Comparative transcriptome analysis of obligately asexual and cyclically sexual rotifers reveals genes with putative functions in sexual reproduction, dormancy, and asexual egg production

Comparative transcriptome analysis of obligately asexual and cyclically sexual rotifers reveals genes with putative functions in sexual reproduction, dormancy, and asexual egg production

Sexual reproduction is a widely studied biological process because it is critically important to the genetics, evolution, and ecology of eukaryotes. Despite decades of study on this topic, no comprehensive explanation has been accepted that explains the evolutionary forces underlying its prevalence...

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Bibliographic Details
Published in:BMC genomics Vol. 14; no. 1; p. 412
Main Authors: Hanson, Sara J, Stelzer, Claus-Peter, Welch, David B Mark, Logsdon, Jr, John M
Format: Journal Article
Language:English
Published: England BioMed Central Ltd 19-06-2013
BioMed Central
Subjects:
Adineta
Animals
Cell cycle
Cell Cycle Proteins - genetics
Cytoskeleton - genetics
DNA Transposable Elements - genetics
Eggs
Evolutionary biology
Gametogenesis - genetics
Gene expression
Gene Expression Profiling
Genetic aspects
Genetic research
Genetics
Genomics
Histones - genetics
Meiosis
Meiosis - genetics
Ovum - physiology
Physiological aspects
Recombination, Genetic - genetics
Reproduction, Asexual
Reproduction, Asexual - genetics
Rotifera
Rotifera - cytology
Rotifera - genetics
Rotifera - metabolism
Rotifera - physiology
Sexual reproduction
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Summary:Sexual reproduction is a widely studied biological process because it is critically important to the genetics, evolution, and ecology of eukaryotes. Despite decades of study on this topic, no comprehensive explanation has been accepted that explains the evolutionary forces underlying its prevalence and persistence in nature. Monogonont rotifers offer a useful system for experimental studies relating to the evolution of sexual reproduction due to their rapid reproductive rate and close relationship to the putatively ancient asexual bdelloid rotifers. However, little is known about the molecular underpinnings of sex in any rotifer species. We generated mRNA-seq libraries for obligate parthenogenetic (OP) and cyclical parthenogenetic (CP) strains of the monogonont rotifer, Brachionus calyciflorus, to identify genes specific to both modes of reproduction. Our differential expression analysis identified receptors with putative roles in signaling pathways responsible for the transition from asexual to sexual reproduction. Differential expression of a specific copy of the duplicated cell cycle regulatory gene CDC20 and specific copies of histone H2A suggest that such duplications may underlie the phenotypic plasticity required for reproductive mode switch in monogononts. We further identified differential expression of genes involved in the formation of resting eggs, a process linked exclusively to sex in this species. Finally, we identified transcripts from the bdelloid rotifer Adineta ricciae that have significant sequence similarity to genes with higher expression in CP strains of B. calyciflorus. Our analysis of global gene expression differences between facultatively sexual and exclusively asexual populations of B. calyciflorus provides insights into the molecular nature of sexual reproduction in rotifers. Furthermore, our results offer insight into the evolution of obligate asexuality in bdelloid rotifers and provide indicators important for the use of monogononts as a model system for investigating the evolution of sexual reproduction.
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ISSN:1471-2164
1471-2164
DOI:10.1186/1471-2164-14-412