Click here to close
Hello! We notice that you are using Internet Explorer, which is not supported by Xenbase and may cause the site to display incorrectly.
We suggest using a current version of Chrome,
FireFox, or Safari.
???displayArticle.abstract???
Phylogenetic studies can reveal patterns of evolutionary change, including the gain or loss of elaborate courtship traits in males. Male African clawed frogs generally produce complex and rapid courtship vocalizations, whereas female calls are simple and slow. In a few species, however, male vocalizations are also simple and slow, suggesting loss of male-typical traits. Here, we explore features of the male vocal organ that could contribute to loss in two species with simple, slow male calls. In Xenopus boumbaensis, laryngeal morphology is more robust in males than in females. Larynges are larger, have a more complex cartilaginous morphology and contain more muscle fibers. Laryngeal muscle fibers are exclusively fast-twitch in males but are both fast- and slow-twitch in females. The laryngeal electromyogram, a measure of neuromuscular synaptic strength, shows greater potentiation in males than in females. Male-specific physiological features are shared with X. laevis, as well as with a species of the sister clade, Silurana tropicalis, and thus are likely ancestral. In X. borealis, certain aspects of laryngeal morphology and physiology are sexually monomorphic rather than dimorphic. In both sexes, laryngeal muscle fibers are of mixed-twitch type, which limits the production of muscle contractions at rapid intervals. Muscle activity potentiation and discrete tension transients resemble female rather than male X. boumbaensis. The de-masculinization of these laryngeal features suggests an alteration in sensitivity to the gonadal hormones that are known to control the sexual differentiation of the larynx in other Xenopus and Silurana species.
Baur,
Sexually differentiated, androgen-regulated, larynx-specific myosin heavy-chain isoforms in Xenopus tropicalis; comparison to Xenopus laevis.
2008, Pubmed,
Xenbase
Baur,
Sexually differentiated, androgen-regulated, larynx-specific myosin heavy-chain isoforms in Xenopus tropicalis; comparison to Xenopus laevis.
2008,
Pubmed
,
Xenbase
Catz,
Sexually dimorphic expression of a laryngeal-specific, androgen-regulated myosin heavy chain gene during Xenopus laevis development.
1992,
Pubmed
,
Xenbase
Evans,
A mitochondrial DNA phylogeny of African clawed frogs: phylogeography and implications for polyploid evolution.
2004,
Pubmed
,
Xenbase
Feng,
Nuclear receptor modulation--role of coregulators in selective estrogen receptor modulator (SERM) actions.
2014,
Pubmed
Guth,
Procedure for the histochemical demonstration of actomyosin ATPase.
1970,
Pubmed
Johnson,
Behavioural display systems across nine Anolis lizard species: sexual dimorphisms in structure and function.
2010,
Pubmed
Kelley,
Sexually dimorphic behaviors.
1988,
Pubmed
Lännergren,
The force-velocity relation of isolated twitch and slow muscle fibres of Xenopus laevis.
1978,
Pubmed
,
Xenbase
Leininger,
Distinct neural and neuromuscular strategies underlie independent evolution of simplified advertisement calls.
2013,
Pubmed
,
Xenbase
Luine,
Androgen affects cholinergic enzymes in syringeal motor neurons and muscle.
1980,
Pubmed
Marin,
Hormone-sensitive stages in the sexual differentiation of laryngeal muscle fiber number in Xenopus laevis.
1990,
Pubmed
,
Xenbase
Nasipak,
The genome of the diploid anuran Xenopus tropicalis contains a novel array of sarcoplasmic myosin heavy chain genes expressed in larval muscle and larynx.
2008,
Pubmed
,
Xenbase
Nasipak,
Developing laryngeal muscle of Xenopus laevis as a model system: androgen-driven myogenesis controls fiber type transformation.
2012,
Pubmed
,
Xenbase
Remage-Healey,
A rapid neuromodulatory role for steroid hormones in the control of reproductive behavior.
2006,
Pubmed
Rhodes,
Xenopus vocalizations are controlled by a sexually differentiated hindbrain central pattern generator.
2007,
Pubmed
,
Xenbase
Ruel,
Facilitation at the sexually differentiated laryngeal synapse of Xenopus laevis.
1998,
Pubmed
,
Xenbase
Sassoon,
The sexually dimorphic larynx of Xenopus laevis: development and androgen regulation.
1986,
Pubmed
,
Xenbase
Sassoon,
Androgen regulation of muscle fiber type in the sexually dimorphic larynx of Xenopus laevis.
1987,
Pubmed
,
Xenbase
Tobias,
Attaining and maintaining strong vocal synapses in female Xenopus laevis.
1998,
Pubmed
,
Xenbase
Tobias,
Evolution of advertisement calls in African clawed frogs.
2011,
Pubmed
,
Xenbase
Tobias,
Development of functional sex differences in the larynx of Xenopus laevis.
1991,
Pubmed
,
Xenbase
Tobias,
Vocalizations by a sexually dimorphic isolated larynx: peripheral constraints on behavioral expression.
1987,
Pubmed
,
Xenbase
Zornik,
A neuroendocrine basis for the hierarchical control of frog courtship vocalizations.
2011,
Pubmed
,
Xenbase
