Abstract is: Judith Elizabeth Mank is an American-British zoologist who is a Canada 150 Chair at the University of British Columbia. Her research considers how selection produces variations in form. She is interested in sexual dimorphism and the formation of sex chromosomes.
human | Q5 |
P2080 | AcademiaNet ID | 1144901 |
P2671 | Google Knowledge Graph ID | /g/11f0zbgdgf |
P1960 | Google Scholar author ID | 3zGwrO0AAAAJ |
P269 | IdRef ID | 180724363 |
P496 | ORCID iD | 0000-0002-2450-513X |
P6821 | Uppsala University Alvin ID | alvin-person:66788 |
P214 | VIAF ID | 313567701 |
P166 | award received | ZSL Scientific Medal | Q60262270 |
P108 | employer | University of British Columbia | Q391028 |
P734 | family name | Mank | Q37264698 |
Mank | Q37264698 | ||
Mank | Q37264698 | ||
P735 | given name | Judith | Q5954149 |
Judith | Q5954149 | ||
P106 | occupation | researcher | Q1650915 |
geneticist | Q3126128 | ||
P21 | sex or gender | female | Q6581072 |
Q55894012 | A Century of Hybridization: Decreasing Genetic Distance Between American Black Ducks and Mallards |
Q28299812 | All dosage compensation is local: gene-by-gene regulation of sex-biased expression on the chicken Z chromosome |
Q38846092 | Allele-Specific Expression Analysis Does Not Support Sex Chromosome Inactivation on the Chicken Z Chromosome. |
Q37941230 | Are all sex chromosomes created equal? |
Q37186299 | Are sex-biased genes more dispensable? |
Q35887256 | Battle of the sexes: conflict over dosage-sensitive genes and the origin of X chromosome inactivation. |
Q28767976 | Cladogenetic correlates of genomic expansions in the recent evolution of actinopterygiian fishes |
Q51792118 | Comparative phylogenetic analysis of male alternative reproductive tactics in ray-finned fishes. |
Q36882240 | Compensation of Dosage-Sensitive Genes on the Chicken Z Chromosome |
Q125461780 | Conceptual and empirical bridges between micro- and macroevolution |
Q34931111 | Conflict on the sex chromosomes: cause, effect, and complexity. |
Q36132295 | Conservation of Regional Variation in Sex-Specific Sex Chromosome Regulation |
Q37622591 | Convergent recombination suppression suggests role of sexual selection in guppy sex chromosome formation. |
Q43176757 | Deficit of mitonuclear genes on the human X chromosome predates sex chromosome formation |
Q57295508 | Early neurogenomic response associated with variation in guppy female mate preference |
Q47172927 | Effective population size and the Faster-X effect: empirical results and their interpretation |
Q56083536 | Evolution of alternative sex-determining mechanisms in teleost fishes |
Q35917147 | Evolution of dosage compensation under sexual selection differs between X and Z chromosomes |
Q82281864 | Evolution. Sexual selection and Darwin's mystery of mysteries |
Q37580643 | Evolutionary diversity and turn-over of sex determination in teleost fishes. |
Q37580661 | Evolutionary perspectives on hermaphroditism in fishes. |
Q34407806 | Experimental evolution of a novel sexually antagonistic allele. |
Q51114682 | Expression change in Angiopoietin-1 underlies change in relative brain size in fish |
Q33281455 | Fast-X on the Z: rapid evolution of sex-linked genes in birds |
Q45720904 | Faster-Z evolution is predominantly due to genetic drift |
Q30360382 | Female brain size affects the assessment of male attractiveness during mate choice. |
Q46665984 | Genetics: A social rearrangement. |
Q27022225 | How to make a sex chromosome |
Q36447165 | Incomplete sex chromosome dosage compensation in the Indian meal moth, Plodia interpunctella, based on de novo transcriptome assembly |
Q34781903 | Independent stratum formation on the avian sex chromosomes reveals inter-chromosomal gene conversion and predominance of purifying selection on the W chromosome |
Q81636435 | Individual organisms as units of analysis: Bayesian-clustering alternatives in population genetics |
Q48549985 | Inferring regulatory change from gene expression: the confounding effects of tissue scaling. |
Q52699326 | Journal club. An evolutionary biologist compares genomic complexity to modern art. |
Q34961949 | Masculinization of gene expression is associated with exaggeration of male sexual dimorphism |
Q79787809 | Mating preferences, sexual selection and patterns of cladogenesis in ray-finned fishes |
Q53112671 | Network analysis of functional genomics data: application to avian sex-biased gene expression. |
Q51584519 | Ontogenetic complexity of sexual dimorphism and sex-specific selection. |
Q80487414 | Parallel divergence and degradation of the avian W sex chromosome |
Q79931683 | Phylogenetic conservation of chromosome numbers in Actinopterygiian fishes |
Q36253513 | Phylogenetic perspectives in the evolution of parental care in ray-finned fishes. |
Q33313020 | Pleiotropic constraint hampers the resolution of sexual antagonism in vertebrate gene expression |
Q30442055 | Polyandry and sex-specific gene expression |
Q50073049 | Population genetics of sexual conflict in the genomic era. |
Q36077811 | Positive Selection Underlies Faster-Z Evolution of Gene Expression in Birds. |
Q38814601 | Recent sex chromosome divergence despite ancient dioecy in the willow Salix viminalis |
Q28651598 | Running with the Red Queen: the role of biotic conflicts in evolution |
Q38129609 | Sex chromosome dosage compensation: definitely not for everyone. |
Q51814012 | Sex chromosomes and male ornaments: a comparative evaluation in ray-finned fishes. |
Q37726020 | Sex chromosomes and the evolution of sexual dimorphism: lessons from the genome |
Q21092698 | Sex determination: why so many ways of doing it? |
Q62516737 | Sex-biased gene expression resolves sexual conflict through the evolution of sex-specific genetic architecture |
Q51662037 | Sex-linkage of sexually antagonistic genes is predicted by female, but not male, effects in birds. |
Q35378408 | Sexual selection drives evolution and rapid turnover of male gene expression |
Q55042828 | Shared and Species-Specific Patterns of Nascent Y Chromosome Evolution in Two Guppy Species. |
Q91396579 | Signature of sexual conflict is actually conflict resolved |
Q35822176 | Small but mighty: the evolutionary dynamics of W and Y sex chromosomes. |
Q34203619 | Some inconvenient truths about sex chromosome dosage compensation and the potential role of sexual conflict. |
Q45962806 | Sperm competition shapes gene expression and sequence evolution in the ocellated wrasse. |
Q34071198 | The W, X, Y and Z of sex-chromosome dosage compensation. |
Q34131622 | The birds and the bees and the flowers and the trees: lessons from genetic mapping of sex determination in plants and animals |
Q36043417 | The evolution of gene expression and the transcriptome-phenotype relationship. |
Q46578143 | The evolution of heterochiasmy: the role of sexual selection and sperm competition in determining sex-specific recombination rates in eutherian mammals. |
Q51771487 | The evolution of sexually selected traits and antagonistic androgen expression in actinopterygiian fishes. |
Q38383902 | The locus of sexual selection: moving sexual selection studies into the post-genomics era. |
Q37716131 | The ontogeny and evolution of sex-biased gene expression in Drosophila melanogaster. |
Q38491087 | The plover neurotranscriptome assembly: transcriptomic analysis in an ecological model species without a reference genome. |
Q33696309 | The potential role of sexual conflict and sexual selection in shaping the genomic distribution of Mito-nuclear genes |
Q30841449 | The role of sex chromosomes in sexual dimorphism: discordance between molecular and phenotypic data |
Q35155700 | The scope and strength of sex-specific selection in genome evolution. |
Q54564990 | The transcriptional architecture of phenotypic dimorphism. |
Q31151094 | The unique genomic properties of sex-biased genes: insights from avian microarray data |
Q39512774 | Tissue Specificity and Sex-Specific Regulatory Variation Permit the Evolution of Sex-Biased Gene Expression |
Q36439819 | Trade-off between selection for dosage compensation and masculinization on the avian Z chromosome |
Q49928523 | Transitions in sex determination and sex chromosomes across vertebrate species |
Q28601504 | Variation in promiscuity and sexual selection drives avian rate of Faster-Z evolution |
Q35991385 | W chromosome expression responds to female-specific selection. |
Q112609634 | Widespread cryptic variation in genetic architecture between the sexes |
Judith Mank | wikipedia |
Search more.