Your search keyword '"Bonhomme, François"' showing total 21 results

1. Bidirectional Introgression between Mus musculus domesticus and Mus spretus.

Author

Banker, Sarah E, Bonhomme, François, and Nachman, Michael W

Subjects

*MICE, *HAPLOTYPES, *BIOLOGICAL evolution, *GENE flow, *OLFACTORY receptors, *X chromosome, *GENETIC variation, *SPECIES

Abstract

Introgressed variants from other species can be an important source of genetic variation because they may arise rapidly, can include multiple mutations on a single haplotype, and have often been pretested by selection in the species of origin. Although introgressed alleles are generally deleterious, several studies have reported introgression as the source of adaptive alleles—including the rodenticide-resistant variant of Vkorc1 that introgressed from Mus spretus into European populations of Mus musculus domesticus. Here, we conducted bidirectional genome scans to characterize introgressed regions into one wild population of M. spretus from Spain and three wild populations of M. m. domesticus from France, Germany, and Iran. Despite the fact that these species show considerable intrinsic postzygotic reproductive isolation, introgression was observed in all individuals, including in the M. musculus reference genome (GRCm38). Mus spretus individuals had a greater proportion of introgression compared with M. m. domesticus , and within M. m. domesticus , the proportion of introgression decreased with geographic distance from the area of sympatry. Introgression was observed on all autosomes for both species, but not on the X-chromosome in M. m. domesticus , consistent with known X-linked hybrid sterility and inviability genes that have been mapped to the M. spretus X-chromosome. Tract lengths were generally short with a few outliers of up to 2.7 Mb. Interestingly, the longest introgressed tracts were in olfactory receptor regions, and introgressed tracts were significantly enriched for olfactory receptor genes in both species, suggesting that introgression may be a source of functional novelty even between species with high barriers to gene flow. [ABSTRACT FROM AUTHOR]

Published

2022

2. The contribution of ancient admixture to reproductive isolation between European sea bass lineages.

Author

Duranton, Maud, Allal, François, Valière, Sophie, Bouchez, Olivier, Bonhomme, François, and Gagnaire, Pierre‐Alexandre

Subjects

EUROPEAN seabass, GENE flow, SEA basses

Abstract

Understanding how new species arise through the progressive establishment of reproductive isolation (RI) barriers between diverging populations is a major goal in Evolutionary Biology. An important result of speciation genomics studies is that genomic regions involved in RI frequently harbor anciently diverged haplotypes that predate the reconstructed history of species divergence. The possible origins of these old alleles remain much debated, as they relate to contrasting mechanisms of speciation that are not yet fully understood. In the European sea bass (Dicentrarchus labrax), the genomic regions involved in RI between Atlantic and Mediterranean lineages are enriched for anciently diverged alleles of unknown origin. Here, we used haplotype‐resolved whole‐genome sequences to test whether divergent haplotypes could have originated from a closely related species, the spotted sea bass (Dicentrarchus punctatus). We found that an ancient admixture event between D. labrax and D. punctatus is responsible for the presence of shared derived alleles that segregate at low frequencies in both lineages of D. labrax. An exception to this was found within regions involved in RI between the two D. labrax lineages. In those regions, archaic tracts originating from D. punctatus locally reached high frequencies or even fixation in Atlantic genomes but were almost absent in the Mediterranean. We showed that the ancient admixture event most likely occurred between D. punctatus and the D. labrax Atlantic lineage, while Atlantic and Mediterranean D. labrax lineages were experiencing allopatric isolation. Our results suggest that local adaptive introgression and/or the resolution of genomic conflicts provoked by ancient admixture have probably contributed to the establishment of RI between the two D. labrax lineages. [ABSTRACT FROM AUTHOR]

Published

2020

3. Dedicated population genomics for the silent world: the specific questions of marine population genetics.

Author

BIERNE, Nicolas, BONHOMME, François, and ARNAUD-HAOND, Sophie

Subjects

*GENETIC load, *GENETIC speciation, *GENOMICS

Abstract

An introduction to the special issue is presented with topics including chaotic genetic patchiness, speciation genomics and genetic load.

Published

2016

4. The guardians of inherited oncogenic vulnerabilities.

Author

Arnal, Audrey, Tissot, Tazzio, Ujvari, Beata, Nunney, Leonard, Solary, Eric, Laplane, Lucie, Bonhomme, François, Vittecoq, Marion, Tasiemski, Aurélie, Renaud, François, Pujol, Pascal, Roche, Benjamin, and Thomas, Frédéric

Subjects

CARCINOGENS, SOMATIC mutation, GENETIC pleiotropy, TUMOR growth prevention, DEFENSE reaction (Physiology)

Abstract

Similar to seemingly maladaptive genes in general, the persistence of inherited cancer-causing mutant alleles in populations remains a challenging question for evolutionary biologists. In addition to traditional explanations such as senescence or antagonistic pleiotropy, here we put forward a new hypothesis to explain the retention of oncogenic mutations. We propose that although natural defenses evolve to prevent neoplasm formation and progression thus increasing organismal fitness, they also conceal the effects of cancer-causing mutant alleles on fitness and concomitantly protect inherited ones from purging by purifying selection. We also argue for the importance of the ecological contexts experienced by individuals and/or species. These contexts determine the locally predominant fitness-reducing risks, and hence can aid the prediction of how natural selection will influence cancer outcomes. [ABSTRACT FROM AUTHOR]

Published

2016

5. Range-wide population structure of European sea bass Dicentrarchus labrax.

Author

Souche, Erika L., Hellemans, Bart, Babbucci, Massimiliano, MacAoidh, Eoin, Guinand, Bruno, Bargelloni, Luca, Chistiakov, Dimitry A., Patarnello, Tomaso, Bonhomme, François, Martinsohn, Jann T., and Volckaert, Filip A. M.

Subjects

EUROPEAN seabass, FISH populations, CELL differentiation, BIOMARKERS, GENE mapping

Abstract

The euryhaline European sea bass Dicentrarchus labrax L., inhabiting the coasts of the eastern Atlantic Ocean and Mediterranean Sea, has had many opportunities for differentiation throughout its large natural range. However, evidence for this has been incompletely documented geographically and with an insufficient number of markers. Therefore, its full range was sampled at 22 sites and individuals were genotyped with a suite of mapped markers, including 14 microsatellite loci ( N = 536) and 46 neutral or gene-linked single nucleotide polymorphisms ( SNPs; N = 644). We confirm that the Atlantic and Mediterranean basins harbour two distinct lineages. Within the Atlantic Ocean no pattern was obvious based on the microsatellite and SNP genotypes, except for a subtle difference between South-eastern and North-eastern Atlantic sea bass attributed to limited introgression of alleles of Mediterranean origin. SNP genotypes of the Mediterranean lineage differentiated into three groups, probably under the influence of geographical isolation. The Western Mediterranean group showed genetic homogeneity without evidence for outlier loci. The Adriatic group appeared as a distinct unit. The Eastern Mediterranean group showed a longitudinal gradient of genotypes and most interestingly an outlier locus linked to the somatolactin gene. Overall, the spatial pattern fits those observed with other taxa of between-basin segregation and within-basin connectivity, which concurs well with the swimming capabilities of European sea bass. Evidence from a few outlier loci in this and other studies encourages further exploration of its regional connectivity and adaptive evolution. [ABSTRACT FROM AUTHOR]

Published

2015

6. On the trail of Neolithic mice and men towards Transcaucasia: zooarchaeological clues from Nakhchivan ( Azerbaijan).

Author

Cucchi, Thomas, Kovács, Zsófia Eszter, Berthon, Rémi, Orth, Annie, Bonhomme, François, Evin, Allowen, Siahsarvie, Roohollah, Darvish, Jamshid, Bakhshaliyev, Veli, and Marro, Catherine

Subjects

MICE breeding, ZOOARCHAEOLOGY, COLONIZATION (Ecology), ANIMAL dispersal, MITOCHONDRIAL DNA, MORPHOMETRICS, SPECIES hybridization

Abstract

Transcaucasia comprises a key region for understanding the history of both the hybrid zone between house mouse lineages and the dispersal of the Neolithic way of life outside its Near Eastern cradle. The opportunity to document the colonization history of both men and mice in Transcaucasia was made possible by the discovery of mouse remains accumulated in pits from a 6000-year-old farming village in the Nakhchivan ( Autonomous Republic of Nakhchivan, Azerbaijan). The present study investigated their taxonomy and most likely dispersal path through the identification of the Mus lineage to which they might belong using a geometric morphometric approach of dental traits distances between archaeological and modern populations of the different Mus lineages of South- West Asia. We demonstrate that the mouse remains trapped in the deep storage pits of the dwelling belong to the Mus musculus domesticus from the Near East, with dental shapes similar to current populations in Northern Syria. These results strongly suggest that the domesticus lineage was dispersed into Transcaucasia from the upper Euphrates valley by Neolithic migration, some time between the 7th and 5th millennium BC, providing substantial evidence to back up the scenario featuring near-eastern stimuli in the emergence of agriculture in the South Caucasus. The domesticus mitochondrial DNA signature of the current house mouse in the same location 5000 years later, as well as their turnover towards a subspecies musculus/castaneus phenotype, suggests that early domesticus colonizers hybridized with a later musculus (and maybe castaneus) dispersal originating from south of the Caspian Sea and/or Northern Caucasia. © 2013 The Linnean Society of London [ABSTRACT FROM AUTHOR]

Published

2013

7. The south-eastern house mouse Mus musculus castaneus ( Rodentia: Muridae) is a polytypic subspecies.

Author

Rajabi-Maham, Hassan, Orth, Annie, Siahsarvie, Roohollah, Boursot, Pierre, Darvish, Jamshid, and Bonhomme, François

Subjects

LABORATORY mice, SUBSPECIES, BIOGEOGRAPHY, COMPARATIVE studies, MITOCHONDRIAL DNA, PHYLOGEOGRAPHY, COMMENSALISM

Abstract

Accurate knowledge of the biogeographic history and precise characterization of the genetic make-up of a taxon are essential to investigate speciation processes and achieve sound evolutionary comparisons. A case in point is the house mouse Mus musculus and its three parapatric subspecies, which have become a model for such studies. However, although Mus musculus domesticus and Mus musculus musculus constitute genetically well-characterized homogeneous entities, the case of Mus musculus castaneus remains poorly documented. Using mtDNA control region variation in a sample of 402 individuals, covering much of the distribution range of this subspecies, we identify four haplogroups that show largely non-overlapping geographic distributions. They appear to have undergone post- Neolithic expansions, presumably through commensalism with humans, but exhibit a much more ancient divergence. These results point towards a strong past subdivision and a vicariant origin of the different haplogroups, with each retaining a subfraction of the total variability. The genomic consequences of this spatial heterogeneity on the present taxonomic partition will have to be appraised, and may challenge the use of this subspecies as a single entity in evolutionary studies. © 2012 The Linnean Society of London, Biological Journal of the Linnean Society, 2012, ••, ••-••. [ABSTRACT FROM AUTHOR]

Published

2012

8. Adaptive Evolution and Effective Population Size in Wild House Mice.

Author

Phifer-Rixey, Megan, Bonhomme, François, Boursot, Pierre, Churchill, Gary A., Piálek, Jaroslav, Tucker, Priscilla K., and Nachman, Michael W.

Abstract

Estimates of the proportion of amino acid substitutions that have been fixed by selection (α) vary widely among taxa, ranging from zero in humans to over 50% in Drosophila. This wide range may reflect differences in the efficacy of selection due to differences in the effective population size (Ne). However, most comparisons have been made among distantly related organisms that differ not only in Ne but also in many other aspects of their biology. Here, we estimate α in three closely related lineages of house mice that have a similar ecology but differ widely in Ne: Mus musculus musculus (Ne ∼ 25,000–120,000), M. m. domesticus (Ne ∼ 58,000–200,000), and M. m. castaneus (Ne ∼ 200,000–733,000). Mice were genotyped using a high-density single nucleotide polymorphism array, and the proportions of replacement and silent mutations within subspecies were compared with those fixed between each subspecies and an outgroup, Mus spretus. There was significant evidence of positive selection in M. m. castaneus, the lineage with the largest Ne, with α estimated to be approximately 40%. In contrast, estimates of α for M. m. domesticus (α = 13%) and for M. m. musculus (α = 12 %) were much smaller. Interestingly, the higher estimate of α for M. m. castaneus appears to reflect not only more adaptive fixations but also more effective purifying selection. These results support the hypothesis that differences in Ne contribute to differences among species in the efficacy of selection. [ABSTRACT FROM PUBLISHER]

Published

2012

9. Patterns of morphological evolution in the mandible of the house mouse Mus musculus (Rodentia: Muridae).

Author

SIAHSARVIE, ROOHOLLAH, AUFFRAY, JEAN-CHRISTOPHE, DARVISH, JAMSHID, RAJABI-MAHAM, HASSAN, YU, HON-TSEN, AGRET, SYLVIE, BONHOMME, FRANÇOIS, and CLAUDE, JULIEN

Subjects

ANIMAL morphology, MICE, ANIMAL species, PHYLOGEOGRAPHY, ANIMAL populations

Abstract

The worldwide distributed house mouse, Mus musculus, is subdivided into at least three lineages, Mus musculus musculus, Mus musculus domesticus, and Mus musculus castaneus. The subspecies occur parapatrically in a region considered to be the cradle of the species in Southern Asia ('central region'), as well as in the rest of the world ('peripheral region'). The morphological evolution of this species in a phylogeographical context is studied using a landmark-based approach on mandible morphology of different populations of the three lineages. The morphological variation increases from central to peripheral regions at the population and subspecific levels, confirming a centrifugal sub-speciation within this species. Furthermore, the outgroup comparison with sister species suggests that M. musculus musculus and populations of all subspecies inhabiting the Iranian plateau have retained a more ancestral mandible morphology, suggesting that this region may represent one of the relevant places of the origin of the species. Mus musculus castaneus, both from central and peripheral regions, is morphologically the most variable and divergent subspecies. Finally, the results obtained in the present study suggest that the independent evolution to commensalism in the three lineages is not accompanied by a convergence detectable on jaw morphology. © 2012 The Linnean Society of London, Biological Journal of the Linnean Society, 2012, 105, 635-647. [ABSTRACT FROM AUTHOR]

Published

2012

10. A Comparison of Rarefaction and Bayesian Methods for Predicting the Allelic Richness of Future Samples on the Basis of Currently Available Samples.

Author

Belkhir, Khaud, Dawson, Kevin J., and Bonhomme, François

Subjects

PLANT population genetics, ALLELES, MONTE Carlo method, BAYESIAN analysis, PLANT germplasm, PLANT genetics

Abstract

Rarefaction methods have been introduced into population genetics (from ecology) for predicting and comparing the allelic richness of future samples (or sometimes populations) on the basis of currently available samples, possibly of different sizes. Here, we focus our attention on one such problem: Predicting which population is most likely to yield the future sample having the highest allelic richness. (This problem can arise when we want to construct a core collection from a larger germplasm collection.) We use extensive simulations to compare the performance of the Monte Carlo rarefaction (repeated random subsampling) method with a simple Bayesian approach we have developed--which is based on the Ewens sampling distribution. We found that neither this Bayesian method nor the (Monte Carlo) rarefaction method performed uniformly better than the other. We also examine briefly some of the other motivations offered for these methods and try to make sense of them from a Bayesian point of view. [ABSTRACT FROM AUTHOR]

Published

2006

11. Inferences of selection and migration in the Danish house mouse hybrid zone.

Author

Raufaste, Nathalie, Orth, Annie, Belkhir, Khalid, Senet, David, Carole Smadja, Baird, Stuart J.E., Bonhomme, François, Dod, Barbara, and Boursot, Pierre

Subjects

POPULATION genetics, BIOLOGICAL evolution, MICE, GENES, SPECIES hybridization, BREEDING, HEREDITY, SPECIES

Abstract

We analysed the patterns of allele frequency change for ten diagnostic autosomal allozyme loci in the hybrid zone between the house mouse subspeciesMus musculus domesticusandM. m. musculusin central Jutland. After determining the general orientation of the clines of allele frequencies, we analysed the cline shapes along the direction of maximum gradient. Eight of the ten clines are best described by steep central steps with coincident positions and an average width of 8.9 km (support limits 7.6–12.4) flanked by tails of introgression, indicating the existence of a barrier to gene flow and only weak selection on the loci studied. We derived estimates of migration from linkage disequilibrium in the centre of the zone, and by applying isolation by distance methods to microsatellite data from some of these populations. These give concordant estimates ofσ = 0.5–0.8 km generation. The barrier to gene flow is of the order of 20 km (support limits 14–28), and could be explained by selection of a few per cent at 43–120 underdominant loci that reduces the mean fitness in the central populations to 0.45. Some of the clines appear symmetrical, whereas others are strongly asymmetrical, and two loci appear to have escaped the central barrier to gene flow, reflecting the differential action of selection on different parts of the genome. Asymmetry is always in the direction of more introgression intomusculus, indicating either a general progression ofdomesticusinto themusculusterritory, possibly mediated by differential behaviour, or past movement of the hybrid zone in the opposite direction, impeded by potential geographical barriers to migration indomesticusterritory. © 2005 The Linnean Society of London,Biological Journal of the Linnean Society, 2005,84, 593–616. [ABSTRACT FROM AUTHOR]

Published

2005

12. GENETIC DIFFERENTIATION AT NUCLEAR AND MITOCHONDRIAL LOCI AMONG LARGE WHITE-HEADED GULLS: SEX-BIASED INTERSPECIFIC GENE FLOW?

Author

Crochet, Pierre-Andre, Chen, Junjian Z., Pons, Jean-Marc, Lebreton, Jean-Dominique, Hebert, Paul D. N., Bonhomme, François, and Smith, T.

Subjects

ANIMAL genetics, GULLS, CYTOCHROME b, BIOMARKERS, ISOENZYMES, SPECIES hybridization, MICROSATELLITE repeats, MITOCHONDRIAL DNA

Abstract

We measured genetic differentiation among species of large white-headed gulls using mitochondrial (cytochrome b haplotypes) and nuclear (microsatellites) markers. Additional information was added using a previously published study of allozymes on the same species. Levels of differentiation among species at nuclear markers are much lower than would be expected for avian species and are not concordant with the level of differentiation in mitochondrial markers. This discrepancy is best explained by a combination of recent species origin and interspecific gene flow after speciation. The data also suggest that female-mediated gene flow is reduced compared to male-mediated gene flow, either due to behavioral bias or due to stronger counterselection of female hybrids in accordance with Haldane's rule for ZW species. Whatever the reasons for the low differentiation of the species' nuclear gene pools, the extensive similarity of their nuclear genome demonstrates that selection on a limited number of characters is an important factor in establishing and maintaining clear-cut phenotypic differences between these species and suggests that the number of loci involved in this process is quite low. This situation may not be exceptional in birds, indeed a number of studies have found similarly low level of differentiation in nuclear markers among congeneric bird species, although usually based on a single set of markers. Because hybridization is a widespread phenomenon in birds, many of these cases might be due to interspecific gene flow. [ABSTRACT FROM AUTHOR]

Published

2003

13. ASSORTATIVE FERTILIZATION AND SELECTION AT LARVAL STAGE IN THE MUSSELS MYTILUS EDULIS AND M. GALLOPROVINCIALIS.

Author

Bierne, Nicolas, David, Patrice, Boudry, Pierre, and Bonhomme, François

Subjects

MUSSELS, FERTILIZATION (Biology), GAMETES, BREEDING

Abstract

Investigates the effect of gamete competition on cross-fertilization success and the relative survival and growth rate of parental and F[sub1] individuals from controlled crosses at different stages of the life cycle in two species of mussels. Description on the collection and treatment of larvae; Implications for stability of the hybrid zone; Discussion on assortative fertilization.

Published

2002

14. The Complex History of a Gene Proposed to Participate in a Sexual Isolation Mechanism in House Mice.

Author

Karn, Robert C., Orth, Annie, Bonhomme, François, and Boursot, Pierre

Abstract

Previous behavioral experiments showed that mouse salivary androgen–binding protein (ABP) was involved in interindividual recognition and might play a role in sexual isolation between house mouse (Mus musculus) subspecies. The pattern of evolution of Abpa, the gene for the alpha subunit of ABP, was found to be consistent with this hypothesis. Abpa apparently diverged rapidly between species and subspecies with a large excess of nonsynonymous substitutions, a lack of exon polymorphism within each of the three subspecies, and a lack of intron polymorphism in the one subspecies studied (M. musculus domesticus). Here we characterized the intron and exon sequence variations of this gene in house mouse populations from central Eurasia, a region yet unsampled and thought to be close to the cradle of the radiation of the subspecies. We also determined the intron and exon sequences in seven other species of the genus Mus. We confirmed the general pattern of rapid evolution by essentially nonsynonymous substitutions, both inter- and intraspecifically, supporting the idea that Darwinian selection has driven the evolution of this gene. We also observed a uniform intron sequence in five samples of M. musculus musculus, suggesting that a selective sweep might have occurred for that allele. In contrast to previous results, however, we found extensive intron and exon polymorphism in some house mouse populations from central Eurasia. We also found evidence for secondary admixture of the subspecies-specific alleles in regions of transition between the subspecies in central Eurasia. Furthermore, an abnormal intron phylogeny suggested that interspecific exchanges had occurred between the house mouse subspecies and three other Palearctic species. These observations appear to be at variance with the simple hypothesis that Abpa is involved in reproductive isolation. Although we do not rule out a role in recognition, the situation appears to be more complex than previously thought. Thus the selective mechanism behind the evolution of Abpa remains to be resolved, and we suggest that it may have changed during the recent colonization history of the house mouse. [ABSTRACT FROM PUBLISHER]

Published

2002

15. Nuclear-DNA evidence that northeastern Atlantic Mytilus trossulus mussels carry M. edulis genes.

Author

Borsa, Philippe, Daguin, Claire, Caetano, Sofia Ramos, and Bonhomme, François

Subjects

MYTILUS, MYTILUS edulis, GENETIC markers, MUSSELS

Abstract

The article presents a study which characterized the mussel polyphenolic adhesive protein, Glu-5 allele polymorphism in Mytillus mussels from Gilleleje, Kattegat. It was found that Baltic Sea Mytilus possess Mytilus edulis characters. The study also found that nuclear-DNA and possibly mtDNA markers show the presence of Mytilus edulis genes in Gdansk Bay Mytilus. Explanations for the finding are offered.

Published

1999

16. Mouse subspecies differentiation and H-2 polymorphism.

Author

MORIWAKI, KAZUO, SAGAI, TOMOKO, SHIROISHI, TOSHIHIKO, BONHOMME, FRANÇOIS, CHENGHUAI, WANG, XINQUAO, HE, MEILEI, JIN, and ZHENGAN, WU

Published

1990

17. Morphometric stepwise discriminant analysis of the five genetically determined European taxa of the genus Mus.

Author

GERASIMOV, SVETOSLAV, NIKOLOV, HRISTO, MIHAILOVA, VASKA, AUFFRAY, JEAN-CHRISTOPHE, and BONHOMME, FRANÇOIS

Published

1990

18. The polyphyletic origin of laboratory inbred mice and their rate of evolution.

Author

Bonhomme, François, Guenet, Jean-Louis, Dod, Barbara, Moriwaki, Kazuo, and Bulfield, Grahame

Published

1987

19. Counterselection on sex chromosomes in the Mus musculus European hybrid zone.

Author

Dod, Barbara, Jermiin, Lars S., Boursot, Pierre, Chapman, Verne H., Nielsen, J. Tönnes, and Bonhomme, François

Published

1993

20. Expression of GM1 and GD1a in Liver of Wild Mice1.

Author

HASHIMOTO, Yasuhiro, SUZUKI, Akemi, YAMAKAWA, Tamio, WANG, Cheng Hai, BONHOMME, François, MIYASHITA, Nobumoto, and MORIWAKI, Kazuo

Published

1984

21. Lgals6, a 2-Million-Year-Old Gene in Mice: A Case of Positive Darwinian Selection and Presence/Absence Polymorphism.

Author

Houzelstein, Denis, Gonçalves, Isabelle R., Orth, Annie, Bonhomme, François, and Netter, Pierre

Subjects

*ANIMAL genetics research, *ANIMAL population genetics, *GENETIC polymorphisms, *PATHOGENIC microorganisms, *MICE genetics, *ANIMAL genome mapping

Abstract

Duplications of genes are widely considered to be a driving force in the evolutionary process. The fate of such duplicated genes (paralogs) depends mainly on the early stages of their evolution. Therefore, the study of duplications that have already started to diverge is useful to better understand their evolution. We present here the example of a 2-million-year-old segmental duplication at the origin of the Lgals4 and LgaLc6 genes in the mouse genome. We analyzed the distribution of these genes in samples from 110 wild individuals and wild-derived inbred strains belonging to eight mouse species from Mus (Coelomys) pahari to M. musculus and 28 laboratory strains. Using a maximum-likelihood method, we show that the sequence of the Lgals6 gene has evolved under the influence of strong positive selection that is likely to result in its neo-functionalization. Surprisingly, despite this selection pressure, the Lgalc6 gene is present in some mouse species, hut not all. Furthermore, even within the species and populations where it is present, the Lgals6 gene is never fixed. To explain this paradox, we propose different hypotheses such as balanced selection and neutral retention of ancient polymophism and we discuss this unexpected result with regard to known galectin properties and response to infections by pathogens. [ABSTRACT FROM AUTHOR]

Published

2008