RT Journal Article
SR Electronic
T1 Disrupting different <em>Distal-less</em> exons leads to ectopic and missing eyespots accurately modeled by reaction-diffusion mechanisms
JF bioRxiv
FD Cold Spring Harbor Laboratory
SP 183491
DO 10.1101/183491
A1 Heidi Connahs
A1 Sham Tlili
A1 Jelle van Creij
A1 Tricia Y. J. Loo
A1 Tirtha Banerjee
A1 Timothy E. Saunders
A1 Antónia Monteiro
YR 2017
UL http://biorxiv.org/content/early/2017/09/05/183491.abstract
AB Eyespots on the wings of nymphalid butterflies represent colorful examples of the process of pattern formation, yet the developmental origins and the mechanisms behind eyespot differentiation are still not fully understood. Here we re-examine the function of Distal-less (Dll) in eyespot development, which is still unclear. We show that CRISPR-Cas9 induced exon 2 mutations in Bicyclus anynana leads to exon skipping and ectopic eyespots on the wing. Exon 3 mutations, however, lead to null/missense transcripts, missing eyespots, lighter wing coloration, loss of scales, and a variety of other phenotypes implicating Dll in the process of eyespot differentiation. Reaction-diffusion modeling enabled exploration of the function of Dll in eyespot formation, and accurately replicated a wide-range of mutant phenotypes. These results confirm that Dll is a required activator of eyespot development, scale growth and melanization and point to a new mechanism of alternative splicing to achieve Dll over-expression phenotypes.