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Molecular mechanisms underlying simplification of venation patterns in holometabolous insects

Tirtha Das Banerjee, Antónia Monteiro

2020Development31 citationsDOIOpen Access PDF

Abstract

How mechanisms of pattern formation evolve has remained a central research theme in the field of evolutionary and developmental biology. The mechanism of wing vein differentiation in Drosophila is a classic text-book example of pattern formation using a system of positional-information, yet very little is known about how species with a different number of veins pattern their wings, and how insect venation patterns evolved. Here, we examine the expression pattern of genes previously implicated in vein differentiation in Drosophila in two butterfly species with more complex venation Bicyclus anynana and Pieris canidia. We also test the function of some of these genes in B. anynana. We identify both conserved as well as new domains of decapentaplegic, engrailed, invected, spalt, optix, wingless, armadillo, blistered, and rhomboid gene expression in butterflies, and propose how the simplified venation in Drosophila might have evolved via loss of decapentaplegic, spalt and optix gene expression domains, silencing of vein inducing programs at Spalt-expression boundaries, and changes in gene expression of vein maintenance genes.

Topics & Concepts

BiologyEvolutionary biologyEcologyHemiptera Insect StudiesNeurobiology and Insect Physiology ResearchInsect-Plant Interactions and Control
Molecular mechanisms underlying simplification of venation patterns in holometabolous insects | Litcius