The Relative Contribution of Sexual and Asexual Reproduction to Genetic Variation in Natural Populations of the PondweedPotamogeton Pectinatus

AbstractAlthough evolutionary transitions from sexual to asexual reproduction are frequent in eukaryotes, the genetic bases of these shifts remain largely elusive. Here, we used classic quantitative trait analysis, combined with genomic and transcriptomic information to dissect the genetic basis of asexual, parthenogenetic reproduction in the brown algaEctocarpus. We found that parthenogenesis is controlled by the sex locus, together with two additional autosomal loci, highlight the key role of the sex chromosome as a major regulator of asexual reproduction. Importantly, we identify several negative effects of parthenogenesis on male fitness, but also different fitness effects between parthenogenesis and life cycle generations, supporting the idea that parthenogenesis may be under both sexual selection and generation/ploidally-antagonistic selection. Overall, our data provide the first empirical illustration, to our knowledge, of a trade-off between the haploid and diploid stages of the life cycle, where distinct parthenogenesis alleles have opposing effects on sexual and asexual reproduction and may contribute to the maintenance of genetic variation. These types of fitness trade-offs have profound evolutionary implications in natural populations and may structure life history evolution in organisms with haploid-diploid life cycles.

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Reexamining Waddington: Canalization and new mutations are not required for the evolution of genetic assimilation

10.1101/2022.01.09.475581 ◽

2022 ◽

Author(s):

Sarah Ruth Marzec ◽

Katharine Pelletier ◽

Amy Hui-Pin Chang ◽

Ian Dworkin

Keyword(s):

Genetic Variation ◽

Natural Populations ◽

Genetic Assimilation ◽

Wing Morphology ◽

Relative Contribution ◽

Fitness Consequences ◽

Selection Experiments ◽

Environmentally Sensitive ◽

New Mutations

Over 65 years ago, Waddington demonstrated ancestrally phenotypically plastic traits can evolve to become constitutive, a process he termed genetic assimilation. Genetic assimilation evolves rapidly, assumed to be in large part due to segregating genetic variation only expressed in rare/novel environments, but otherwise phenotypically cryptic. Despite previous work suggesting a substantial role of cryptic genetic variation contributing to the evolution of genetic assimilation, some have argued for a prominent role for new mutations of large effect concurrent with selection. Interestingly, Waddington was less concerned by the relative contribution of CGV or new variants, but aimed to test the role of canalization, an evolved form of robustness. While canalization has been extensively studied, its role in the evolution of genetic assimilation is disputed, in part because explicit tests of evolved robustness are lacking. To address these questions, we recreated Waddington's selection experiments on an environmentally sensitive change in Drosophila wing morphology (crossvein development), using many independently evolved replicate lineages. Using these, we show that 1) a polygenic CGV, but not new variants of large effect are largely responsible for the evolved response demonstrated using both genomic and genetic approaches. 2) Using both environmental manipulations and mutagenesis of the evolved lineages that there is no evidence for evolved changes in canalization contributing to genetic assimilation. Finally, we demonstrate that 3) CGV has potentially pleiotropic and fitness consequences in natural populations and may not be entirely cryptic.

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Genetic variation in organisms with sexual and asexual reproduction

Journal of Evolutionary Biology ◽

10.1046/j.1420-9101.2003.00523.x ◽

2003 ◽

Vol 16 (2) ◽

pp. 189-199 ◽

Cited By ~ 131

Author(s):

B. O. Bengtsson

Keyword(s):

Genetic Variation ◽

Asexual Reproduction ◽

Sexual And Asexual Reproduction

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Gemmae in Tetralophozia setiformis (Anastrophyllaceae, Marchantiophyta) and their second record in Eurasia

Novosti sistematiki nizshikh rastenii ◽

10.31111/nsnr/2017.51.242 ◽

2017 ◽

Vol 51 ◽

pp. 242-250

Author(s):

M. V. Dulin

Keyword(s):

British Columbia ◽

Asexual Reproduction ◽

Leaf Shape ◽

Leaf Size ◽

Komi Republic ◽

The Other ◽

Widespread Species ◽

Northern Urals ◽

Sexual And Asexual Reproduction ◽

Murmansk Region

Tetralophozia setiformis is a widespread species occurring usually without organs of sexual and asexual reproduction. Gemmae of Tetralophozia setiformis were observed for the second time in Russia and Eurasia in the Northern Urals, Komi Republic. They form compact masses over upper leaves. The compact masses consist largely (70 %) of immature gemmae. Description of gemmae and gemmiparous shoots from the Northern Urals and their comparison with those from the other known localities, namely British Columbia (Canada) and the Murmansk Region (European Russia) were carried out. The gemmiparous plants of T. setiformis from the Northern Urals have approximately the same width as plants without gemmae but they are shorter. The leaves of gemmiparous plants from the Northern Urals are similar to leaves of gemmiparous plants from British Columbia. The leaf shape in upper part of the gemmiparous shoots varies from the typical to ± modified from gemmae production. These leaf shape transitions include reduction of leaf size and lobe number from 4 to 2–3, suppression of development and disappearance of characteristic teeth at the base of sinus. Gemmae size (17 × 22 μm) of plants from the Northern Urals is within variability recorded for plants from the Murmansk Region and British Columbia.

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What maintains genetic variation in natural populations? A commentary on ‘The maintenance of genetic variability by mutation in a polygenic character with linked loci’ by Russell Lande

Genetics Research ◽

10.1017/s0016672308009567 ◽

2007 ◽

Vol 89 (5-6) ◽

pp. 371-372 ◽

Cited By ~ 2

Author(s):

PATRICK C. PHILLIPS

Keyword(s):

Genetic Variation ◽

Genetic Variability ◽

Natural Populations

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POPULATION GENETICS OF ALLOZYME VARIATION IN NEUROSPORA INTERMEDIA

Genetics ◽

10.1093/genetics/80.4.785 ◽

1975 ◽

Vol 80 (4) ◽

pp. 785-805

Author(s):

P T Spieth

Keyword(s):

Genetic Variation ◽

Vegetative Reproduction ◽

Vascular Plant ◽

Natural Populations ◽

Allozyme Variation ◽

Regular Feature ◽

Local Populations ◽

Neurospora Intermedia ◽

Pattern Of Variation ◽

High Level

ABSTRACT Electrophoretically detectable variation in the fungus Neurospora intermedia has been surveyed among isolates from natural populations in Malaya, Papua, Australia and Florida. The principal result is a pattern of genetic variation within and between populations that is qualitatively no different than the well documented patterns for Drosophila and humans. In particular, there is a high level of genetic variation, the majority of which occurs at the level of local populations. Evidence is presented which argues that N. intermedia has a population structure analogous to that of an annual vascular plant with a high level of vegetative reproduction. Sexual reproduction appears to be a regular feature in the biology of the species. Substantial heterokaryon function seems unlikely in natural populations of N. intermedia. Theoretical considerations concerning the mechanisms underlying the observed pattern of variation most likely should be consistent with haploid selection theory. The implications of this constraint upon the theory are discussed in detail, leading to the presentation of a model based upon the concept of environmental heterogeneity. The essence of the model, which is equally applicable to haploid and diploid situations, is a shifting distribution of multiple adaptive niches among local populations such that a given population has a small net selective pressure in favor of one allele or another, depending upon its particular distribution of niches. Gene flow among neighboring populations with differing net selective pressures is postulated as the principal factor underlying intrapopulational allozyme variation.

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Female Genotypes Affect Sperm Displacement in Drosophila

Genetics ◽

10.1093/genetics/149.3.1487 ◽

1998 ◽

Vol 149 (3) ◽

pp. 1487-1493 ◽

Cited By ~ 6

Author(s):

Andrew G Clark ◽

David J Begun

Keyword(s):

Drosophila Melanogaster ◽

Genetic Variation ◽

Natural Populations ◽

Isogenic Line ◽

Female Fitness ◽

Sperm Displacement ◽

Extensive Variation ◽

Polymorphic Genes ◽

Displacement Parameter ◽

Competitive Success

Abstract Differential success of sperm is likely to be an important component of fitness. Extensive variation among male genotypes in competitive success of sperm in multiply mated females has been documented for Drosophila melanogaster. However, virtually all previous studies considered the female to be a passive vessel. Nevertheless, under certain conditions female fitness could be determined by her role in mediating use of sperm from multiple males. Here we ask whether females differ among genotypes in their tendency to exhibit last-male precedence. Competition of sperm from two tester male genotypes (bwD and B3-09, a third-chromosome isogenic line from Beltsville, MD) was quantified by doubly mating female lines that had been rendered homozygous for X, second, or third chromosomes isolated from natural populations. The composite sperm displacement parameter, P2′, was highly heterogeneous among lines, whether or not viability effects were compensated, implying the presence of polymorphic genes affecting access of sperm to eggs. Genetic variation of this type is completely neutral in the absence of pleiotropy or interaction between variation in the two sexes.

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