A Genetic Screen for Zygotic Embryonic Lethal Mutations Affecting Cuticular Morphology in the Wasp Nasonia vitripennis

A Genetic Screen for Zygotic Embryonic Lethal Mutations Affecting Cuticular Morphology in the Wasp Nasonia vitripennis

Mary Anne Pultz^a, Kristin K. Zimmerman^a, Neal M. Alto^a, Matt Kaeberlein^a, Sarah K. Lange^a, Jason N. Pitt^a, Nick L. Reeves^a, and Darin L. Zehrung^a
^a Biology Department, Western Washington University, Bellingham, Washington 98225-9160

Corresponding author: Mary Anne Pultz, Biology Department, Western Washington University, Bellingham, WA 98225-9160., pultz{at}biol.wwu.edu (E-mail)

Communicating editor: K. ANDERSON

We have screened for zygotic embryonic lethal mutations affectingcuticular morphology in Nasonia vitripennis (Hymenoptera; Chalcidoidea).Our broad goal was to investigate the use of Nasonia for geneticallysurveying conservation and change in regulatory gene systems,as a means to understand the diversity of developmental strategiesthat have arisen during the course of evolution. Specifically,we aim to compare anteroposterior patterning gene functionsin two long germ band insects, Nasonia and Drosophila. In Nasonia,unfertilized eggs develop as haploid males while fertilizedeggs develop as diploid females, so the entire genome can bescreened for recessive zygotic mutations by examining the progenyof F₁ females. We describe 74 of >100 lines with embryonic cuticularmutant phenotypes, including representatives of coordinate,gap, pair-rule, segment polarity, homeotic, and Polycomb groupfunctions, as well as mutants with novel phenotypes not directlycomparable to those of known Drosophila genes. We conclude thatNasonia is a tractable experimental organism for comparativedevelopmental genetic study. The mutants isolated here havebegun to outline the extent of conservation and change in thegenetic programs controlling embryonic patterning in Nasoniaand Drosophila.

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