From Symmetry to Asymmetry

From Symmetry to Asymmetry

Proc. Natl. Acad. Sci. USA Vol. 93, pp. 14279–14286, December 1996 Colloquium Paper This paper was presented at a colloquium entitled ‘‘Symmetries Throughout the Sciences,’’ organized by Ernest M. Henley, held May 11–12, 1996, at the National Academy of Sciences in Irvine, CA. From symmetry to asymmetry: Phylogenetic patterns of asymmetry variation in animals and their evolutionary significance (morphologyydevelopmentyhandednessyvertebrateyinvertebrate) A. RICHARD PALMER* Department of Biological Sciences, University of Alberta, Edmonton, AB Canada, T6G 2E9 and Bamfield Marine Station, Bamfield, BC Canada, V0R 1B0 ABSTRACT Phylogenetic analyses of asymmetry varia- lution of lateral bias (DA) must be recognized as distinct from the tion offer a powerful tool for exploring the interplay between evolution of sometimes large but nonetheless random differences ontogeny and evolution because (i) conspicuous asymmetries between sides [antisymmetry (AS)] (7). exist in many higher metazoans with widely varying modes of Genetic and Developmental Aspects. For a trait to evolve, development, (ii) patterns of bilateral variation within species phenotypic variation must be heritable. However, herein lies may identify genetically and environmentally triggered asym- a great puzzle (8). Unlike variation in virtually all other metries, and (iii) asymmetries arising at different times traits, deviations from bilateral symmetry in a particular during development may be more sensitive to internal cyto- direction have not responded to artificial selection. In con- plasmic inhomogeneities compared to external environmental trast, the size of the difference between sides in traits stimuli. Using four broadly comparable asymmetry states exhibiting AS has responded to artificial selection. There- (symmetry, antisymmetry, dextral, and sinistral), and two fore, although heritable variation does exist in mechanisms stages at which asymmetry appears developmentally (larval allowing opposite sides to diverge ontogenetically, bias and postlarval), I evaluated relations between ontogenetic and toward a particular side appears quite refractory to selection. phylogenetic patterns of asymmetry variation. Among 140 So how do fixed (directional) asymmetries evolve? inferred phylogenetic transitions between asymmetry states, Whether the larger side in an individual is ‘‘genetically’’ versus recorded from 11 classes in five phyla, directional asymmetry ‘‘environmentally’’ determined is more vexatious than such a (dextral or sinistral) evolved directly from symmetrical an- simple dichotomy might suggest (9). Nonetheless, intraspecific cestors proportionally more frequently among larval asym- patterns of asymmetry variation do imply different developmen- metries. In contrast, antisymmetry, either as an end state or tal mechanisms (unpublished work). AS typically signals that a as a transitional stage preceding directional asymmetry, was random, external environmental trigger induced one side to confined primarily to postlarval asymmetries. The ontoge- develop differently. DA, however, implies that internal, preexist- netic origin of asymmetry thus significantly influences its ing positional information influences the initial trigger, except subsequent evolution. Furthermore, because antisymmetry where an external stimulus preferentially effects one side (see typically signals an environmentally triggered asymmetry, the below). phylogenetic transition from antisymmetry to directional Because the ontogenetic causes of bilateral differences are asymmetry suggests that many cases of laterally fixed asym- unknown for most groups, a substitute criterion is needed to metries evolved via genetic assimilation. assess the relative impact of genetic versus environmental factors on the evolution of asymmetry. The time during Introduction development at which bilateral differences first appear seems like a useful one because (i) it may be readily scored, and (ii) Patterns of Asymmetry Variation. Among higher metazoans, associations between ontogenetic and phylogenetic patterns bilateral symmetry appears to have evolved only once (1). Be- may be identified without assumptions about underlying cause. cause of this solitary origin, and because it happened so long ago, In addition, differences in developmental timing do imply the evolution of bilateral symmetry is difficult to study. Fortu- different ontogenetic triggers (Table 1). Asymmetries de- nately, asymmetrical forms evolved many times among higher termined early (larval) imply a greater impact of internal Metazoa (2, 3). These multiple independent origins permit cytogenetic factors, whereas those determined late (postlar- hypotheses to be tested about developmental mechanisms or val) may be influenced more by external environmental environmental conditions that promote the phylogenetic ‘‘break- factors. For example, spindle orientation relative to the ing’’ of bilateral symmetry. plane of first cleavage determines the direction of shell Conspicuously asymmetrical forms in animals generally fall coiling in gastropod molluscs (11), and thus represents a into one of two broad categories: within a single species, ‘‘hand- clear example of larval asymmetry. It also has a simple edness’’ is either fixed [most individuals asymmetrical towards the cytogenetic basis (12). In contrast, claw asymmetry in lob- same side, directional asymmetry (DA)] or it is random [‘‘right- sters does not appear until after the fourth postlarval stage handed’’ and ‘‘left-handed’’ individuals equally frequent, anti- (13), and is thus a postlarval asymmetry. Significantly, the symmetry (5)]. Wolpert emphasized a crucial difference between side that becomes larger is determined entirely by differen- these categories nearly two decades ago: ‘‘There is no problem in tial use (13). Therefore, although the distinction between making the two sides different; the problem is to define consis- developmental stages is sometimes arbitrary given the con- tently a left side as opposed to a right side. For, unlike the tinuous nature of development, the dichotomy between antero-posterior axis and the dorsal-ventral axis, left-right asym- larval and postlarval appearance of asymmetry allows a metry is a quite different property’’ (6). Because these categories preliminary analysis of the impact of ontogenetic timing on imply fundamentally different developmental triggers, the evo- phylogenetic patterns. The publication costs of this article were defrayed in part by page charge Abbreviations: SYM, symmetry; AS, antisymmetry; DA, directional payment. This article must therefore be hereby marked ‘‘advertisement’’ in asymmetry. accordance with 18 U.S.C. §1734 solely to indicate this fact. *e-mail: [email protected]. 14279 Downloaded by guest on September 30, 2021 14280 Colloquium Paper: Palmer Proc. Natl. Acad. Sci. USA 93 (1996) Table 1. Relations between observed ontogenetic origin and predicted phylogenetic pattern of conspicuous bilateral asymmetries Ontogenetic origin of asymmetry Predicted phylogenetic pattern Presumed initial stimulus in Persistence of AS Timing* asymmetrical ancestor† Temporal sequence through cladogenesis Larval Internal, largely cytogenetic‡ SYM 3 DA Absent or rare Postlarval External environment§ SYM 3 AS 3 DA Common SYM, symmetry; AS, antisymmetry; DA, directional asymmetry. *Asymmetry first appears before or after birth, hatching, or metamorphosis. †Primary stimulus inducing differential gene expression on one side of the plane of symmetry. Earlier appearance during development implies a greater cytogenetic influence, whereas later appearance implies a greater impact of external environmental stimuli. ‡Factors that affect the susceptibility of one side to differential gene expression, including: (i) cytoplasmic (invariant asymmetries present in the cytoplasm due to maternal effects from oogenesis or to molecular asymmetries in cytoskeletal elements), or (ii) genetic (a specific gene product in which mutations alter differential bilateral susceptibility). §Random environmental stimuli arising entirely outside the organism and independent of preexisting internal asymmetries. Predicted Phylogenetic Pattens. Different ontogenetic in the Appendix, and separate analyses were conducted in origins of asymmetry imply different patterns of phyloge- which weakly supported transitions were included or excluded. netic precedence (Table 1). If early-developing (larval) Where traditional classifications were used, and hence precise asymmetry signals a predominantly internal cytogenetic phylogenetic information unavailable, I followed others (21) trigger of the larger side, then fixed (DA) asymmetry may by assuming conspicuously asymmetrical taxa did not exhibit evolve more readily from a symmetrical progenitor because reversals to symmetry, except in the Gastropoda where asym- an underlying lateral biasing system already exists and metry is so pervasive. selection may act on mutations affecting it. Alternatively, if From published accounts (citations in next section), I also late-developing (postlarval) AS signals a predominantly estimated the stage at which asymmetry appeared ontogenet- external environmental trigger, then the ancestor of an ically, and assigned each taxon to one of the two categories asymmetrical clade should exhibit AS because, although one defined in Table 1. The distinction was clear in taxa exhibiting side may inhibit the development of the other (7), the identifiable birth, hatching, or metamorphosis. It was some- underlying

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