Multiple Independent Recruitment of Sodefrin Precursor-Like Factors in Anuran Sexually Dimorphic Glands

Franky Bossuyt; Lisa M. Schulte; Margo Maex; Sunita Janssenswillen; Polina Yu Novikova; S. D. Biju; Yves Van De Peer; Severine Matthijs; Kim Roelants; An Martel; Ines Van Bocxlaer; Ilya Ruvinsky

doi:10.1093/molbev/msz115

Multiple Independent Recruitment of Sodefrin Precursor-Like Factors in Anuran Sexually Dimorphic Glands

Franky Bossuyt^*, Lisa M. Schulte, Margo Maex, Sunita Janssenswillen, Polina Yu Novikova, S. D. Biju, Yves Van De Peer, Severine Matthijs, Kim Roelants, An Martel, Ines Van Bocxlaer, Ilya Ruvinsky

^*Corresponding author for this work

Molecular Biosciences

Research output: Contribution to journal › Article › peer-review

2 Scopus citations

Abstract

Chemical signaling in animals often plays a central role in eliciting a variety of responses during reproductive interactions between males and females. One of the best-known vertebrate courtship pheromone systems is sodefrin precursor-like factors (SPFs), a family of two-domain three-finger proteins with a female-receptivity enhancing function, currently only known from salamanders. The oldest divergence between active components in a single salamander species dates back to the Late Paleozoic, indicating that these proteins potentially gained a pheromone function earlier in amphibian evolution. Here, we combined whole transcriptome sequencing, proteomics, histology, and molecular phylogenetics in a comparative approach to investigate SPF occurrence in male breeding glands across the evolutionary tree of anurans (frogs and toads). Our study shows that multiple families of both terrestrially and aquatically reproducing frogs have substantially increased expression levels of SPFs in male breeding glands. This suggests that multiple anuran lineages make use of SPFs to complement acoustic and visual sexual signaling during courtship. Comparative analyses show that anurans independently recruited these proteins each time the gland location on the male's body allowed efficient transmission of the secretion to the female's nares.

Original language	English (US)
Pages (from-to)	1921-1930
Number of pages	10
Journal	Molecular biology and evolution
Volume	36
Issue number	9
DOIs	https://doi.org/10.1093/molbev/msz115
State	Published - Sep 1 2019

Keywords

Amphibia
behavioral evolution
chemical communication
sodefrin precursor-like factor

ASJC Scopus subject areas

Ecology, Evolution, Behavior and Systematics
Molecular Biology
Genetics

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Bossuyt, F., Schulte, L. M., Maex, M., Janssenswillen, S., Novikova, P. Y., Biju, S. D., Van De Peer, Y., Matthijs, S., Roelants, K., Martel, A., Van Bocxlaer, I., & Ruvinsky, I. (2019). Multiple Independent Recruitment of Sodefrin Precursor-Like Factors in Anuran Sexually Dimorphic Glands. Molecular biology and evolution, 36(9), 1921-1930. https://doi.org/10.1093/molbev/msz115

Bossuyt, Franky ; Schulte, Lisa M. ; Maex, Margo ; Janssenswillen, Sunita ; Novikova, Polina Yu ; Biju, S. D. ; Van De Peer, Yves ; Matthijs, Severine ; Roelants, Kim ; Martel, An ; Van Bocxlaer, Ines ; Ruvinsky, Ilya. / Multiple Independent Recruitment of Sodefrin Precursor-Like Factors in Anuran Sexually Dimorphic Glands. In: Molecular biology and evolution. 2019 ; Vol. 36, No. 9. pp. 1921-1930.

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abstract = "Chemical signaling in animals often plays a central role in eliciting a variety of responses during reproductive interactions between males and females. One of the best-known vertebrate courtship pheromone systems is sodefrin precursor-like factors (SPFs), a family of two-domain three-finger proteins with a female-receptivity enhancing function, currently only known from salamanders. The oldest divergence between active components in a single salamander species dates back to the Late Paleozoic, indicating that these proteins potentially gained a pheromone function earlier in amphibian evolution. Here, we combined whole transcriptome sequencing, proteomics, histology, and molecular phylogenetics in a comparative approach to investigate SPF occurrence in male breeding glands across the evolutionary tree of anurans (frogs and toads). Our study shows that multiple families of both terrestrially and aquatically reproducing frogs have substantially increased expression levels of SPFs in male breeding glands. This suggests that multiple anuran lineages make use of SPFs to complement acoustic and visual sexual signaling during courtship. Comparative analyses show that anurans independently recruited these proteins each time the gland location on the male's body allowed efficient transmission of the secretion to the female's nares.",

keywords = "Amphibia, behavioral evolution, chemical communication, sodefrin precursor-like factor",

author = "Franky Bossuyt and Schulte, {Lisa M.} and Margo Maex and Sunita Janssenswillen and Novikova, {Polina Yu} and Biju, {S. D.} and {Van De Peer}, Yves and Severine Matthijs and Kim Roelants and An Martel and {Van Bocxlaer}, Ines and Ilya Ruvinsky",

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Bossuyt, F, Schulte, LM, Maex, M, Janssenswillen, S, Novikova, PY, Biju, SD, Van De Peer, Y, Matthijs, S, Roelants, K, Martel, A, Van Bocxlaer, I & Ruvinsky, I 2019, 'Multiple Independent Recruitment of Sodefrin Precursor-Like Factors in Anuran Sexually Dimorphic Glands', Molecular biology and evolution, vol. 36, no. 9, pp. 1921-1930. https://doi.org/10.1093/molbev/msz115

Multiple Independent Recruitment of Sodefrin Precursor-Like Factors in Anuran Sexually Dimorphic Glands. / Bossuyt, Franky; Schulte, Lisa M.; Maex, Margo; Janssenswillen, Sunita; Novikova, Polina Yu; Biju, S. D.; Van De Peer, Yves; Matthijs, Severine; Roelants, Kim; Martel, An; Van Bocxlaer, Ines; Ruvinsky, Ilya.

In: Molecular biology and evolution, Vol. 36, No. 9, 01.09.2019, p. 1921-1930.

Research output: Contribution to journal › Article › peer-review

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AU - Bossuyt, Franky

AU - Schulte, Lisa M.

AU - Maex, Margo

AU - Janssenswillen, Sunita

AU - Novikova, Polina Yu

AU - Biju, S. D.

AU - Van De Peer, Yves

AU - Matthijs, Severine

AU - Roelants, Kim

AU - Martel, An

AU - Van Bocxlaer, Ines

AU - Ruvinsky, Ilya

PY - 2019/9/1

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N2 - Chemical signaling in animals often plays a central role in eliciting a variety of responses during reproductive interactions between males and females. One of the best-known vertebrate courtship pheromone systems is sodefrin precursor-like factors (SPFs), a family of two-domain three-finger proteins with a female-receptivity enhancing function, currently only known from salamanders. The oldest divergence between active components in a single salamander species dates back to the Late Paleozoic, indicating that these proteins potentially gained a pheromone function earlier in amphibian evolution. Here, we combined whole transcriptome sequencing, proteomics, histology, and molecular phylogenetics in a comparative approach to investigate SPF occurrence in male breeding glands across the evolutionary tree of anurans (frogs and toads). Our study shows that multiple families of both terrestrially and aquatically reproducing frogs have substantially increased expression levels of SPFs in male breeding glands. This suggests that multiple anuran lineages make use of SPFs to complement acoustic and visual sexual signaling during courtship. Comparative analyses show that anurans independently recruited these proteins each time the gland location on the male's body allowed efficient transmission of the secretion to the female's nares.

AB - Chemical signaling in animals often plays a central role in eliciting a variety of responses during reproductive interactions between males and females. One of the best-known vertebrate courtship pheromone systems is sodefrin precursor-like factors (SPFs), a family of two-domain three-finger proteins with a female-receptivity enhancing function, currently only known from salamanders. The oldest divergence between active components in a single salamander species dates back to the Late Paleozoic, indicating that these proteins potentially gained a pheromone function earlier in amphibian evolution. Here, we combined whole transcriptome sequencing, proteomics, histology, and molecular phylogenetics in a comparative approach to investigate SPF occurrence in male breeding glands across the evolutionary tree of anurans (frogs and toads). Our study shows that multiple families of both terrestrially and aquatically reproducing frogs have substantially increased expression levels of SPFs in male breeding glands. This suggests that multiple anuran lineages make use of SPFs to complement acoustic and visual sexual signaling during courtship. Comparative analyses show that anurans independently recruited these proteins each time the gland location on the male's body allowed efficient transmission of the secretion to the female's nares.

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KW - behavioral evolution

KW - chemical communication

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