THE EVOLUTION OF HOUSE MICE
暂无分享,去创建一个
F. Bonhomme | P. Boursot | J. Auffray | Jean-Christophe Auffray | J. Britton-Davidian | François Bonhomme | Pierre Boursot | Janice Britton-Davidian | J. Britton-davidian
[1] M. Hammer,et al. Genetic exchange across a paracentric inversion of the mouse t complex. , 1991, Genetics.
[2] R. Patnaik. First fossil mouse (Mus, rodentia) from Indian Siwaliks, tatrot formation (Saketi,H.P.) : implications for evolutionary history , 1990 .
[3] F. Bonhomme,et al. Absence of Y-chromosome introgression across the hybrid zone between Mus musculus domesticus and Mus musculus musculus. , 1986, Genetical research.
[4] L. Jacobs,et al. Quo Vadis, Antemus? The Siwalik Muroid Record , 1990 .
[5] T. Shiroishi,et al. FREQUENCY DISTRIBUTION OF HISTOCOMPATIBILITY‐2 ANTIGENIC SPECIFICITIES IN THE JAPANESE WILD MOUSE GENETICALLY REMOTE FROM THE EUROPEAN SUBSPECIES , 1979, Journal of immunogenetics.
[6] J. Britton-Davidian,et al. Genic differentiation in M.m. domesticus populations from europe, the Middle East and North Africa : geographic patterns and colonization events , 1990 .
[7] J. Klein,et al. Polymorphism of lymphocyte antigens-encoding loci in wild mice. , 1986, Current topics in microbiology and immunology.
[8] J. Beckmann,et al. Phylogenetic distribution in the genus Mus of t-complex-specific DNA and protein markers: inferences on the origin of t-haplotypes. , 1988, Molecular biology and evolution.
[9] L. Thaler. Origin and evolution of mice: an appraisal of fossil evidence and morphological traits. , 1986, Current topics in microbiology and immunology.
[10] M. J. Harris,et al. Aneuploidy in the embryonic progeny of females heterozygous for the Robertsonian chromosome (9.12) in genetically wild Peru-Coppock mice (Mus musculus). , 1986, Journal of reproduction and fertility.
[11] O. Gotoh,et al. Implications of the genetic divergence between European wild mice with Robertsonian translocations from the viewpoint of mitochondrial DNA. , 1984, Genetical research.
[12] G. Holmquist,et al. Telomere replication, kinetochore organizers, and satellite DNA evolution. , 1979, Proceedings of the National Academy of Sciences of the United States of America.
[13] K. Moriwaki,et al. Variation in the distribution of silver-staining nucleolar organizer regions on the chromosomes of the wild mouse, Mus musculus. , 1990, Molecular biology and evolution.
[14] O. Gotoh,et al. RELATIONSHIP BETWEEN LABORATORY MICE AND THE SUBSPECIES MUS MUSCULUS DOMESTICUS BASED ON RESTRICTION ENDONUCLEASE CLEAVAGE PATTERNS OF MITOCHONDRIAL DNA , 1980 .
[15] C. King. Age structure and reproduction in feral New Zealand populations of the house mouse (Mus musculus), in relation to seedfall of southern beech , 1982 .
[16] K. Kondo,et al. Geographical survey of protein variations in wild populations of Japanese house mouse, Mus musculus molossinus , 1981 .
[17] Eitan Tchernov,et al. Of mice and men. Biological markers for long-term sedentism : a reply , 1991 .
[18] T. Cox. Odor-based discrimination between noncontiguous demes of wild mus , 1989 .
[19] L. Silver. Mouse t haplotypes. , 1985, Annual review of genetics.
[20] F. Spirito. The exact values of the probability of fixation of underdominant chromosomal rearrangements. , 1992, Theoretical population biology.
[21] F. Bonhomme,et al. Counterselection on sex chromosomes in the Mus musculus European hybrid zone , 1993 .
[22] J. Klein,et al. Low diversity of t haplotypes in the eastern form of the house mouse, Mus musculus L. , 1991, Genetics.
[23] A. E. Baker. Gene flow in house mice: Behavior in a population cage , 1981, Behavioral Ecology and Sociobiology.
[24] F. Bonhomme,et al. Evolutionary implication of heterogeneity of the nontranscribed spacer region of ribosomal DNA repeating units in various subspecies of Mus musculus. , 1986, Molecular biology and evolution.
[25] L. Silver,et al. Genetic analysis of the proximal portion of the mouse t complex: Evidence for a second inversion within t haplotypes , 1986, Cell.
[26] A. Coutinho,et al. Vβ17 gene polymorphism in wild-derived mouse strains: Two amino acid substitutions in the Vβ17 region greatly alter T cell receptor specificity , 1990, Cell.
[27] M. Nei,et al. Nucleotide substitution at major histocompatibility complex class II loci: evidence for overdominant selection. , 1989, Proceedings of the National Academy of Sciences of the United States of America.
[28] Isabelle Olivieri,et al. The influence of local extinctions on the probability of fixation of chromosomal rearrangements , 1993 .
[29] E. Schwarz,et al. The Wild and Commensal Stocks of the House Mouse, Mus Musculus Linnaeus , 1943 .
[30] L. Jacobs,et al. Effects of changing environments on Siwalik rodent faunas of northern Pakistan , 1982 .
[31] M. Macholán,et al. Are Robertsonian variations a frequent phenomenon in mouse populations in Eurasia , 1990 .
[32] F. Bonhomme. Genetic diversity and evolution in the genus Mus , 1992 .
[33] A. Pople,et al. Experimental confirmation of interspecific competition between native and introduced mice , 1984 .
[34] E. Capanna. Robertsonian numerical variation in animal speciation: Mus musculus, an emblematic model. , 1982, Progress in clinical and biological research.
[35] T. Cox. Ethological isolation between local populations of house mice (Mus musculus) based on olfaction , 1984, Animal Behaviour.
[36] L. C. Dunn,et al. The Evolutionary Dynamics of a Polymorphism in the House Mouse. , 1960, Genetics.
[37] R. Berry. Genetical processes in wild mouse populations. Past myth and present knowledge. , 1986, Current topics in microbiology and immunology.
[38] Y. Yanagi,et al. Polymorphism of T-cell receptor genes among laboratory and wild mice: Diverse origins of laboratory mice , 2006, Immunogenetics.
[39] J. Nadeau,et al. Genic differentiation and origin of Robertsonian populations of the house mouse (Mus musculus domesticus Rutty). , 1989, Genetical research.
[40] F. P. Rowe,et al. Recolonization of the buildings on a farm by house mice , 1987 .
[41] H. Hauffe,et al. A disappearing speciation event? , 1992, Nature.
[42] N. Barton,et al. Adaptation, speciation and hybrid zones , 1989, Nature.
[43] C. Denys,et al. THE AFRICAN NANNOMYS (MURIDAE): AN EARLY OFFSHOOT FROM THE MUS LINEAGE—EVIDENCE FROM scnDNA HYBRIDIZATION EXPERIMENTS AND COMPARED MORPHOLOGY , 1992 .
[44] E. G. Cothran,et al. Chromosomal and Genic Divergence in Mammals , 1983 .
[45] J. Coyne. Correlation between Heterozygosity and Rate of Chromosome Evolution in Animals , 1984, The American Naturalist.
[46] G. Bulfield,et al. Robertsonian karyotype Variation in the European house mouse, Mus musculus Survey of present knowledge and new observations , 1988 .
[47] F. Bonhomme,et al. Serological survey of T-lymphocyte differentiation antigens in wild mice , 1985, Immunogenetics.
[48] F. Bonhomme,et al. Variations of a Y chromosome repeated sequence across subspecies of Mus musculus , 1989, Heredity.
[49] W. Atchley,et al. Evolution in inbred strains of mice appears rapid. , 1985, Science.
[50] M. Petras,et al. The fate of Mus domesticus demes after destruction of their habitats , 1986 .
[51] D. Pilbeam,et al. Of mice and men: Fossil-based divergence dates and molecular “clocks” , 1980 .
[52] W. Potts,et al. Communal nesting patterns in mice implicate MHC genes in kin recognition , 1992, Nature.
[53] J. Cassaing,et al. Organisation spatiale, competition et dynamique des populations sauvages de Souris (Mus spretus Lataste et Mus musculus domesticus Rutty) du Midi de la France , 1984 .
[54] J. Cassaing. Interactions intra- et interspécifiques chez les souris sauvages du Midi de la France, Mus musculus domesticus et Mus spretus: conséquences sur la compétition entre les deux espèces , 1984 .
[55] N. Barton,et al. THE PROBABILITY OF FIXATION OF A NEW KARYOTYPE IN A CONTINUOUS POPULATION , 1991, Evolution; international journal of organic evolution.
[56] M. Hammer,et al. Evolution of mouse chromosome 17 and the origin of inversions associated with t haplotypes. , 1989, Proceedings of the National Academy of Sciences of the United States of America.
[57] A. Reisner,et al. Food restriction: mechanisms limiting numbers and home site utilization in populations of house mice, Mus musculus , 1989 .
[58] J. Auffray,et al. Origine du commensalisme de la souris domestique (Mus musculus domesticus) vis-à-vis de l'homme , 1988 .
[59] J. Klein,et al. On the origin of mice , 1987 .
[60] R. Riblet,et al. Evolution of the immunoglobulin heavy chain variable region (Igh-V) locus in the genusMus , 2006, Immunogenetics.
[61] M. Nei,et al. Pattern of nucleotide substitution at major histocompatibility complex class I loci reveals overdominant selection , 1988, Nature.
[62] L. Thaler,et al. Différenciation géographique du génome mitochondrial chez Mus spretus Lataste , 1985 .
[63] P. K. Anderson. Density, social structure, and nonsocial environment in house-mouse populations and the implications for regulation of numbers. , 1961, Transactions of the New York Academy of Sciences.
[64] P. Tucker,et al. Y chromosome evolution in the subgenus Mus (genus Mus). , 1989, Genetics.
[65] A. Wilson,et al. Chromosomal evolution, speciation and morphological change in vertebrates: the role of social behaviour , 1984 .
[66] J. Gentry,et al. Interactions of Peromyscus and Mus in a One-Acre Field Enclosure , 1965 .
[67] F. Bonhomme,et al. Allelic constitution of the hemoglobin beta chain in wild populations of the house mouse, Mus musculus , 1985, Biochemical Genetics.
[68] V. Bauchau,et al. Robertsonian translocations in free‐living populations of the house mouse in Belgium , 1990 .
[69] J. Auffray,et al. When did the house mouse colonize Europe , 1992 .
[70] G. Nascetti,et al. Role of contact areas in chromosomal speciation of the European long-tailed house mouse (Mus musculus domesticus) , 1985 .
[71] P. Tucker,et al. ABRUPT CLINE FOR SEX CHROMOSOMES IN A HYBRID ZONE BETWEEN TWO SPECIES OF MICE , 1992, Evolution; international journal of organic evolution.
[72] G. Barrett,et al. EFFECTS OF RESOURCE PARTITIONING ON THE POPULATION DYNAMICS AND ENERGY UTILIZATION STRATEGIES OF FERAL HOUSE MICE (MUS MUSCULUS) POPULATIONS UNDER EXPERIMENTAL FIELD CONDITIONS , 1978 .
[73] G. Corbet. The relevance of metrical chromosomal and allozyme variation to the systematics of the genus Mus , 1990 .
[74] F. Bonhomme,et al. Molecular phylogenies in the genus Mus: Comparative analysis of electrophoretic, scnDNA hybridization, and mtDNA RFLP data , 1990 .
[75] A. E. Baker. Distribution of feeding and drinking by groups of captive house mice , 1985, Behavioural Processes.
[76] R. Berry. Town Mouse, Country Mouse: adaptation and adaptability in Mus domesticus (M. musculus domesticus) , 1981 .
[77] A. Wilson,et al. Genetic analysis of a hybrid zone between domesticus and musculus mice (Mus musculus complex): hemoglobin polymorphisms. , 1986, Current topics in microbiology and immunology.
[78] A. Newsome. A population study of house-mice permanently inhabiting a reed-bed in South Australia. , 1969 .
[79] R. Selander,et al. Biochemical genetics of hybridisation in european house mice , 1973, Heredity.
[80] O. Gotoh,et al. Evolutionary relationships among five subspecies of Mus musculus based on restriction enzyme cleavage patterns of mitochondrial DNA. , 1981, Genetics.
[81] F. Bonhomme,et al. The polyphyletic origin of laboratory inbred mice and their rate of evolution , 1987 .
[82] J. Endler. Geographic variation, speciation, and clines. , 1977, Monographs in population biology.
[83] A. Wilson,et al. Flow of mitochondrial DNA across a species boundary. , 1983, Proceedings of the National Academy of Sciences of the United States of America.
[84] H. Yonekawa,et al. Genetic features of major geographical isolates of Mus musculus. , 1986, Current topics in microbiology and immunology.
[85] G. Singleton. The Social and Genetic Structure of a Natural Colony of House Mice, Mus musculus, at Healesville WildlifeSanctuary , 1983 .
[86] A. Wilson,et al. Wormy mice in a hybrid zone , 1986, Nature.
[87] E. Eicher,et al. Mus poschiavinus Y chromosome in the C57BL/6J murine genome causes sex reversal. , 1982, Science.
[88] C. Redi,et al. Kinetics of oogenesis in mice heterozygous for Robertsonian translocation. , 1990, Differentiation; research in biological diversity.
[89] M J White,et al. Models of speciation. New concepts suggest that the classical sympatric and allopatric models are not the only alternatives. , 1968, Science.
[90] J. Klein,et al. Polymorphism of t -complex genes in European wild mice , 1984 .
[91] A. Wilson,et al. Evidence from mtDNA sequences that common laboratory strains of inbred mice are descended from a single female , 1982, Nature.
[92] K. T. Delong,et al. Population Ecology of Feral House Mice , 1967 .
[93] W. Talbot,et al. The origin of MHC class II gene polymorphism within the genus Mus , 1988, Nature.
[94] A. E. Baker. GENE FLOW IN HOUSE MICE: INTRODUCTION OF A NEW ALLELE INTO FREE‐LIVING POPULATIONS , 1981, Evolution; international journal of organic evolution.
[95] F. Bonhomme. Evolutionary relationships in the genus Mus. , 1986, Current topics in microbiology and immunology.
[96] N. Bulatova,et al. Variants of the Y‐chromosome in sympatric taxa of Mus in southern USSR , 1990 .
[97] J. Britton-Davidian,et al. Genetic differentiation and habitat partition of Robertsonian house mouse populations (Mus musculus domesticus) of Tunisia , 1991 .
[98] Donald R. Breakey. The Breeding Season and Age Structure of Feral House Mouse Populations near San Francisco Bay, California , 1963 .
[99] E. Capanna,et al. Parapatric hybridization in the chromosomal speciation of the house mouse , 1990 .
[100] M. Davisson,et al. C-band polymorphisms in exotic inbred strains of mice: a method for mapping centromeric ends of chromosomes. , 1991, Cytogenetics and cell genetics.
[101] G. Cheylan,et al. Mecanismes de coexistence dans une guilde de murides insulaires (Rattus rattus L., Apodemus sylvaticus L. et Mus musculus domesticus Rutty) en Corse: Consequences evolutives , 1988 .
[102] E. Nevo,et al. Presence and ecological distribution of Mus spretoides and Mus musculus domesticus in Israel Circum-Mediterranean vicariance in the genus Mus , 1990 .
[103] M. Cristaldi,et al. Chromosomal Rearrangement, Reproductive Isolation and Speciation in Mammals. The Case of Mus Musculus , 1977 .
[104] K. F. Lindahl,et al. Beta-2 microglobulin types in mice of wild origin , 2004, Immunogenetics.
[105] G. Guila. A comparative study of different populations of Mus musculus domesticus: emotivity as an index of adaptation to commensalism. , 1991, Comparative biochemistry and physiology. A, Comparative physiology.
[106] J. Dallas,et al. Experimental evidence of genetic determinism in high susceptibility to intestinal pinworm infection in mice: a hybrid zone model , 1993, Parasitology.
[107] F. Bonhomme,et al. H-2 polymorphisms are more uniformly distributed than allozyme polymorphisms in natural populations of house mice. , 1988, Genetics.
[108] L. Thaler,et al. Analyse génétique de la zone d'hybridation entre les deux sous-espèces de souris Mus musculus domesticus et Mus musculus musculus en Bulgarie , 1988 .
[109] V. Bauchau,et al. Segregation and fertility in Mus musculus domesticus (wild mice) heterozygous for the Rb(4.12) translocation , 1992, Heredity.
[110] M. Petras,et al. Breeding structure of the house mouse, Mus musculus, in a population cage. , 1967, Journal of mammalogy.
[111] D. E. Scott,et al. Habitat Use by Insular Populations of Mus and Peromyscus: What is the Role of Competition? , 1992 .
[112] F. Bonhomme,et al. Genetical variation and polyphyletic origin in Japanese Mus musculus , 1989, Heredity.
[113] R. Berry. Biology of the house mouse. , 1982 .
[114] F. Bonhomme,et al. Morphometric stepwise discriminant analysis of the five genetically determined European taxa of the genus Mus , 1990 .
[115] R. Sage. GENETIC HETEROGENEITY OF SPANISH HOUSE MICE (MUS MUSCULUS COMPLEX) 1 , 1978 .
[116] A. Wilson,et al. Rapid speciation and chromosomal evolution in mammals. , 1977, Proceedings of the National Academy of Sciences of the United States of America.
[117] Edward K. Wakeland,et al. Mating patterns in seminatural populations of mice influenced by MHC genotype , 1991, Nature.
[118] M. Cristaldi,et al. MECHANISMS OF FIXATION AND ACCUMULATION OF CENTRIC FUSIONS IN NATURAL POPULATIONS OF MUS MUSCULUS L. I. KARYOLOGICAL ANALYSIS OF A HYBRID ZONE BETWEEN TWO POPULATIONS IN THE CENTRAL APENNINES , 1980, Evolution; international journal of organic evolution.
[119] M. Nei,et al. Allelic genealogy under overdominant and frequency-dependent selection and polymorphism of major histocompatibility complex loci. , 1990, Genetics.
[120] D. Jánossy. Pleistocene Vertebrate Faunas of Hungary , 1986 .
[121] F. Bonhomme,et al. Focus on the nomenclature of European species of Mus , 1990 .
[122] A. Wilson,et al. Mitochondrial DNA evolution in mice. , 1983, Genetics.
[123] S. O’Brien,et al. The Lake Casitas wild mouse: evolving genetic resistance to retroviral disease. , 1991, Trends in genetics : TIG.
[124] F. Bonhomme,et al. A steep cline for mitochondrial DNA in Danish mice. , 1988, Genetical research.
[125] F. Bonhomme,et al. The generation of MHC class II gene polymorphism in the genus Mus , 1990 .
[126] R. Baker,et al. Speciation by monobrachial centric fusions. , 1986, Proceedings of the National Academy of Sciences of the United States of America.
[127] F. Bonhomme,et al. Wormy mice in a hybrid zone: A genetic control of susceptibility to parasite infection , 1991 .
[128] V. Bauchau. Phylogenetic Analysis of the Distribution of Chromosomal Races of Mus-musculus Domesticus Rutty in Europe , 1990 .
[129] O. Gotoh,et al. Origins of laboratory mice deduced from restriction patterns of mitochondrial DNA. , 1982, Differentiation; research in biological diversity.
[130] J. Auffray,et al. The house mouse progression in Eurasia : a palaeontological and archaeozoological approach , 1990 .
[131] J. Klein,et al. Polymorphisms distinguishing different mouse species and t haplotypes. , 1992, Genetical research.
[132] P. Raven,et al. Modern Aspects of Species , 1987 .
[133] G. Estabrook,et al. MICROEVOLUTIONARY SEQUENCES IN HOUSE MOUSE CHROMOSOMAL SPECIATION , 1986 .
[134] J. Britton-Davidian,et al. Genetic structure of insular Mediterranean populations of the house mouse , 1989 .
[135] T. O'Connor. Pets and pests in Roman and medieval Britain , 1992 .
[136] R. Berry,et al. Heterogeneous heterozygosities in Mus musculus populations , 1977, Proceedings of the Royal Society of London. Series B. Biological Sciences.
[137] D. Nižetić,et al. Evolutionary relationships between the t and H-2 haplotypes in the house mouse , 2004, Immunogenetics.
[138] A. Wilson,et al. Interspecific mitochondrial DNA transfer and the colonization of Scandinavia by mice. , 1987, Genetical research.
[139] D. Hatat,et al. Most classical Mus musculus domesticus laboratory mouse strains carry a Mus musculus musculus Y chromosome , 1985, Nature.
[140] F. Bonhomme,et al. Haplotypes that are mosaic for wild-type and t complex-specific alleles in wild mice. , 1989, Genetics.
[141] O. Gotoh,et al. Hybrid origin of Japanese mice "Mus musculus molossinus": evidence from restriction analysis of mitochondrial DNA. , 1988, Molecular biology and evolution.
[142] A. Reisner,et al. VARIATION IN NUMBERS IN A HOUSE MOUSE POPULATION HOUSED IN A LARGE OUTDOOR ENCLOSURE: SEASONAL FLUCTUATIONS , 1986 .
[143] J. Duplantier,et al. Premières données sur l'écologie des populations naturelles de souris, Mus spretus Lataste et Mus musculus domesticus Rutty dans le midi de la France , 1982 .
[144] Suh‐Yung Yang,et al. PROTEIN POLYMORPHISM AND GENIC HETEROZYGOSITY IN TWO EUROPEAN SUBSPECIES OF THE HOUSE MOUSE , 1969, Evolution; international journal of organic evolution.
[145] J. Klein,et al. MHC polymorphism pre-dating speciation , 1988, Nature.
[146] R. C. Karn,et al. Salivary androgen-binding protein variation in Mus and other rodents. , 1991, The Journal of heredity.
[147] A. Gropp. Consequences of Robertsonian heterozygosity: segregational impairment of fertility versus male-limited sterility. , 1982 .
[148] B. John,et al. Causes and consequences of Robertsonian exchange , 1975, Chromosoma.
[149] F. Bronson,et al. Life History AND BIOECONOMY OF THE House Mouse , 1992, Biological reviews of the Cambridge Philosophical Society.
[150] R. Baker,et al. Reassessment of the Nature of Chromosomal Evolution in Mas Musculus , 1980 .
[151] F. Catzeflis,et al. Muroid rodents: Phylogeny and evolution. , 1992, Trends in ecology & evolution.
[152] R. Elliott,et al. Nonhomologous pairing in mice heterozygous for a t haplotype can produce recombinant chromosomes with duplications and deletions. , 1986, Genetics.
[153] M. White. Chain Processes in Chromosomal Speciation , 1978 .
[154] L. C. Dunn,et al. Introduction of a Lethal Allele into a Feral House Mouse Population , 1964, The American Naturalist.
[155] C. Jones,et al. Mitochondrial DNA sequence diversity and the colonization of Scandinavia by house mice from East Holstein , 1993 .