Can endopolyploidy explain body size variation within and between castes in ants?

Endoreduplication is the process by which the nuclear genome is repeatedly replicated without mitotic cell division, resulting in nuclei that contain numerous additional genome copies. Endoreduplication occurs widely throughout Eucarya and is particularly common in angiosperms and insects. Although...

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Bibliographic Details
Published in:Ecology and evolution 2013-07, Vol.3 (7), p.2128-2137
Main Authors: Scholes, Daniel R., Suarez, Andrew V., Paige, Ken N.
Format: Article
Language:English
Subjects:
Angiosperms
Animal behavior
Animal reproduction
Ants
Body parts
Body size
caste
Caste differentiation
Castes
Cell cycle
Cell differentiation
Cell division
Cell size
Differentiation
Eggs
Endoreduplication
Eucarya
Eusociality
Females
Flow cytometry
Formicidae
Gene expression
Genomes
Hypotheses
Insects
Males
Metabolism
Morphology
Nuclei (cytology)
Nutrition
Original Research
Ploidy
Queens
Specialization
Species
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Summary:Endoreduplication is the process by which the nuclear genome is repeatedly replicated without mitotic cell division, resulting in nuclei that contain numerous additional genome copies. Endoreduplication occurs widely throughout Eucarya and is particularly common in angiosperms and insects. Although endoreduplication is an important process in the terminal differentiation of some specialized cell types, and often increases cell size and metabolism, the direct effects of increasing nuclear ploidy on cell function are not well resolved. Here, we examine if endoreduplication may play a role in body size and/or caste differentiation in ants. Nuclear ploidy was measured by flow cytometry of whole individuals (providing the basis for overall body size patterns) and individual body segments for multiple polymorphic ant species. We used cell cycle values, interpreted as the mean number of endocycles performed by each cell in the sample, as our measure of overall endoreduplication. Among females of four polymorphic ant species, endoreduplication was positively related with size within the worker caste, but was not related to caste generally in two species where we also examined queens. Additionally, abdomens had the greatest endoreduplication of all body parts regardless of caste or size. We also found that males, having derived from haploid unfertilized eggs, had the highest rates of endoreduplication and may compensate for their haploid origin by performing an additional endocycle relative to females. These results suggest that endoreduplication may play a role in body size variation in eusocial insects and the development of some segment‐specific tissues. Endopolyploidy is the increase in cellular ploidy by repeated genome replication without mitotic division, and has been associated with increases in cell size and metabolism in numerous organisms. This process may be particularly consequential for hymenopterans given their haplo‐diploid sex determination and variety of castes and social roles. Here we test the hypothesis that endopolyploidy is important in caste and societal role determination, and provide evidence that endopolyploidy occurs differentially among worker body sizes, body segments, and between the haploid and diploid sexes.
ISSN:2045-7758
2045-7758
DOI:10.1002/ece3.623