2015
DOI: 10.1111/evo.12708
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Gametic selection, developmental trajectories, and extrinsic heterogeneity in Haldane's rule

Abstract: Deciphering the genetic and developmental causes of the disproportionate rarity, inviability, and sterility of hybrid males, Haldane's rule, is important for understanding the evolution of reproductive isolation between species. Moreover, extrinsic and prezygotic factors can contribute to the magnitude of intrinsic isolation experienced between species with partial reproductive compatibility. Here, we use the nematodes Caenorhabditis briggsae and C. nigoni to quantify the sensitivity of hybrid male viability t… Show more

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Cited by 36 publications
(54 citation statements)
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References 109 publications
(249 reference statements)
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“…Striking asymmetry occurs in reciprocal crosses both for closely related species of Caenorhabditis (capable of forming viable and fertile hybrids; Dey et al., ; Dey et al., ; Kozlowska et al., ; Woodruff et al., ) and distantly related species (rare viable and completely sterile hybrids; Baird & Seibert, ; Baird & Yen, ) (Table ). The conspicuous influence of the X‐chromosome in interspecies hybrid dysfunction makes the X‐chromosome an obvious candidate for contributing to such asymmetry, which is consistent with data for both C. briggsae‐nigoni hybrids and C. remanei‐latens hybrids (Bundus et al., , ). To date, however, analysis of introgression lines between species is limited to just a single species pair and in just one direction of introgression ( C. briggsae DNA introgressed in to C. nigoni ) (Bi et al., ).…”
Section: Darwin's Corollary To Haldane's Rulesupporting
confidence: 86%
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“…Striking asymmetry occurs in reciprocal crosses both for closely related species of Caenorhabditis (capable of forming viable and fertile hybrids; Dey et al., ; Dey et al., ; Kozlowska et al., ; Woodruff et al., ) and distantly related species (rare viable and completely sterile hybrids; Baird & Seibert, ; Baird & Yen, ) (Table ). The conspicuous influence of the X‐chromosome in interspecies hybrid dysfunction makes the X‐chromosome an obvious candidate for contributing to such asymmetry, which is consistent with data for both C. briggsae‐nigoni hybrids and C. remanei‐latens hybrids (Bundus et al., , ). To date, however, analysis of introgression lines between species is limited to just a single species pair and in just one direction of introgression ( C. briggsae DNA introgressed in to C. nigoni ) (Bi et al., ).…”
Section: Darwin's Corollary To Haldane's Rulesupporting
confidence: 86%
“…In addition to genetically intrinsic contributions of incompatibilities to Haldane's rule in Caenorhabditis , extrinsic and developmental factors also modulate the magnitude of hybrid male inviability. Specifically, hybrid male inviability and therefore Haldane's rule are disproportionately strong at low rearing temperatures for C. briggsae‐nigoni hybrids (Bundus, Alaei, & Cutter, ). Moreover, not all developmental stages equally contribute to hybrid inviability.…”
Section: Haldane's Rulementioning
confidence: 99%
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“…They remain partially interfertile, yet have numerous genetic and reproductive incompatibilities (9, 15, 1719). To compare their genomes , we assembled the C. nigoni genome from 20-kb Pacific Biosciences (PacBio) and Illumina short-read libraries (table S1; (20)).…”
Section: Resultsmentioning
confidence: 99%
“…In C. briggsae , and perhaps other species, sperm bearing the X chromosome enjoy a fertilization advantage over nullo‐X sperm (LaMunyon and Ward ; Bundus et al. ). Differential sperm sizes owing to asymmetric meiotic cell division provides one possible mechanism for manifesting such an advantage, as occurs in a species of Rhabditis nematodes (Shakes et al.…”
Section: Resultsmentioning
confidence: 99%