hide
Free keywords:
-
Abstract:
In insects, flight and sophisticated olfactory systems go hand in hand and are
essential to survival and evolutionary success. Females of many Lepidopteran species
have secondarily lost their flight ability, which may lead to changes in the olfactory
capabilities of both larval and adult stages. The gypsy moth, Lymantria dispar, an
important forest pest worldwide, is currently undergoing a diversification process
with three recognized subspecies: the Asian gypsy moth (AGM), Lymantria dispar
asiatica; the Japanese gypsy moth (JGM), Lymantria dispar japonica; and the European
gypsy moth (EGM), Lymantria dispar dispar. Females of EGM populations from North
America have lost their flight capacity whereas the JGM and AGM females are
flight capable, making this an ideal system to investigate the relationship between
flight and olfaction. We used next-generation sequencing to obtain female antennal
and larval head capsule transcriptomes in order to (i) investigate the differences in
expression of olfaction-related genes among populations; (ii) identify the most similar
protein sequences reported for other organisms through a BLAST search, and (iii)
establish the phylogenetic relationships of these sequences with respect to other
insect species. Using this approach, we identified 115 putative chemosensory genes
belonging to five families of olfaction-related genes. A principal component analysis
(PCA) revealed that the gene-expression patterns of female antennal transcriptomes
from different subspecies were more similar to one another than to the larval head
capsules of their respective subspecies supporting strong chemosensory differences
between the two developmental stages. An analysis of the shared and exclusively
expressed genes for three populations shows no evidence that loss of flight affects
the number or type of genes being expressed. These results indicate either (a) that
loss of flight does not impact the olfactory gene repertoire or (b) that the secondary
loss of flight in American EGM populations may be too recent to have caused major
changes in the genes being expressed. However, we found higher expression values for most olfaction-related genes in EGM females, suggesting that differences in transcription
rates could be an adaptation of flightless females to their chemical environment.
Differences in olfactory genes and their expression in the larvae appear to be unrelated
to the flight ability of adult females and are likely adaptations to different ecological
pressures.
