Genomewide transcriptional signatures of migratory flight activity in a globally invasive insect pest

A - Papers appearing in refereed journals

Jones, C. M., Papanicolaou, A., Mironidis, G. K., Vontas, J., Yang, Y., Lim, K. S., Oakeshott, J. G., Bass, C. and Chapman, J. W. 2015. Genomewide transcriptional signatures of migratory flight activity in a globally invasive insect pest. Molecular Ecology. 24 (19), pp. 4901-4911.

AuthorsJones, C. M., Papanicolaou, A., Mironidis, G. K., Vontas, J., Yang, Y., Lim, K. S., Oakeshott, J. G., Bass, C. and Chapman, J. W.
Abstract

Migration is a key life history strategy for many animals and requires a suite of behavioural, morphological and physiological adaptations which together form the migratory syndrome'. Genetic variation has been demonstrated for many traits that make up this syndrome, but the underlying genes involved remain elusive. Recent studies investigating migration-associated genes have focussed on sampling migratory and nonmigratory populations from different geographic locations but have seldom explored phenotypic variation in a migratory trait. Here, we use a novel combination of tethered flight and next-generation sequencing to determine transcriptomic differences associated with flight activity in a globally invasive moth pest, the cotton bollworm Helicoverpa armigera. By developing a state-of-the-art phenotyping platform, we show that field-collected H.armigera display continuous variation in flight performance with individuals capable of flying up to 40km during a single night. Comparative transcriptomics of flight phenotypes drove a gene expression analysis to reveal a suite of expressed candidate genes which are clearly related to physiological adaptations required for long-distance flight. These include genes important to the mobilization of lipids as flight fuel, the development of flight muscle structure and the regulation of hormones that influence migratory physiology. We conclude that the ability to express this complex set of pathways underlines the remarkable flexibility of facultative insect migrants to respond to deteriorating conditions in the form of migratory flight and, more broadly, the results provide novel insights into the fundamental transcriptional changes required for migration in insects and other taxa.

KeywordsBiochemistry & Molecular Biology; Ecology; Evolutionary Biology
Year of Publication2015
JournalMolecular Ecology
Journal citation24 (19), pp. 4901-4911
Digital Object Identifier (DOI)doi:10.1111/mec.13362
PubMed ID26331997
Open accessPublished as ‘gold’ (paid) open access
FunderBiotechnology and Biological Sciences Research Council
Publisher's version
PublisherWiley
ISSN0962-1083

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