The Genetic Basis of Baculum Size and Shape Variation in Mice

Schultz, Nicholas G; Ingels, Jesse; Hillhouse, Andrew; Wardwell, Keegan; Chang, Peter L.; Cheverud, James M.; Lutz, Cathleen; Lu, Lu; Williams, Robert W.; Dean, Matthew D.

doi:10.1534/g3.116.027888

Cited by 20 publications

(28 citation statements)

References 123 publications

(127 reference statements)

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“…We consider three potential mechanisms. First, baculum morphology varies greatly among species (Burt, ; Schultz et al, ) and may cause mechanical isolation (Patterson & Thaeler, ). However, O. torridus from the contact zone in NM has the most distinct baculum (Sullivan et al, ) yet successfully mated with both congeners, whereas O. arenicola and O. leucogaster have similar bacula but never reproduced in our laboratory trials.…”

Section: Discussionmentioning

confidence: 99%

“…We consider three potential mechanisms. First, baculum morphology varies greatly among species (Burt, 1960;Schultz et al, 2016) and may cause mechanical isolation (Patterson & Thaeler, 1982 (Dulac & Torello, 2003). Although the functional diversity of VRs in Onychomys is unknown, sexually dimorphic midventral sebaceous glands that secrete pheromones (Pinter, 1985) likely play a key role in sexual and, potentially, species identification.…”

Section: Discussionmentioning

confidence: 99%

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Vocal divergence is concordant with genomic evidence for strong reproductive isolation in grasshopper mice (Onychomys)

Campbell

Arévalo

Martin

et al. 2019

Ecology and Evolution

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Behavioral barriers to gene flow often evolve faster than intrinsic incompatibilities and can eliminate the opportunity for hybridization between interfertile species. While acoustic signal divergence is a common driver of premating isolation in birds and insects, its contribution to speciation in mammals is less studied. Here we characterize the incidence of, and potential barriers to, hybridization among three closely related species of grasshopper mice (genus Onychomys). All three species use long‐distance acoustic signals to attract and localize mates; Onychomys arenicola and Onychomys torridus are acoustically similar and morphologically cryptic whereas Onychomys leucogaster is larger and acoustically distinct. We used genotyping‐by‐sequencing (GBS) to test for evidence of introgression in 227 mice from allopatric and sympatric localities in the western United States and northern Mexico. We conducted laboratory mating trials for all species pairs to assess reproductive compatibility, and recorded vocalizations from O. arenicola and O. torridus in sympatry and allopatry to test for evidence of acoustic character displacement. Hybridization was rare in nature and, contrary to prior evidence for O. torridus/O. arenicola hybrids, only involved O. leucogaster and O. arenicola. In contrast, laboratory crosses between O. torridus and O. arenicola produced litters whereas O. leucogaster and O. arenicola crosses did not. Call fundamental frequency in O. torridus and O. arenicola was indistinguishable in allopatry but significantly differentiated in sympatry, a pattern consistent with reproductive character displacement. These results suggest that assortative mating based on a long‐distance signal is an important isolating mechanism between O. torridus and O. arenicola and highlight the importance of behavioral barriers in determining the permeability of species boundaries.

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Vocal divergence is concordant with genomic evidence for strong reproductive isolation in grasshopper mice (Onychomys)

Campbell

Arévalo

Martin

et al. 2019

Ecology and Evolution

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“…https://doi.org/10.1371/journal.pone.0228131.g007 bone form variation and species reproductive and ecological correlates, in a phylogenetic perspective, might help unravelling further functional and evolutionary hypotheses. In addition, virtual data about genital bone surface could be analyzed by using either geometric morphometric techniques (for example following the same landmark and semi-landmark method applied to investigate molluscan shell shape variation by [54][55][56]) or other methods, such as the finite element analysis [57][58][59][60][61] and "alpha-shapes" [62]. In conclusion, micro-CT technique proved appropriate to discover knowledge still hidden in museum specimens or fresh 3D journey on primate ossa genitalia cadavers, preventing them not only to be stored in a closet or else get trashed after necropsy, rather allowing them to still contribute to science and live a second life.…”

Section: Technical Recommendationsmentioning

confidence: 99%

A 3D journey on virtual surfaces and inner structure of ossa genitalia in Primates by means of a non-invasive imaging tool

et al. 2020

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Novel bio-imaging techniques such as micro-Computed Tomography provide an opportunity to investigate animal anatomy and morphology by overcoming limitations imposed by traditional anatomical drawings. The primate genital bones are complex anatomical structures whose occurrence in both male penis (baculum) and female clitoris (baubellum) may be difficult to assess in individual cadavers. We tested a 3-step methodological protocol, including different techniques ranging from inexpensive/simple to more expensive/sophisticated ones, by applying it to a sample of primate species, and resulting in different levels of data complexity: (1) presence/absence manual palpation method; (2) 2D X-ray plates; 3) 3D micro-CT scans. Manual palpation failed on 2 out of 23 specimens by detecting 1 false negative and 1 false positive; radiography failed once confirming the false positive, however firmly disproved by micro-CT; micro-CT analysis reported the presence of 9 bacula out of 11 male specimens and 1 baubellum out of 12 female specimens. A different baculum position was identified between strepsirrhine and haplorrhine species. We also aim to assess micro-CT as a non-invasive technique providing updated anatomical descriptions of primate ossa genitalia. Micro-CT 3D volumes showed the surface of some bones as rough, with a jagged appearance, whereas in others the surface appeared very smooth and coherent. In addition, four main types of bone internal structure were identified: 1) totally hollow; 2) hollow epiphyses and solid diaphysis with few or several channels inside; 3) totally solid with intricate Haversian channels; 4) totally solid with some channels (structure of single baubellum scanned). Ossa genitalia appeared as a living tissue having its own Haversian-like channels. The high resolution of micro-CT 3D-images of primate genital bones disclosed additional form variability to that available from genital bone 2D images of previous studies, and showed for the first time new internal and external morphological characters. Moreover, micro-CT non-invasive approach proved appropriate to recover much of scientific knowledge still hidden and often neglected in both museum specimens and primate cadavers only destined to necropsy.Novel radiological techniques have greatly advanced our knowledge in animal morphology, allowing to quantify internal anatomy with higher degree of accuracy, also using non-invasive approaches. In the past, anatomical studies were based on bi-dimensional drawings and/or photographs that allow to obtain limited information about size and shape. To date, bio-imaging techniques overcome these methodological limits since they produce virtual 3D models which, in addition, provide the access to more detailed descriptors of morphological variation. The availability of micro-CT imaging has increased over the last decade and has shown its utility in many biological [1-3] and medical applications [4][5][6]. In comparison with other imaging techniques, the strengths of micro-CT lie in its high-resolution imaging, s...

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“…It presents a wide diversity of size and shape across species to such an extent that it has been considered the most diverse of all bones (Patterson and Thaeler, ). It may diverge relatively easy by means of mutations at a few loci of large effect on size and shape (Schultz et al, ). It has been used widely in mammalian systematics (Martin, ; Patterson, ; Altuna and Lessa, ; Varona, ) or age determination (Friley, ; Smirnov and Tsytsulina, ).…”

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confidence: 99%

“…The baculum is present in most major clades of placental mammals (Schultz et al, ) Chiroptera (except Noctilionidae, Phyllostomidae, and some species of the genus Pteropus ); a few species of Soricomorpha, Erinaceomorpha, and Afrosoricida; Carnivora (except hyenas and some viverrids); Primates (except the genera Alouatta , Ateles , Cacajao , Lagothrix , and Homo ); Dermoptera; and Rodentia. By contrast, the baculum is absent in Prototheria, Metatheria (except in the wombat), Afrotheria (except in some tenrecs), Lagomorpha (except Ochotona princeps ; see Weimann et al, ), and Xenarthra.…”

mentioning

confidence: 99%

Cross‐Sectional Geometry and Scaling in the Baculum of Cuban Hutias (Rodentia: Capromyidae)

Casinos

García-Martínez²,

Borroto-Páez³

2019

The Anatomical Record

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Bacula from 61 individual hutia (Rodentia) from five species were studied. The purpose was to investigate cross-sectional geometry as an indicator of mechanical behavior in order to answer questions around the origin and maintenance of the mammalian baculum. From images of the apical and basal cross sections, the following variables were calculated: perimeter, cross-sectional area, maximum second moment of area, and polar moment. An allometric analysis showed that these variables were related to body size. The orientation of the maximum second moment of area was analyzed by means of circular statistics. This orientation was transverse in both the apical and basal cross sections. Values for the second moment of area and polar moment, obtained from the predicted value of the allometric equations, showed that either the bending moment or the twisting moment of the baculum must be relatively low in hutias, compared with those of the radius in the same species. The results of the second moment of area predict that the main bending stress acting on the baculum is transverse. At the same time, shear stress would not be negligible. Anat Rec, 303:1346Rec, 303: -1353Rec, 303: , 2020

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The Genetic Basis of Baculum Size and Shape Variation in Mice

Cited by 20 publications

References 123 publications

Vocal divergence is concordant with genomic evidence for strong reproductive isolation in grasshopper mice (Onychomys)

Vocal divergence is concordant with genomic evidence for strong reproductive isolation in grasshopper mice (Onychomys)

A 3D journey on virtual surfaces and inner structure of ossa genitalia in Primates by means of a non-invasive imaging tool

Cross‐Sectional Geometry and Scaling in the Baculum of Cuban Hutias (Rodentia: Capromyidae)

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