Amanda J. Krutzler scite author profile

The genetic regulators of regressive craniofacial morphologies are poorly understood. To shed light on this problem, we examined the freshwater fish Astyanax mexicanus, a species with surface-dwelling and multiple independent eyeless cave-dwelling forms. Changes affecting the skull in cavefish include morphological alterations to the intramembranous circumorbital bones encircling the eye. Many of these modifications, however, have evolved separately from eye loss, such as fragmentation of the third suborbital bone. To understand the genetic architecture of these eye-independent craniofacial alterations, we developed and scored 33 phenotypes in the context of an F 2 hybrid mapping pedigree bred from Pachón cavefish and surface fish. We discovered several individuals exhibiting dramatic left-right differences in bone formation, such as extensive fragmentation on the right side only. This observation, along with well-known eye size asymmetry in natural cave-dwelling animals, led us to further evaluate left-right genetic differences for the craniofacial complex. We discovered three phenotypes, inclusive of bone fragmentation and fusion, which demonstrated a directional heritable basis only on one side. Interestingly, the overall areas of affected bones were genetically symmetric. Phenotypic effect plots of these novel craniofacial QTL revealed that cave alleles are associated with abnormal conditions such as bony fusion and fragmentation. Moreover, many linked loci overlapped with other cave-associated traits, suggesting regressive craniofacial changes may evolve through linkage or as antagonistic pleiotropic consequences of cave-associated adaptations. These novel findings illuminate significant craniofacial changes accompanying evolution in complete darkness and reveal complex changes to the skull differentially influenced by genetic changes affecting the left and right sides.

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Genetic analysis of dermal bone fragmentation in a natural model system.

Gross

Krutzler

Bruns

2013

The FASEB Journal

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Natural model systems that reside in extreme environments can provide powerful insights into fundamental biological processes. For instance, many of the genetic and cellular regulators of normal dermal bone formation have been clarified. However, the precise genetic and molecular bases for altered bone phenotypes evolving under environmental pressure remain largely uncharacterized. In this study, we evaluated a dermal bone fragmentation phenotype that occurs in the blind Mexican cavefish (Astyanax mexicanus). We investigated this phenotype using exhaustive cranial bone measurements in the context of an F2 pedigree of surface fish × cavefish hybrids. We determined that fragmentation of the suborbital bones occurs in a largely asymmetric fashion. Further, we clarified the genetic architecture for left‐sided and right‐sided suborbital bone fragmentation from our hybrid pedigree. Our results indicated that while the area of the face occupied by suborbital bones is constrained between different‐sized individuals, the pattern and severity of fragmentation could not easily be predicted by co‐occurrence of other degenerative characteristics. Our results may indicate a pleiotropic interaction between genes selected in the cave environment for constructive traits that interfere with normal patterns of bone ossification. Research supported by NIDCR (NIH) R03DE022403.Grant Funding Source: grossja@ucmail.uc.edu

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Amanda J. Krutzler

Complex Craniofacial Changes in Blind Cave-Dwelling Fish Are Mediated by Genetically Symmetric and Asymmetric Loci

Genetic analysis of dermal bone fragmentation in a natural model system.

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