Experimental analysis of character coupling across a complex life cycle: Pigment pattern metamorphosis in the tiger salamander,Ambystoma tigrinum tigrinum

Parichy, David M.

doi:10.1002/(sici)1097-4687(199807)237:1<53::aid-jmor5>3.0.co;2-p

Cited by 33 publications

(28 citation statements)

References 107 publications

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“…Since the early development of the adaptive decoupling hypothesis, empirical studies have been designed to prove or disprove adaptive decoupling by examining genetic correlations for traits on the same side of metamorphosis and traits separated by metamorphosis [9,10,54], or by examining the stage, or stages in which genes with specific functions are expressed [11,12,55]. Although these studies show that adaptive decoupling and developmental constraints across the metamorphic boundary exist, the evolutionary consequences of genetic associations across metamorphosis still remain uncertain.…”

Section: Discussionmentioning

confidence: 99%

“…Accordingly, the adaptive decoupling hypothesis for the benefits of metamorphosis [4] predicts that traits separated by metamorphosis should be genetically uncorrelated, thereby allowing evolutionary change to occur within each stage, without corresponding effects on phenotypes expressed in other stages. Studies that have tested this prediction by examining genetic associations across metamorphosis have found contradictory results [9][10][11][12], and so the relevance of the & 2014 The Author(s) Published by the Royal Society. All rights reserved.…”

Section: Introductionmentioning

confidence: 99%

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The genetic covariance between life cycle stages separated by metamorphosis

2014

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Metamorphosis is common in animals, yet the genetic associations between life cycle stages are poorly understood. Given the radical changes that occur at metamorphosis, selection may differ before and after metamorphosis, and the extent that genetic associations between pre-and post-metamorphic traits constrain evolutionary change is a subject of considerable interest. In some instances, metamorphosis may allow the genetic decoupling of life cycle stages, whereas in others, metamorphosis could allow complementary responses to selection across the life cycle. Using a diallel breeding design, we measured viability at four ontogenetic stages (embryo, larval, juvenile and adult viability), in the ascidian Ciona intestinalis and examined the orientation of additive genetic variation with respect to the metamorphic boundary. We found support for one eigenvector of G (g obs max ), which contrasted larval viability against embryo viability and juvenile viability. Target matrix rotation confirmed that while g obs max shows genetic associations can extend beyond metamorphosis, there is still considerable scope for decoupled phenotypic evolution. Therefore, although genetic associations across metamorphosis could limit that range of phenotypes that are attainable, traits on either side of the metamorphic boundary are capable of some independent evolutionary change in response to the divergent conditions encountered during each life cycle stage.

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Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

The genetic covariance between life cycle stages separated by metamorphosis

2014

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“…Indeed, a metamorphosis of one sort or another is present in the majority of animal life cycles, yet the degree to which premetamorphic and postmetamorphic traits depend on common genetic and developmental mechanisms is an important but largely unexplored question: if traits share genes and cell populations across the metamorphic transition, phenotypes appearing at one stage may be biased by the phenotype expressed at another stage, and evolutionary changes in these phenotypes may be limited or enhanced by countervailing or concordant selection operating across stages (Haldane, 1932;Ebenman, 1992;Moran, 1994;Parichy, 1998).…”

Section: Introductionmentioning

confidence: 99%

Evolution of danio pigment pattern development

2006

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Pigment patterns of danio fishes are emerging as a useful system for studying the evolution of developmental mechanisms underlying adult form. Different closely related species within the genera Danio and Devario exhibit a range of pigment patterns including horizontal stripes, vertical bars, and others. In this review, I summarize recent work identifying the genetic and cellular bases for adult pigment pattern formation in the zebrafish Danio rerio, as well as studies of how these mechanisms have evolved in other danios. Together, these analyses highlight the importance of latent precursors at post-embrynoic stages, as well as interactions within and among pigment cell classes, for both pigment pattern development and evolution.

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“…The complex as a whole is an important, naturalistic model system because taxa are characterized by extensive interspecific and intraspecific variation for a number of ecologically important traits, including expression of metamorphic vs. nonmetamorphic (paedomorphic) life histories (Gould 1977;Shaffer and Voss 1996), timing of metamorphosis (Rose and Armentrout 1976;Voss and Smith 2005), cannibal vs. normal larval morphologies (Powers 1907;Hoffman and Pfennig 1999), infectious disease (Collins et al 2004), variation in adult coloration and pigment patterning (Reese 1969;Parichy 1996Parichy , 1998, and variation in general morphology (Shaffer 1984;Irschick and Shaffer 1997). In addition, these salamanders are important laboratory models for olfaction (Marchand et al 2004;Park et al 2004), vision (Thoreson et al 2004;Chichilnisky and Reike 2005), cardiogenesis (Denz et al 2004;Zhang et al 2004), embryogenesis (Bachvarova et al 2004;Ericsson et al 2004), and postembryonic development (Parichy 1998;Voss and Smith 2005), including organ and tissue regeneration (Christensen et al 2002;Schnapp and Tanaka 2005). Both natural and laboratory-based research areas are in need of a comprehensive genome map that can be used to identify the position and effect of loci that contribute to phenotypic variation and that can be used to compare features of the salamander genome to other vertebrates.…”

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confidence: 99%

A Comprehensive Expressed Sequence Tag Linkage Map for Tiger Salamander and Mexican Axolotl: Enabling Gene Mapping and Comparative Genomics in Ambystoma

et al. 2005

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Expressed sequence tag (EST) markers were developed for Ambystoma tigrinum tigrinum (Eastern tiger salamander) and for A. mexicanum (Mexican axolotl) to generate the first comprehensive linkage map for these model amphibians. We identified 14 large linkage groups (125.5-836.7 cM) that presumably correspond to the 14 haploid chromosomes in the Ambystoma genome. The extent of genome coverage for these linkage groups is apparently high because the total map size (5251 cM) falls within the range of theoretical estimates and is consistent with independent empirical estimates. Unlike most vertebrate species, linkage map size in Ambystoma is not strongly correlated with chromosome arm number. Presumably, the large physical genome size (30 Gbp) is a major determinant of map size in Ambystoma. To demonstrate the utility of this resource, we mapped the position of two historically significant A. mexicanum mutants, white and melanoid, and also met, a quantitative trait locus (QTL) that contributes to variation in metamorphic timing. This new collection of EST-based PCR markers will better enable the Ambystoma system by facilitating development of new molecular probes, and the linkage map will allow comparative studies of this important vertebrate group. T HE tiger salamander (Ambystoma tigrinum) species complex consists of several closely related and phenotypically diverse taxa that range from central Mexico to southern Canada (Shaffer and McKnight 1996). The complex as a whole is an important, naturalistic model system because taxa are characterized by extensive interspecific and intraspecific variation for a number of ecologically important traits, including expression of metamorphic vs.

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Experimental analysis of character coupling across a complex life cycle: Pigment pattern metamorphosis in the tiger salamander,Ambystoma tigrinum tigrinum

Cited by 33 publications

References 107 publications

The genetic covariance between life cycle stages separated by metamorphosis

The genetic covariance between life cycle stages separated by metamorphosis

Evolution of danio pigment pattern development

A Comprehensive Expressed Sequence Tag Linkage Map for Tiger Salamander and Mexican Axolotl: Enabling Gene Mapping and Comparative Genomics in Ambystoma

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