Potential Patterning Differences Underlying Oviparous and Viviparous Development in the Pea Aphid


Meeting Abstract

P2.94  Saturday, Jan. 5  Potential Patterning Differences Underlying Oviparous and Viviparous Development in the Pea Aphid BICKEL, R.; CLEVELAND, H.; BARKAS, J.; BELLETIER, N.; STERN, D.L.; DAVIS, G.K.*; University of Nebraska, Lincoln; Bryn Mawr College; Bryn Mawr College; Bryn Mawr College; Janelia Farm, HHMI; Bryn Mawr College gdavis@brynmawr.edu

The pea aphid, Acyrthosiphon pisum, exhibits several environmentally cued, discrete, alternate phenotypes (polyphenisms) during its life cycle. In the case of the reproductive polyphenism, differences in day length determine whether mothers will produce daughters that reproduce either sexually by laying fertilized eggs (oviparous sexual reproduction), or asexually by allowing oocytes to complete embryogenesis within the mother without fertilization (viviparous parthenogenesis). Oocytes and embryos that are produced asexually develop more rapidly, are yolk-free, and much smaller than oocytes and embryos that are produced sexually. Perhaps most striking, the process of oocyte differentiation is truncated in the case of asexual/viviparous development, potentially precluding interactions between the oocyte and surrounding follicle cells that might take place during sexual/oviparous development. Given the important patterning roles that oocyte-follicle cell interactions play in Drosophila, these overt differences suggest that there may be underlying differences in the molecular mechanisms of pattern formation. We have found differences in the expression of homologs of torso-like and tailless, as well as activated MAP kinase, suggesting that there are important differences in the hemipteran version of the terminal patterning system between viviparous and oviparous development. Establishing such differences in the expression of patterning genes between these developmental modes is a first step toward understanding how a single genome manages to direct patterning events in such different embryological contexts.

the Society for
Integrative &
Comparative
Biology