Mimetic Butterflies Introgress to Impress

نویسنده

  • Marcus R. Kronforst
چکیده

The extent to which hybridization and the resulting interspecific gene flow (introgression) contribute to adaptation is a matter of great debate. On the one hand, fertile hybrids have the potential to transfer beneficial alleles between species [1] or even to spawn new species [2]. On the other hand, hybrids tend to have reduced fitness relative to parental species [3], which will often make them an evolutionary dead end. Only a handful of examples of adaptive introgression are known, such as recent evidence for the transfer of warfarin resistance between mouse species [4]. However, one place where introgression of beneficial alleles could be common is in adaptive radiations [5]. These explosions of phenotypic and species diversity may be just the place to look for adaptive introgression because they often contain closely related, hybridizing species, and introgression could provide the raw genetic material for their exceptional rates of diversification. Two new papers, one in this issue of PLoS Genetics [6] and another in Nature [7], provide longawaited evidence for a direct role of introgression in fueling a particularly striking adaptive radiation, the mimetic wing pattern radiation of Heliconius butterflies. The Neotropical genus Heliconius is a diverse clade of brightly colored and chemically defended butterflies. This group is well-known for mimicry, in which different species evolve nearly identical wing patterns as a means of protection from predators [8]. Rapid evolution of wing pattern diversity in Heliconius, combined with convergence due to mimicry, has resulted in a group of closely related and hybridizing species, some of which look very different and others that look nearly identical. These two new papers show that alleles for wing patterning have moved across species boundaries multiple times, effectively transferring mimicry from one species to another. This discovery of adaptive introgression in Heliconius builds upon five important prior advances. First, close to a decade ago, Larry Gilbert used results from a multitude of interspecific crosses to propose a model whereby Heliconius mimicry evolved by repeated interspecific transfer of color patterning alleles [9]. Second, surveys of wild-caught specimens have revealed many instances of natural hybridization in Heliconius [10], and molecular analyses based on neutral markers detected signatures of relatively widespread introgression among closely related species [11,12]. Third, recent discoveries of cryptic species have provided multiple examples of sympatric, co-mimetic, and potentially hybridizing species [13]; species among which mimicry transfer might be particularly likely. Fourth, there has been a concerted effort by those studying Heliconius to map and characterize their mimicry loci [14]. This recently culminated in the identification of optix as the red patterning gene [15], with highresolution SNP data revealing strong associations just upstream of the gene [16]. Finally, new population genetic data from optix itself revealed that, within polymorphic species like H. erato and H. melpomene, similar wing patterns in distinct subspecies share a common origin [17]. This result, while focused on within-species variation, showed that apparent convergence can result from shared ancestry of mimicry alleles. The two new studies build on this foundation to explore adaptive introgression of mimicry using different but highly complementary approaches. Pardo-Diaz et al. [6] use amplicon sequencing from targeted portions around optix, combined with phylogeneticand coalescent-based tests for gene flow. The Heliconius Genome Consortium [7] present a reference genome sequence for H. melpomene, and then use RAD markers, targeted resequencing, and an ABBA-BABA statistical approach to examine introgression genome-wide, with a special emphasis on the optix interval, as well as a second region that controls yellow color patterning. The results of the two studies are highly congruent—genetic variation from a narrow genomic interval just upstream of optix groups populations and species by red wing patterning rather than known phylogenetic relationships (Figure 1). Amazingly, this even applies to H. elevatus, a ‘‘rayed’’ pattern species from the silvaniform clade, a group that generally displays ‘‘tiger-stripe’’ patterns. Importantly, The Heliconius Genome Consortium [7] show that these signatures of introgression ultimately encompass hundreds of SNPs, ruling out the possibility that these groupings are the result of convergent molecular evolution. This evidence for adaptive introgression is striking, yet there is much that remains unknown. For instance, H. besckei is the only silvaniform species with a ‘‘red band’’ phenotype, but it remains unknown if it swapped mimicry genes with other red banded species (Figure 1). Furthermore, there are potential instances of more subtle introgression that have yet to be explored; cases in which a single pattern element, as opposed to an entire phenotype, appears to be shared between species [9]. Other important questions include: In which species did mimicry alleles originally arise and when did they spread? How frequently does mimicry introgression precipitate speciation? How do these closely related, sympatric, co-mimetic taxa remain distinct given color pattern’s important role in generating reproductive isolation [18]? What about adaptive introgression of other traits and genes not related to mimicry? Has introgression contributed to diversity and mimicry in other Heliconius clades? Beyond Heliconius, it is important that we better understand the frequency and

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عنوان ژورنال:

دوره 8  شماره 

صفحات  -

تاریخ انتشار 2012