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Sub-micrometer insights into the cytoskeletal dynamics and ultrastructural diversity of butterfly wing scales. | LitMetric

AI Article Synopsis

  • Lepidopteran wings, particularly their color patterns, serve as an ideal model for studying cell diversity through a phenomics approach, as their scales are produced by individual precursor cells, allowing for detailed cell-by-cell analysis.
  • The study identified the role of the cytoskeleton in scale development, using Fascin immunostainings to correlate actin patterning with chitin deposition, and quantified these relationships through high-throughput imaging techniques.
  • Findings indicate that butterfly wing scales demonstrate structured variations based on color types, with tight regulatory mechanisms governing their ultrastructures, linked to cytoskeletal dynamics.

Article Abstract

Background: The color patterns that adorn lepidopteran wings are ideal for studying cell type diversity using a phenomics approach. Color patterns are made of chitinous scales that are each the product of a single precursor cell, offering a 2D system where phenotypic diversity can be studied cell by cell, both within and between species. Those scales reveal complex ultrastructures in the sub-micrometer range that are often connected to a photonic function, including iridescent blues and greens, highly reflective whites, or light-trapping blacks.

Results: We found that during scale development, Fascin immunostainings reveal punctate distributions consistent with a role in the control of actin patterning. We quantified the cytoskeleton regularity as well as its relationship to chitin deposition sites, and confirmed a role in the patterning of the ultrastructures of the adults scales. Then, in an attempt to characterize the range and variation in lepidopteran scale ultrastructures, we devised a high-throughput method to quickly derive multiple morphological measurements from fluorescence images and scanning electron micrographs. We imaged a multicolor eyespot element from the butterfly Vanessa cardui (V. cardui), taking approximately 200 000 individual measurements from 1161 scales. Principal component analyses revealed that scale structural features cluster by color type, and detected the divergence of non-reflective scales characterized by tighter cross-rib distances and increased orderedness.

Conclusion: We developed descriptive methods that advance the potential of butterfly wing scales as a model system for studying how a single cell type can differentiate into a multifaceted spectrum of complex morphologies. Our data suggest that specific color scales undergo a tight regulation of their ultrastructures, and that this involves cytoskeletal dynamics during scale growth.

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http://dx.doi.org/10.1002/dvdy.63DOI Listing

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