Abstract
Butterflies are well known for their beautiful wings and have been great systems to understand the ecology, evolution, genetics, and development of patterning and coloration. These color patterns are mosaics on the wing created by the tiling of individual units called scales, which develop from single cells. Traditionally, bulk RNA sequencing (RNA-seq) has been used extensively to identify the loci involved in wing color development and pattern formation. RNA-seq provides an averaged gene expression landscape of the entire wing tissue or of small dissected wing regions under consideration. However, to understand the gene expression patterns of the units of color, which are the scales, and to identify different scale cell types within a wing that produce different colors and scale structures, it is necessary to study single cells. This has recently been facilitated by the advent of single-cell sequencing. Here, we provide a detailed protocol for the dissociation of cells from Bicyclus anynana pupal wings to obtain a viable single-cell suspension for downstream single-cell sequencing. We outline our experimental design and the use of fluorescence-activated cell sorting (FACS) to obtain putative scale-building and socket cells based on size. Finally, we discuss some of the current challenges of this technique in studying single-cell scale development and suggest future avenues to address these challenges.
Highlights
Members of the order Lepidoptera have been great model systems to answer questions from the fields of ecology to developmental biology and genetics
We have outlined, in detail, the steps to prepare a viable single-cell suspension from B. anynana 24 h pupal wing discs. This includes a fluorescence-activated cell sorting (FACS) sorting step based on cell size, to collect putative scale-building and socket cells which was our primary interest
There remain a number of challenges in using the technique of single-cell RNA sequencing to study scale development, especially with regard to the development of particular colors or patterns
Summary
Members of the order Lepidoptera have been great model systems to answer questions from the fields of ecology to developmental biology and genetics. They are characterized by the presence of cellular projections called scales on their wings and bodies. Scales are often brightly colored and arranged in intricate mosaic patterns on the wing that serve various ecological functions [1,2,3,4,5]. A typical scale consists of a lower lamina thin film connected to an intricately- patterned upper lamina via pillars called trabeculae. Modifications to various parts of this structure produce immense diversity in scale shape and organization, often
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