The Genetic Basis of Prezygotic Reproductive Isolation Between Drosophila santomea and D. yakuba Due to Mating Preference

Speciation involves both ecological adaptation and reproductive isolation. This paper reviews various ways in which plants could achieve reproductive isolation as a direct result of adaptation to prevailing conditions, particularly through changes in flowering time, the adoption of self-fertilization, and changes in flower morphology so that different pollinators are attracted. These characters are likely to have a relatively simple genetic architecture, and there must frequently be genetic variance for them in natural populations. It is argued that speciation could thus be initiated swiftly in plants, without any need for a "genetic revolution" or the fixation of genes with strongly epistatic interactions. Postmating barriers also often have a simple genetic basis in plants, and so could also evolve swiftly if associated with an adaptive response. The nature of the genetic changes associated with speciation in a number of recent speciation events in Layia, Stephanomeria, and Mimulus is reviewed.Key words: Speciation, adaptation, reproductive isolation.

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Sympatric, parapatric or allopatric: the most important way to classify speciation?

Philosophical Transactions of the Royal Society B Biological Sciences ◽

10.1098/rstb.2008.0076 ◽

2008 ◽

Vol 363 (1506) ◽

pp. 2997-3007 ◽

Cited By ~ 189

Author(s):

Roger K Butlin ◽

Juan Galindo ◽

John W Grahame

Keyword(s):

Reproductive Isolation ◽

Local Adaptation ◽

Genetic Basis ◽

Environmental Gradients ◽

Sympatric Speciation ◽

Model System ◽

Littorina Saxatilis ◽

The Past ◽

Intertidal Gastropod

The most common classification of modes of speciation begins with the spatial context in which divergence occurs: sympatric, parapatric or allopatric. This classification is unsatisfactory because it divides a continuum into discrete categories, concentrating attention on the extremes, and it subordinates other dimensions on which speciation processes vary, such as the forces driving differentiation and the genetic basis of reproductive isolation. It also ignores the fact that speciation is a prolonged process that commonly has phases in different spatial contexts. We use the example of local adaptation and partial reproductive isolation in the intertidal gastropod Littorina saxatilis to illustrate the inadequacy of the spatial classification of speciation modes. Parallel divergence in shell form in response to similar environmental gradients in England, Spain and Sweden makes this an excellent model system. However, attempts to demonstrate ‘incipient’ and ‘sympatric’ speciation involve speculation about the future and the past. We suggest that it is more productive to study the current balance between local adaptation and gene flow, the interaction between components of reproductive isolation and the genetic basis of differentiation.

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Conspecific sperm precedence is reinforced but sexual selection weakened in sympatric populations ofDrosophila

10.1101/071886 ◽

2016 ◽

Cited By ~ 4

Author(s):

Dean M. Castillo ◽

Leonie C. Moyle

Keyword(s):

Sexual Selection ◽

Reproductive Isolation ◽

Sperm Competition ◽

Competitive Ability ◽

Genetic Basis ◽

Direct Selection ◽

Sperm Precedence ◽

Sympatric Populations ◽

Selection For ◽

The Cost

SUMMARYSexual selection is well recognized as a driver of reproductive isolation between lineages. However, selection for increased reproductive isolation could reciprocally change the outcomes of sexual selection, when these processes share a genetic basis. Direct selection for reproductive isolation occurs in the context of ‘reinforcement’, where selection acts to increase prezygotic barriers to reduce the cost of heterospecific matings. Many studies of reinforcement focus on premating reproductive barriers, however postmating traits-such as conspecific sperm precedence (CSP)-can also respond to reinforcing selection. We tested whether i) CSP responded to reinforcing selection, and ii) this response in sympatric populations altered intraspecific sperm competition (ISC) and the strength of sexual selection, with the sister speciesDrosophila pseudoobscuraandD. persimilis. We used sperm competition experiments to evaluate differences in CSP and ISC between two sympatric and two allopatric populations ofD. pseudoobscura. Using multiple genotypes for each population allowed us to estimate not only patterns of phenotype divergence, but also the opportunity for sexual selection within each population. Consistent with a pattern of reinforcement, the sympatric populations had higher mean CSP. Moreover, ISC was altered in sympatric populations, where we observed decreased average offensive sperm competitive ability against conspecific males, allowing less opportunity for sexual selection to operate within these populations. These data demonstrate that strong reinforcing selection for reproductive isolation can have consequences for sexual selection and sexual interactions within species, in these important postmating sperm competition traits.

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The Genetic Basis of Reproductive Isolation in House Mice.

Biology of Reproduction ◽

10.1093/biolreprod/85.s1.165 ◽

2011 ◽

Vol 85 (Suppl_1) ◽

pp. 165-165

Author(s):

Michael Nachman

Keyword(s):

Reproductive Isolation ◽

Genetic Basis ◽

House Mice

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The genetic basis of intrinsic and extrinsic post-zygotic reproductive isolation jointly promoting speciation in the lake whitefish species complex (Coregonus clupeaformis)

Journal of Evolutionary Biology ◽

10.1111/j.1420-9101.2006.01150.x ◽

2006 ◽

Vol 19 (6) ◽

pp. 1979-1994 ◽

Cited By ~ 90

Author(s):

S. M. ROGERS ◽

L. BERNATCHEZ

Keyword(s):

Reproductive Isolation ◽

Species Complex ◽

Genetic Basis ◽

Coregonus Clupeaformis ◽

Lake Whitefish

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The Genetic Basis of Postzygotic Reproductive Isolation Between Drosophila santomea and D. yakuba Due to Hybrid Male Sterility

Genetics ◽

10.1534/genetics.105.052985 ◽

2006 ◽

Vol 173 (1) ◽

pp. 225-233 ◽

Cited By ~ 51

Author(s):

Amanda J. Moehring ◽

Ana Llopart ◽

Susannah Elwyn ◽

Jerry A. Coyne ◽

Trudy F. C. Mackay

Keyword(s):

Reproductive Isolation ◽

Male Sterility ◽

Genetic Basis ◽

Hybrid Male ◽

Hybrid Male Sterility ◽

Postzygotic Reproductive Isolation

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Studies on Mating Preference and Productivity in Drosophila ananassae and D. pallidosa and Their Hybrids

International Journal of Biology ◽

10.5539/ijb.v12n2p52 ◽

2020 ◽

Vol 12 (2) ◽

pp. 52

Author(s):

Roshni Singh ◽

Bashisth Narayan Singh

Keyword(s):

Gene Flow ◽

Reproductive Isolation ◽

Sibling Species ◽

Mating Preference ◽

Drosophila Ananassae ◽

Reproductive Barriers ◽

Premating Isolation ◽

Cosmopolitan Species ◽

Viable Offspring

During speciation different kinds of reproductive barriers originate to preclude gene flow between diverging populations. Reproductive isolation or barriers to gene flow can be categorized by the temporal nature of their effect: pre-zygotic barriers occur before fertilization and post-zygotic barriers occur after fertilization. In this study, we studied each components of reproductive isolation between D. ananassae and D. pallidosa, including both pre-zygotic and post-zygotic barriers. Because it might be possible that by dissecting these barriers one can get the answers of many unresolved questions related to the process of speciation of these two sibling species. We reported premating isolation because females of both D. ananassae and D. pallidosa were more discriminative for mating against the alien males rather than conspecific males, and this discrimination was much stronger in case of D. ananassae females for being the ancestral and cosmopolitan species. We also did not find any decrease in the production of progeny or viable offspring in comparison to conspecific males, indicating a lack of postmating prezygotic isolating barriers. Further, there is no complete lack of intrinsic post-zygotic isolation between these species or not complete presence of post-zygotic isolation, as both the hybrid sons were producing less number of progeny in comparison to all the crosses but it is near to significant but not significant and this is contrasting to the results of a previous study.

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How Important Are Structural Variants for Speciation?

Genes ◽

10.3390/genes12071084 ◽

2021 ◽

Vol 12 (7) ◽

pp. 1084

Author(s):

Linyi Zhang ◽

Radka Reifová ◽

Zuzana Halenková ◽

Zachariah Gompert

Keyword(s):

Reproductive Isolation ◽

Statistical Methods ◽

Genetic Basis ◽

Structural Changes ◽

Underlying Mechanism ◽

Structural Variants ◽

Research Directions ◽

New Research ◽

Empirical Approaches

Understanding the genetic basis of reproductive isolation is a central issue in the study of speciation. Structural variants (SVs); that is, structural changes in DNA, including inversions, translocations, insertions, deletions, and duplications, are common in a broad range of organisms and have been hypothesized to play a central role in speciation. Recent advances in molecular and statistical methods have identified structural variants, especially inversions, underlying ecologically important traits; thus, suggesting these mutations contribute to adaptation. However, the contribution of structural variants to reproductive isolation between species—and the underlying mechanism by which structural variants most often contribute to speciation—remain unclear. Here, we review (i) different mechanisms by which structural variants can generate or maintain reproductive isolation; (ii) patterns expected with these different mechanisms; and (iii) relevant empirical examples of each. We also summarize the available sequencing and bioinformatic methods to detect structural variants. Lastly, we suggest empirical approaches and new research directions to help obtain a more complete assessment of the role of structural variants in speciation.

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