Fernando Diaz1, Carson W Allan2, Therese Ann Markow3,4, Jeremy M Bono5, Luciano M Matzkin6,7,8. 1. Department of Entomology, University of Arizona, Tucson, AZ, USA. ferdiazfer@gmail.com. 2. Department of Entomology, University of Arizona, Tucson, AZ, USA. 3. Cinvestav UGA-Langebio, Irapuato, Guanajuato, Mexico. 4. Division of Biological Sciences, Section of Cell and Developmental Biology, University of California, San Diego, California, USA. 5. Department of Biology, University of Colorado Colorado Springs, Colorado Springs, USA. jbono@uccs.edu. 6. Department of Entomology, University of Arizona, Tucson, AZ, USA. lmatzkin@arizona.edu. 7. BIO5 Institute, University of Arizona, Tucson, AZ, USA. lmatzkin@arizona.edu. 8. Department of Ecology and Evolutionary Biology, University of Arizona, Tucson, AZ, USA. lmatzkin@arizona.edu.
Abstract
BACKGROUND: Despite the growing interest in the female side of copulatory interactions, the roles played by differential expression and alternative splicing mechanisms of pre-RNA on tissues outside of the reproductive tract have remained largely unknown. Here we addressed these questions in the context of con- vs heterospecific matings between Drosophila mojavensis and its sister species, D. arizonae. We analyzed transcriptional responses in female heads using an integrated investigation of genome-wide patterns of gene expression, including differential expression (DE), alternative splicing (AS) and intron retention (IR). RESULTS: Our results indicated that early transcriptional responses were largely congruent between con- and heterospecific matings but are substantially perturbed over time. Conspecific matings induced functional pathways related to amino acid balance previously associated with the brain's physiology and female postmating behavior. Heterospecific matings often failed to activate regulation of some of these genes and induced expression of additional genes when compared with those of conspecifically-mated females. These mechanisms showed functional specializations with DE genes mostly linked to pathways of proteolysis and nutrient homeostasis, while AS genes were more related to photoreception and muscle assembly pathways. IR seems to play a more general role in DE regulation during the female postmating response. CONCLUSIONS: We provide evidence showing that AS genes substantially perturbed by heterospecific matings in female heads evolve at slower evolutionary rates than the genome background. However, DE genes evolve at evolutionary rates similar, or even higher, than those of male reproductive genes, which highlights their potential role in sexual selection and the evolution of reproductive barriers.
BACKGROUND: Despite the growing interest in the female side of copulatory interactions, the roles played by differential expression and alternative splicing mechanisms of pre-RNA on tissues outside of the reproductive tract have remained largely unknown. Here we addressed these questions in the context of con- vs heterospecific matings between Drosophila mojavensis and its sister species, D. arizonae. We analyzed transcriptional responses in female heads using an integrated investigation of genome-wide patterns of gene expression, including differential expression (DE), alternative splicing (AS) and intron retention (IR). RESULTS: Our results indicated that early transcriptional responses were largely congruent between con- and heterospecific matings but are substantially perturbed over time. Conspecific matings induced functional pathways related to amino acid balance previously associated with the brain's physiology and female postmating behavior. Heterospecific matings often failed to activate regulation of some of these genes and induced expression of additional genes when compared with those of conspecifically-mated females. These mechanisms showed functional specializations with DE genes mostly linked to pathways of proteolysis and nutrient homeostasis, while AS genes were more related to photoreception and muscle assembly pathways. IR seems to play a more general role in DE regulation during the female postmating response. CONCLUSIONS: We provide evidence showing that AS genes substantially perturbed by heterospecific matings in female heads evolve at slower evolutionary rates than the genome background. However, DE genes evolve at evolutionary rates similar, or even higher, than those of male reproductive genes, which highlights their potential role in sexual selection and the evolution of reproductive barriers.
Entities:
Keywords:
Alternative splicing; D. arizonae; D. mojavensis; Head transcriptomes; Intron retention; Postmating response; RNA-seq; Speciation
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