scholarly article | Q13442814 |
P2093 | author name string | Sylvain Glémin | |
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The distribution of fitness effects of new deleterious amino acid mutations in humans | Q22065135 | ||
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Biased gene conversion and the evolution of mammalian genomic landscapes | Q28252880 | ||
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Recombinational landscape and population genomics of Caenorhabditis elegans | Q33417666 | ||
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Linkage disequilibrium at steady state determined by random genetic drift and recurrent mutation | Q33986113 | ||
Linkage disequilibrium between two segregating nucleotide sites under the steady flux of mutations in a finite population | Q33987680 | ||
Gene conversion: a hitherto overlooked parameter in population genetics | Q33991499 | ||
Surprising fitness consequences of GC-biased gene conversion: I. Mutation load and inbreeding depression | Q34007952 | ||
The fine-scale structure of recombination rate variation in the human genome | Q34315919 | ||
Genetic linkage and molecular evolution | Q34366168 | ||
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Selection, load and inbreeding depression in a large metapopulation | Q34614716 | ||
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Single-locus heterotic effects and dominance by dominance interactions can adequately explain the genetic basis of heterosis in an elite rice hybrid | Q34807319 | ||
Overdominant quantitative trait loci for yield and fitness in tomato | Q35001859 | ||
The influence of recombination on human genetic diversity | Q35048296 | ||
Biased gene conversion: implications for genome and sex evolution | Q35152220 | ||
Importance of epistasis as the genetic basis of heterosis in an elite rice hybrid | Q36560082 | ||
Adaptation or biased gene conversion? Extending the null hypothesis of molecular evolution | Q36785408 | ||
The different sources of variation in inbreeding depression, heterosis and outbreeding depression in a metapopulation of Physa acuta | Q36969638 | ||
Evolution of a large population under gene conversion | Q37515144 | ||
Evolution of a finite population under gene conversion | Q37617861 | ||
Joint effects of self-fertilization and population structure on mutation load, inbreeding depression and heterosis | Q41872193 | ||
Selection and drift in subdivided populations: a straightforward method for deriving diffusion approximations and applications involving dominance, selfing and local extinctions. | Q42533079 | ||
Genetic rescue in interconnected populations of small and large size of the self-incompatible Ranunculus reptans | Q47365478 | ||
Genetic rescue of an insular population of large mammals | Q51725536 | ||
Mating system and recombination affect molecular evolution in four Triticeae species. | Q53034419 | ||
GC-biased gene conversion promotes the fixation of deleterious amino acid changes in primates. | Q53047749 | ||
An integrative test of the dead-end hypothesis of selfing evolution in Triticeae (Poaceae). | Q53068097 | ||
Biotechnology in the 1930s: the development of hybrid maize. | Q53493519 | ||
Local drift load and the heterosis of interconnected populations | Q54982473 | ||
P433 | issue | 1 | |
P407 | language of work or name | English | Q1860 |
P921 | main subject | heterosis | Q339051 |
P304 | page(s) | 217-227 | |
P577 | publication date | 2010-10-18 | |
P1433 | published in | Genetics | Q3100575 |
P1476 | title | Surprising fitness consequences of GC-biased gene conversion. II. Heterosis | |
P478 | volume | 187 |
Q47239102 | Comparative population genomics in Collinsia sister species reveals evidence for reduced effective population size, relaxed selection, and evolution of biased gene conversion with an ongoing mating system shift |
Q93552248 | Corrigendum |
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Q36830881 | GC-biased gene conversion in yeast is specifically associated with crossovers: molecular mechanisms and evolutionary significance |
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