolation & purification, Picornaviridae Infections veterinary
Abstract

Ljungan virus (LV), which belongs to the Parechovirus genus in the Picornaviridae family, was first isolated from bank voles ( Myodes glareolus ) in Sweden in 1998 and proposed as a zoonotic agent. To improve knowledge of the host association and geographical distribution of LV, tissues from 1685 animals belonging to multiple rodent and insectivore species from 12 European countries were screened for LV-RNA using reverse transcriptase (RT)-PCR. In addition, we investigated how the prevalence of LV-RNA in bank voles is associated with various intrinsic and extrinsic factors. We show that LV is widespread geographically, having been detected in at least one host species in nine European countries. Twelve out of 21 species screened were LV-RNA PCR positive, including, for the first time, the red vole ( Myodes rutilus ) and the root or tundra vole ( Alexandromys formerly Microtus oeconomus ), as well as in insectivores, including the bicolored white-toothed shrew ( Crocidura leucodon ) and the Valais shrew ( Sorex antinorii ). Results indicated that bank voles are the main rodent host for this virus (overall RT-PCR prevalence: 15.2%). Linear modeling of intrinsic and extrinsic factors that could impact LV prevalence showed a concave-down relationship between body mass and LV occurrence, so that subadults had the highest LV positivity, but LV in older animals was less prevalent. Also, LV prevalence was higher in autumn and lower in spring, and the amount of precipitation recorded during the 6 months preceding the trapping date was negatively correlated with the presence of the virus. Phylogenetic analysis on the 185 base pair species-specific sequence of the 5' untranslated region identified high genetic diversity (46.5%) between 80 haplotypes, although no geographical or host-specific patterns of diversity were detected.

Published
2020
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33. How being synanthropic affects the gut bacteriome and mycobiome: comparison of two mouse species with contrasting ecologies.

Author

Bendová B, Piálek J, Ďureje Ľ, Schmiedová L, Čížková D, Martin JF, and Kreisinger J

Subjects
Animals, Bacteria genetics, Bacteria isolation & purification, DNA, Ribosomal genetics, Ecology, Feces microbiology, Fungi genetics, Fungi isolation & purification, High-Throughput Nucleotide Sequencing, Mice, Microbiota, Mycobiome, Phylogeny, Bacteria classification, Fungi classification, RNA, Ribosomal, 16S genetics, Sequence Analysis, DNA methods
Abstract

Background: The vertebrate gastrointestinal tract is colonised by microbiota that have a major effect on the host's health, physiology and phenotype. Once introduced into captivity, however, the gut microbial composition of free-living individuals can change dramatically. At present, little is known about gut microbial changes associated with adaptation to a synanthropic lifestyle in commensal species, compared with their non-commensal counterparts. Here, we compare the taxonomic composition and diversity of bacterial and fungal communities across three gut sections in synanthropic house mouse (Mus musculus) and a closely related non-synanthropic mound-building mouse (Mus spicilegus)., Results: Using Illumina sequencing of bacterial 16S rRNA amplicons, we found higher bacterial diversity in M. spicilegus and detected 11 bacterial operational taxonomic units with significantly different proportions. Notably, abundance of Oscillospira, which is typically higher in lean or outdoor pasturing animals, was more abundant in non-commensal M. spicilegus. ITS2-based barcoding revealed low diversity and high uniformity of gut fungi in both species, with the genus Kazachstania clearly dominant., Conclusions: Though differences in gut bacteria observed in the two species can be associated with their close association with humans, changes due to a move from commensalism to captivity would appear to have caused larger shifts in microbiota.

Published
2020
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34. Intensity of infection with intracellular Eimeria spp. and pinworms is reduced in hybrid mice compared to parental subspecies.

Author

Balard A, Jarquín-Díaz VH, Jost J, Martincová I, Ďureje Ľ, Piálek J, Macholán M, Goüy de Bellocq J, Baird SJE, and Heitlinger E

Subjects
Animals, Coccidiosis mortality, Female, Male, Mice genetics, Parasite Load, Coccidiosis veterinary, Eimeria physiology, Host-Parasite Interactions genetics, Hybridization, Genetic, Mice parasitology
Abstract

Genetic diversity in animal immune systems is usually beneficial. In hybrid recombinants, this is less clear, as the immune system could also be impacted by genetic conflicts. In the European house mouse hybrid zone, the long-standing impression that hybrid mice are more highly parasitized and less fit than parentals persists despite the findings of recent studies. Working across a novel transect, we assessed infections by intracellular protozoans, Eimeria spp., and infections by extracellular macroparasites, pinworms. For Eimeria, we found lower intensities in hybrid hosts than in parental mice but no evidence of lowered probability of infection or increased mortality in the centre of the hybrid zone. This means ecological factors are very unlikely to be responsible for the reduced load of infected hybrids. Focusing on parasite intensity (load in infected hosts), we also corroborated reduced pinworm loads reported for hybrid mice in previous studies. We conclude that intensity of diverse parasites, including the previously unstudied Eimeria, is reduced in hybrid mice compared to parental subspecies. We suggest caution in extrapolating this to differences in hybrid host fitness in the absence of, for example, evidence for a link between parasitemia and health., (© 2019 The Authors. Journal of Evolutionary Biology published by John Wiley & Sons Ltd on behalf of European Society for Evolutionary Biology.)

Published
2020
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35. Phenotypic effects of the Y chromosome are variable and structured in hybrids among house mouse recombinant lines.

Author

Martincová I, Ďureje Ľ, Kreisinger J, Macholán M, and Piálek J

Abstract

Hybrid zones between divergent populations sieve genomes into blocks that introgress across the zone, and blocks that do not, depending on selection between interacting genes. Consistent with Haldane's rule, the Y chromosome has been considered counterselected and hence not to introgress across the European house mouse hybrid zone. However, recent studies detected massive invasion of M. m. musculus Y chromosomes into M. m. domesticus territory. To understand mechanisms facilitating Y spread, we created 31 recombinant lines from eight wild-derived strains representing four localities within the two mouse subspecies. These lines were reciprocally crossed and resulting F1 hybrid males scored for five phenotypic traits associated with male fitness. Molecular analyses of 51 Y-linked SNPs attributed ~50% of genetic variation to differences between the subspecies and 8% to differentiation within both taxa. A striking proportion, 21% (frequencies of sperm head abnormalities) and 42% (frequencies of sperm tail dissociations), of phenotypic variation was explained by geographic Y chromosome variants. Our crossing design allowed this explanatory power to be examined across a hierarchical scale from subspecific to local intrastrain effects. We found that divergence and variation were expressed diversely in different phenotypic traits and varied across the whole hierarchical scale. This finding adds another dimension of complexity to studies of Y introgression not only across the house mouse hybrid zone but potentially also in other contact zones.

Published
2019
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36. Evidence of functional Cd94 polymorphism in a free-living house mouse population.

Author

Knutsen LE, Dissen E, Saether PC, Bjørnsen EG, Piálek J, Storset AK, and Boysen P

Subjects
Alleles, Amino Acid Sequence, Animals, CHO Cells, Cricetinae, Cricetulus, HEK293 Cells, Histocompatibility Antigens Class I chemistry, Histocompatibility Antigens Class I genetics, Histocompatibility Antigens Class I metabolism, Humans, Mice, Inbred C57BL, Mice, Inbred DBA, NK Cell Lectin-Like Receptor Subfamily C chemistry, NK Cell Lectin-Like Receptor Subfamily C genetics, NK Cell Lectin-Like Receptor Subfamily D chemistry, NK Cell Lectin-Like Receptor Subfamily D metabolism, Norway, Peptides chemistry, Peptides genetics, Peptides metabolism, Protein Binding, Protein Multimerization, Sequence Homology, Amino Acid, Species Specificity, CD8-Positive T-Lymphocytes metabolism, Killer Cells, Natural metabolism, NK Cell Lectin-Like Receptor Subfamily C metabolism, NK Cell Lectin-Like Receptor Subfamily D genetics, Polymorphism, Genetic
Abstract

The CD94 receptor, expressed on natural killer (NK) and CD8+ T cells, is known as a relatively non-polymorphic receptor with orthologues in humans, other primates, cattle, and rodents. In the house mouse (Mus musculus), a single allele is highly conserved among laboratory strains, and reports of allelic variation in lab- or wild-living mice are lacking, except for deficiency in one lab strain (DBA/2J). The non-classical MHC-I molecule Qa-1b is the ligand for mouse CD94/NKG2A, presenting alternative non-americ fragment of leader peptides (Qa-1 determinant modifier (Qdm)) from classical MHC-I molecules. Here, we report a novel allele identified in free-living house mice captured in Norway, living among individuals carrying the canonical Cd94 allele. The novel Cd94 LocA allele encodes 12 amino acid substitutions in the extracellular lectin-like domain. Flow cytometric analysis of primary NK cells and transfected cells indicates that the substitutions prevent binding of CD94 mAb and Qa-1b/Qdm tetramers. Our data further indicate correlation of Cd94 polymorphism with the two major subspecies of house mice in Europe. Together, these findings suggest that the Cd94 LocA /NKG2A heterodimeric receptor is widely expressed among M. musculus subspecies musculus, with ligand-binding properties different from mice of subspecies domesticus, such as the C57BL/6 strain.

Published
2019
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37. Holobiont suture zones: Parasite evidence across the European house mouse hybrid zone.

Author

Goüy de Bellocq J, Wasimuddin, Ribas A, Bryja J, Piálek J, and Baird SJE

Subjects
Animals, Czech Republic, DNA, Mitochondrial genetics, Genetic Markers, Genotype, Germany, Mice genetics, Nematoda genetics, Phylogeny, Pneumocystis genetics, Genetics, Population, Hybridization, Genetic, Mice parasitology, Parasites genetics
Abstract

Parasite hybrid zones resulting from host secondary contact have never been described in nature although parasite hybridization is well known and secondary contact should affect them similarly to free-living organisms. When host populations are isolated, diverge and recontact, intimate parasites (host specific, direct life cycle) carried during isolation will also meet and so may form parasite hybrid zones. If so, we hypothesize these should be narrower than the host's hybrid zone as shorter parasite generation time allows potentially higher divergence. We investigate multilocus genetics of two parasites across the European house mouse hybrid zone. We find each host taxon harbours its own parasite taxa. These also hybridize: Parasite hybrid zones are significantly narrower than the host's. Here, we show a host hybrid zone is a suture zone for a subset of its parasite community and highlight the potential of such systems as windows on the evolutionary processes of host-parasite interactions and recombinant pathogen emergence., (© 2018 John Wiley & Sons Ltd.)

Published
2018
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38. Host subspecific viral strains in European house mice: Murine cytomegalovirus in the Eastern (Mus musculus musculus) and Western house mouse (Mus musculus domesticus).

Author

Čížková D, Baird SJE, Těšíková J, Voigt S, Ľudovít Ď, Piálek J, and Goüy de Bellocq J

Subjects
Animals, Europe, Geography, Immune Evasion, Phylogeny, Polymorphism, Genetic, Genetic Variation, Genome, Viral, Host Specificity, Mice virology, Muromegalovirus genetics
Abstract

Murine cytomegalovirus (MCMV) has been reported from house mice (Mus musculus) worldwide, but only recently from Eastern house mice (M. m. musculus), of particular interest because they form a semi-permeable species barrier in Europe with Western house mice, M. m. domesticus. Here we report genome sequences of EastMCMV (from Eastern mice), and set these in the context of MCMV genomes from genus Mus hosts. We show EastMCMV and WestMCMV are genetically distinct. Phylogeny splitting analyses show a genome wide (94%) pattern consistent with no West-East introgression, the major exception (3.8%) being a genome-terminal region of duplicated genes involved in host immune system evasion. As expected from its function, this is a region of maintenance of ancestral polymorphism: The lack of clear splitting signal cannot be interpreted as evidence of introgression. The EastMCMV genome sequences reported here can therefore serve as a well-described resource for exploration of murid MCMV diversity., (Copyright © 2018 Elsevier Inc. All rights reserved.)

Published
2018
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39. Large-scale genetic analysis reveals mammalian mtDNA heteroplasmy dynamics and variance increase through lifetimes and generations.

Author

Burgstaller JP, Kolbe T, Havlicek V, Hembach S, Poulton J, Piálek J, Steinborn R, Rülicke T, Brem G, Jones NS, and Johnston IG

Subjects
Age Factors, Animals, Datasets as Topic, Female, Haplotypes genetics, Mice, Mice, Inbred C57BL, Mitochondria metabolism, Models, Animal, Oocytes cytology, Oocytes immunology, DNA Copy Number Variations genetics, DNA, Mitochondrial genetics, Genome, Mitochondrial genetics
Abstract

Vital mitochondrial DNA (mtDNA) populations exist in cells and may consist of heteroplasmic mixtures of mtDNA types. The evolution of these heteroplasmic populations through development, ageing, and generations is central to genetic diseases, but is poorly understood in mammals. Here we dissect these population dynamics using a dataset of unprecedented size and temporal span, comprising 1947 single-cell oocyte and 899 somatic measurements of heteroplasmy change throughout lifetimes and generations in two genetically distinct mouse models. We provide a novel and detailed quantitative characterisation of the linear increase in heteroplasmy variance throughout mammalian life courses in oocytes and pups. We find that differences in mean heteroplasmy are induced between generations, and the heteroplasmy of germline and somatic precursors diverge early in development, with a haplotype-specific direction of segregation. We develop stochastic theory predicting the implications of these dynamics for ageing and disease manifestation and discuss its application to human mtDNA dynamics.

Published
2018
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40. Application of Concanavalin A during immune responsiveness skin-swelling tests facilitates measurement interpretation in mammalian ecology.

Author

Bílková B, Albrecht T, Chudíčková M, Holáň V, Piálek J, and Vinkler M

Abstract

The skin-swelling test is a simple and widespread method used in field ecological research to estimate cellular immune responsiveness in animals. This immunoecological test is based on measuring the magnitude of tissue swelling response at specific times following subcutaneous application of an experimental pro-inflammatory stimulant. In the vast majority of studies across vertebrate taxa, phytohemagglutinin (PHA) is used as a universal stimulant. Given the complexity of immune response activation pathways of PHA, however, interpretation of test results can be ambiguous. Goal of this study was to improve methodology of the skin-swelling test to decrease this ambiguity. Here, we present an alternative protocol aimed at facilitating interpretation of skin-swelling data for mammals. Based on previous evidence suggesting that mammalian T cells are readily activated by Concanavalin A (ConA) in vitro, we compared cellular immune responses in vivo to PHA and ConA as an alternative pro-inflammatory stimulant in mice. We measured magnitude of tissue swelling and compared it with intensity of blood cell infiltration into tissue over a 72-hour interval. Our results corroborate that PHA and ConA show important differences in both dynamics and response amplitude in rodents. ConA induces stronger swelling with a distinct leukocyte activity pattern and higher pro-inflammatory cytokine (interleukin 6 [IL-6] and interferon gamma[IFN-γ]) expression than PHA during peak response (24-h post-treatment). Furthermore, unlike PHA, magnitude of swelling was positively associated with cellular activity (number of neutrophils infiltrating tissue) following ConA injection. We conclude that ConA is the more suitable stimulant for skin-swelling tests in mammals. This is because of the molecular binding specificity in the two lectins, that is, ConA specifically activates T cells while PHA also triggers erythroagglutination. We propose that ConA be used in all future ecological testing in mammals as it exhibits better performance and its application facilitates immunological interpretation of skin-swelling test results.

Published
2016
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41. Testing parasite 'intimacy': the whipworm Trichuris muris in the European house mouse hybrid zone.

Author

Wasimuddin, Bryja J, Ribas A, Baird SJ, Piálek J, and Goüy de Bellocq J

Abstract

Host-parasite interaction studies across hybrid zones often focus on host genetic variation, treating parasites as homogeneous. 'Intimately' associated hosts and parasites might be expected to show similar patterns of genetic structure. In the literature, factors such as no intermediate host and no free-living stage have been proposed as 'intimacy' factors likely constraining parasites to closely follow the evolutionary history of their hosts. To test whether the whipworm, Trichuris muris, is intimately associated with its house mouse host, we studied its population genetics across the European house mouse hybrid zone (HMHZ) which has a strong central barrier to gene flow between mouse taxa. T. muris has a direct life cycle and nonmobile free stage: if these traits constrain the parasite to an intimate association with its host we expect a geographic break in the parasite genetic structure across the HMHZ. We genotyped 205 worms from 56 localities across the HMHZ and additionally T. muris collected from sympatric woodmice (Apodemus spp.) and allopatric murine species, using mt-COX1, ITS1-5.8S-ITS2 rDNA and 10 microsatellites. We show four haplogroups of mt-COX1 and three clear ITS1-5.8S-ITS2 clades in the HMHZ suggesting a complex demographic/phylogeographic history. Microsatellites show strong structure between groups of localities. However, no marker type shows a break across the HMHZ. Whipworms from Apodemus in the HMHZ cluster, and share mitochondrial haplotypes, with those from house mice. We conclude Trichuris should not be regarded as an 'intimate' parasite of the house mouse: while its life history might suggest intimacy, passage through alternate hosts is sufficiently common to erase signal of genetic structure associated with any particular host taxon.

Published
2016
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42. Murine cytomegalovirus is not restricted to the house mouse Mus musculus domesticus: prevalence and genetic diversity in the European house mouse hybrid zone.

Author

Goüy de Bellocq J, Baird SJ, Albrechtová J, Sobeková K, and Piálek J

Subjects
Animals, Cluster Analysis, DNA, Viral chemistry, DNA, Viral genetics, Enzyme-Linked Immunosorbent Assay, Germany epidemiology, Haplotypes, Herpesviridae Infections epidemiology, Herpesviridae Infections virology, Host Specificity, Mice, Molecular Sequence Data, Muromegalovirus classification, Muromegalovirus genetics, Phylogeography, Polymerase Chain Reaction, Prevalence, Sequence Analysis, DNA, Seroepidemiologic Studies, Slovakia epidemiology, Genetic Variation, Herpesviridae Infections veterinary, Muromegalovirus isolation & purification, Rodent Diseases epidemiology, Rodent Diseases virology
Abstract

Unlabelled: Murine cytomegalovirus (MCMV) is a betaherpesvirus of the house mouse, Mus musculus domesticus. It is a common infectious agent of wild mice and a highly studied pathogen of the laboratory mouse. Betaherpesviruses are specific to their hosts, and it is not known if other Mus taxa carry MCMV or if it is restricted to M. m. domesticus. We sampled mice over a 145-km transect of Bavaria-Bohemia crossing a hybrid zone between M. m. domesticus and Mus musculus musculus in order to investigate the occurrence of MCMV in two Mus subspecies and to test the limits of the specificity of the virus for its host. We hypothesized that if the two subspecies carry MCMV and if the virus is highly specific to its host, divergent MCMV lineages would have codiverged with their hosts and would have a geographical distribution constrained by the host genetic background. A total of 520 mice were tested by enzyme-linked immunosorbent assay (ELISA) and/or nested PCR targeting the M94 gene. Seropositive and PCR-positive individuals were found in both Mus subspecies. Seroprevalence was high, at 79.4%, but viral DNA was detected in only 41.7% of mice. Sequencing revealed 20 haplotypes clustering in 3 clades that match the host genetic structure in the hybrid zone, showing 1 and 2 MCMV lineages in M. m. domesticus and M. m. musculus, respectively. The estimated time to the most recent common ancestor (1.1 million years ago [Mya]) of the MCMVs matches that of their hosts. In conclusion, MCMV has coevolved with these hosts, suggesting that its diversity in nature may be underappreciated, since other members of the subgenus Mus likely carry different MCMVs., Importance: Murine cytomegalovirus (MCMV) is a betaherpesvirus of the house mouse, Mus musculus domesticus, an important lab model for human cytomegalovirus (HCMV) infection. The majority of lab studies are based on only two strains of MCMVs isolated from M. m. domesticus, Smith and K181, the latter derived from repeated passage of Smith in mouse submaxillary glands. The presence of MCMV in other members of the Mus subgenus had not even been investigated. By screening mouse samples collected in the European house mouse hybrid zone between M. m. domesticus and M. m. musculus, we show that MCMV is not restricted to the M. m. domesticus subspecies and that MCMVs likely codiverged with their Mus hosts. Thus, the diversity of MCMV in nature may be seriously underappreciated, since other members of the subgenus Mus likely carry their own MCMV lineages., (Copyright © 2015, American Society for Microbiology. All Rights Reserved.)

Published
2015
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43. Sperm morphology in two house mouse subspecies: do wild-derived strains and wild mice tell the same story?

Author

Albrechtová J, Albrecht T, Ďureje L, Pallazola VA, and Piálek J

Subjects
Animals, Genetic Variation, Male, Mice, Mice, Inbred Strains, Genetic Speciation, Spermatozoa cytology
Abstract

Being subject to intense post-copulatory selection, sperm size is a principal determining component of male fitness. Although previous studies have presented comparative sperm size data at higher taxonomic levels, information on the evolution of sperm size within species is generally lacking. Here, we studied two house mouse subspecies, Mus musculus musculus and Mus musculus domesticus, which undergo incipient speciation. We measured four sperm dimensions from cauda epididymis smears of 28 wild-caught mice of both subspecies. As inbred mouse strains are frequently used as proxies for exploring evolutionary processes, we further studied four wild-derived inbred strains from each subspecies. The subspecies differed significantly in terms of sperm head length and midpiece length, and these differences were consistent for wild mice and wild-derived strains pooled over genomes. When the inbred strains were analyzed individually, however, their strain-specific values were in some cases significantly shifted from subspecies-specific values derived from wild mice. We conclude that: (1) the size of sperm components differ in the two house mouse subspecies studied, and that (2) wild-derived strains reflect this natural polymorphism, serving as a potential tool to identify the genetic variation driving these evolutionary processes. Nevertheless, we suggest that more strains should be used in future experiments to account for natural variation and to avoid confounding results due to reduced variability and/or founder effect in the individual strains.

Published
2014
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44. Gastrointestinal microbiota of wild and inbred individuals of two house mouse subspecies assessed using high-throughput parallel pyrosequencing.

Author

Kreisinger J, Cížková D, Vohánka J, and Piálek J

Subjects
Animals, Animals, Wild microbiology, Bacteria classification, DNA Barcoding, Taxonomic, Metagenome, Mice, RNA, Ribosomal, 16S genetics, Gastrointestinal Tract microbiology, Genetic Variation, Mice, Inbred Strains microbiology, Microbiota genetics
Abstract

The effects of gastrointestinal tract microbiota (GTM) on host physiology and health have been the subject of considerable interest in recent years. While a variety of captive bred species have been used in experiments, the extent to which GTM of captive and/or inbred individuals resembles natural composition and variation in wild populations is poorly understood. Using 454 pyrosequencing, we performed 16S rDNA GTM barcoding for 30 wild house mice (Mus musculus) and wild-derived inbred strain mice belonging to two subspecies (M. m. musculus and M. m. domesticus). Sequenced individuals were selected according to a 2 × 2 experimental design: wild (14) vs. inbred origin (16) and M. m. musculus (15) vs. M. m. domesticus (15). We compared alpha diversity (i.e. number of operational taxonomic units - OTUs), beta diversity (i.e. interindividual variability) and microbiota composition across the four groups. We found no difference between M. m. musculus and M. m. domesticus subspecies, suggesting low effect of genetic differentiation between these two subspecies on GTM structure. Both inbred and wild populations showed the same level of microbial alpha and beta diversity; however, we found strong differentiation in microbiota composition between wild and inbred populations. Relative abundance of ~ 16% of OTUs differed significantly between wild and inbred individuals. As laboratory mice represent the most abundant model for studying the effects of gut microbiota on host metabolism, immunity and neurology, we suggest that the distinctness of laboratory-kept mouse microbiota, which differs from wild mouse microbiota, needs to be considered in future biomedical research., (© 2014 John Wiley & Sons Ltd.)

Published
2014
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45. Contrasting patterns of polymorphism and selection in bacterial-sensing toll-like receptor 4 in two house mouse subspecies.

Author

Fornuskova A, Bryja J, Vinkler M, Macholán M, and Piálek J

Abstract

Detailed investigation of variation in genes involved in pathogen recognition is crucial for understanding co-evolutionary processes between parasites and their hosts. Triggering immediate innate response to invading microbes, Toll-like receptors (TLRs) belong presently among the best-studied receptors of vertebrate immunity. TLRs exhibit remarkable interspecific variation and also intraspecific polymorphism is well documented. In humans and laboratory mice, several studies have recently shown that single amino acid substitution may significantly alter receptor function. Unfortunately, data concerning polymorphism in free-living species are still surprisingly scarce. In this study, we analyzed the polymorphism of Toll-like receptor 4 (Tlr4) over the Palearctic range of house mouse (Mus musculus). Our results reveal contrasting evolutionary patterns between the two recently (0.5 million years ago) diverged house mouse subspecies: M. m. domesticus (Mmd) and M. m. musculus (Mmm). Comparison with cytochrome b indicates strong directional selection in Mmd Tlr4. Throughout the whole Mmd western Palaearctic region, a single variant of the ligand-binding region is spread, encoded mainly by one dominant haplotype (71% of Mmd). In contrast, Tlr4 in Mmm is much more polymorphic with several haplotypes at intermediate frequencies. Moreover, we also found clear signals of recombination between two principal haplogroups in Mmm, and we identified eight sites under positive selection in our dataset. Our results suggest that observed differences in Tlr4 diversity may be attributed to contrasting parasite-mediated selection acting in the two subspecies.

Published
2014
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46. MtDNA segregation in heteroplasmic tissues is common in vivo and modulated by haplotype differences and developmental stage.

Author

Burgstaller JP, Johnston IG, Jones NS, Albrechtová J, Kolbe T, Vogl C, Futschik A, Mayrhofer C, Klein D, Sabitzer S, Blattner M, Gülly C, Poulton J, Rülicke T, Piálek J, Steinborn R, and Brem G

Subjects
Amino Acid Sequence, Animals, Disease Models, Animal, Haplotypes, Humans, Mice, Models, Genetic, Molecular Sequence Data, DNA, Mitochondrial genetics
Abstract

The dynamics by which mitochondrial DNA (mtDNA) evolves within organisms are still poorly understood, despite the fact that inheritance and proliferation of mutated mtDNA cause fatal and incurable diseases. When two mtDNA haplotypes are present in a cell, it is usually assumed that segregation (the proliferation of one haplotype over another) is negligible. We challenge this assumption by showing that segregation depends on the genetic distance between haplotypes. We provide evidence by creating four mouse models containing mtDNA haplotype pairs of varying diversity. We find tissue-specific segregation in all models over a wide range of tissues. Key findings are segregation in postmitotic tissues (important for disease models) and segregation covering all developmental stages from prenatal to old age. We identify four dynamic regimes of mtDNA segregation. Our findings suggest potential complications for therapies in human populations: we propose "haplotype matching" as an approach to avoid these issues., (Copyright © 2014 The Authors. Published by Elsevier Inc. All rights reserved.)

Published
2014
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47. Prdm9 incompatibility controls oligospermia and delayed fertility but no selfish transmission in mouse intersubspecific hybrids.

Author

Flachs P, Bhattacharyya T, Mihola O, Piálek J, Forejt J, and Trachtulec Z

Subjects
Age Factors, Alleles, Animals, Chromosomes, Mammalian, Female, Gene Dosage, Genotype, Male, Meiosis, Mice, Phenotype, Quantitative Trait Loci, Testis metabolism, Testis pathology, Crosses, Genetic, Histone-Lysine N-Methyltransferase genetics, Infertility, Male genetics, Oligospermia genetics
Abstract

PR-domain 9 (Prdm9) is the first hybrid sterility gene identified in mammals. The incompatibility between Prdm9 from Mus musculus domesticus (Mmd; the B6 strain) and the Hstx2 region of chromosome (Chr) X from M. m. musculus (Mmm; the PWD strain) participates in the complete meiotic arrest of mouse intersubspecific (PWD×B6)F1 hybrid males. Other studies suggest that also semisterile intersubspecific hybrids are relevant for mouse speciation, but the genes responsible remain unknown. To investigate the causes of this semisterility, we analyzed the role of Prdm9 and Chr X in hybrids resulting from the crosses of PWK, another Mmm-derived inbred strain. We demonstrate that Prdm9 and Chr X control the partial meiotic arrest and reduced sperm count in (PWK×B6)F1 males. Asynapsis of heterosubspecific chromosomes and semisterility were partially suppressed by removal of the B6 allele of Prdm9. Polymorphisms between PWK and PWD on Chr X but not in the Prdm9 region were responsible for the modification of the outcome of Prdm9-Chr X F1 hybrid incompatibility. Furthermore, (PWK×B6)F1 hybrid males displayed delayed fertility dependent on the Prdm9 incompatibility. While the Drosophila hybrid sterility gene Overdrive causes both delayed fertility and increased transmission of its own chromosome to the offspring, the segregation of Chr X and the Prdm9 region from the mouse (PWK×B6)F1 males was normal. Our results indicate extended functional consequences of Prdm9-Chr X intersubspecific incompatibility on the fertility of hybrids and should influence the design of fertility analyses in hybrid zones and of laboratory crosses between Mmm and Mmd strains.

Published
2014
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48. Efficacy of magnetic capture in comparison with conventional DNA isolation in a survey of Toxoplasma gondii in wild house mice.

Author

Juránková J, Hůrková-Hofmannová L, Volf J, Baláž V, and Piálek J

Subjects
Animals, DNA, Protozoan analysis, Female, Limit of Detection, Mice, Polymerase Chain Reaction standards, DNA, Protozoan isolation & purification, Genetic Techniques standards, Magnetic Phenomena, Toxoplasma genetics, Toxoplasmosis, Animal diagnosis
Abstract

Toxoplasma gondii is a zoonotic parasite with a world-wide distribution. House mice (Mus musculus) play an important role as a reservoir host in the parasite life cycle. However, their detection in mouse brain is limited because the host potentially harbours only a few tissue cysts. In order to improve the diagnosis, we tested a novel protocol for T. gondii detection in mice and compared this technique to a standard PCR-based protocol using a commercial kit for DNA isolation. Efficacy of magnetic capture for isolation of T. gondii DNA from whole host brains was tested in brain samples of laboratory mice spiked with 1 up to 10(4) tachyzoites. Real-time PCR revealed that even 1-5 tachyzoites can be detected after magnetic capture. Also this method is suitable to quantify parasite numbers in mouse brains with more than 10 tachyzoite equivalents. To assess the two techniques in wild mice, we employed a dataset consisting of 243 individuals. The prevalence of T. gondii detected by magnetic capture and qPCR and by commercial isolation and PCR was 1.2% and 0%, respectively. The magnetic capture and quantitative PCR seems to be a highly sensitive and specific diagnostic method for both laboratory research and wild population surveys., (Copyright © 2013 Elsevier GmbH. All rights reserved.)

Published
2014
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49. Coevolution of Cryptosporidium tyzzeri and the house mouse (Mus musculus).

Author

Kváč M, McEvoy J, Loudová M, Stenger B, Sak B, Květoňová D, Ditrich O, Rašková V, Moriarty E, Rost M, Macholán M, and Piálek J

Subjects
Animals, Cluster Analysis, Cryptosporidium isolation & purification, Czech Republic, Genetic Variation, Genotype, Germany, Mice, Molecular Sequence Data, Phylogeny, Protozoan Proteins genetics, RNA, Ribosomal, 18S genetics, Sequence Analysis, DNA, Biological Evolution, Cryptosporidiosis veterinary, Cryptosporidium classification, Cryptosporidium genetics, Rodent Diseases parasitology
Abstract

Two house mouse subspecies occur in Europe, eastern and northern Mus musculus musculus (Mmm) and western and southern Mus musculus domesticus (Mmd). A secondary hybrid zone occurs where their ranges meet, running from Scandinavia to the Black Sea. In this paper, we tested a hypothesis that the apicomplexan protozoan species Cryptosporidium tyzzeri has coevolved with the house mouse. More specifically, we assessed to what extent the evolution of this parasite mirrors divergence of the two subspecies. In order to test this hypothesis, we analysed sequence variation at five genes (ssrRNA, Cryptosporidium oocyst wall protein (COWP), thrombospondin-related adhesive protein of Cryptosporidium 1 (TRAP-C1), actin and gp60) in C. tyzzeri isolates from Mmd and Mmm sampled along a transect across the hybrid zone from the Czech Republic to Germany. Mmd samples were supplemented with mice from New Zealand. We found two distinct isolates of C. tyzzeri, each occurring exclusively in one of the mouse subspecies (C. tyzzeri-Mmm and C. tyzzeri-Mmd). In addition to genetic differentiation, oocysts of the C. tyzzeri-Mmd subtype (mean: 4.24×3.69μm) were significantly smaller than oocysts of C. tyzzeri-Mmm (mean: 4.49×3.90 μm). Mmm and Mmd were susceptible to experimental infection with both C. tyzzeri subtypes; however, the subtypes were not infective for the rodent species Meriones unguiculatus, Mastomys coucha, Apodemus flavicollis or Cavia porcellus. Overall, our results support the hypothesis that C. tyzzeri is coevolving with Mmm and Mmd., (Copyright © 2013 Australian Society for Parasitology Inc. Published by Elsevier Ltd. All rights reserved.)

Published
2013
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50. Sperm-related phenotypes implicated in both maintenance and breakdown of a natural species barrier in the house mouse.

Author

Albrechtová J, Albrecht T, Baird SJ, Macholán M, Rudolfsen G, Munclinger P, Tucker PK, and Piálek J

Subjects
Animals, Male, Models, Genetic, Phenotype, Polymorphism, Single Nucleotide, Selection, Genetic, Species Specificity, Hybridization, Genetic, Mice physiology, Spermatozoa physiology, Y Chromosome
Abstract

The house mouse hybrid zone (HMHZ) is a species barrier thought to be maintained by a balance between dispersal and natural selection against hybrids. While the HMHZ is characterized by frequency discontinuities for some sex chromosome markers, there is an unexpected large-scale regional introgression of a Y chromosome across the barrier, in defiance of Haldane's rule. Recent work suggests that a major force maintaining the species barrier acts through sperm traits. Here, we test whether the Y chromosome penetration of the species barrier acts through sperm traits by assessing sperm characteristics of wild-caught males directly in a field laboratory set up in a Y introgression region of the HMHZ, later calculating the hybrid index of each male using 1401 diagnostic single nucleotide polymorphisms (SNPs). We found that both sperm count (SC) and sperm velocity were significantly reduced across the natural spectrum of hybrids. However, SC was more than rescued in the presence of the invading Y. Our results imply an asymmetric advantage for Y chromosome introgression consistent with the observed large-scale introgression. We suggest that selection on sperm-related traits probably explains a large component of patterns observed in the natural hybrid zone, including the Y chromosome penetration.

Published
2012
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