More Like this

1. Embryonic development of a parthenogenetic vertebrate, the mourning gecko (Lepidodactylus lugubris)

   https://doi.org/DOI:10.1002/dvdy.72  

   Griffing, A. H. ; Sanger, T. J. ; Daza, J. D. ; Nielsen, S. V. ; Pinto, B. J. ; Stanley, E. L. ; Gamble, T. ( January 2019 , Developmental dynamics)

   Background: One goal of evolutionary developmental biology is to understand the role of development in the origin of phenotypic novelty and convergent evolution. Geckos are an ideal system to study this topic, as they are species-rich and exhibit a suite of diverse morphologies — many of which have independently evolved multiple times within geckos. Results: We characterized and discretized the embryonic development of Lepidodactylus lugubris - an all-female, parthenogenetic gecko species. We also used soft-tissue μCT to characterize the development of the brain and central nervous system, which is difficult to visualize using traditional microscopy techniques. Additionally, we sequenced and assembled a de novo transcriptome for a late-stage embryo as a resource for generating future developmental tools. Herein, we describe the derived and conserved patterns of L. lugubris development in the context of squamate evolution and development. Conclusions: This embryonic staging series, μCT data, and transcriptome together serve as critical enabling resources to study morphological evolution and development, the evolution and development of parthenogenesis, and other questions concerning vertebrate evolution and development in an emerging gecko model. 

   more » « less
2. The development of cephalic armor in the tokay gecko (Squamata: Gekkonidae: Gekko gecko )

   https://doi.org/10.1002/jmor.21092  

   Laver, Rebecca J. ; Morales, Cristian H. ; Heinicke, Matthew P. ; Gamble, Tony ; Longoria, Kristin ; Bauer, Aaron M. ; Daza, Juan D. ( December 2019 , Journal of Morphology)

   Armored skin resulting from the presence of bony dermal structures, osteoderms, is an exceptional phenotype in gekkotans (geckos and flap‐footed lizards) only known to occur in three genera:Geckolepis,Gekko, andTarentola. The Tokay gecko (Gekko geckoLINNAEUS 1758) is among the best‐studied geckos due to its large size and wide range of occurrence, and although cranial dermal bone development has previously been investigated, details of osteoderm development along a size gradient remain less well‐known. Likewise, a comparative survey of additional species within the broaderGekkoclade to determine the uniqueness of this trait has not yet been completed. Here, we studied a large sample of gekkotans (38 spp.), including 18 specimens ofG. gecko, using X‐rays and high‐resolution computed tomography for visualizing and quantifying the dermal armorin situ. Results from this survey confirm the presence of osteoderms in a second species within this genus,GekkoreevesiiGRAY 1831, which exhibits discordance in timing and pattern of osteoderm development when compared with its sister taxon,G. gecko. We discuss the developmental sequence of osteoderms in these two species and explore in detail the formation and functionality of these enigmatic dermal ossifications. Finally, we conducted a comparative analysis of endolymphatic sacs in a wide array of gekkotans to explore previous ideas regarding the role of osteoderms as calcium reservoirs. We found thatG. geckoand other gecko species with osteoderms have highly enlarged endolymphatic sacs relative to their body size, when compared to species without osteoderms, which implies that these membranous structures might fulfill a major role of calcium storage even in species with osteoderms.

    

   more » « less
3. And thereby hangs a tail: morphology, developmental patterns and biomechanics of the adhesive tails of crested geckos ( Correlophus ciliatus )

   https://doi.org/10.1098/rspb.2021.0650  

   Griffing, Aaron H. ; Sanger, Thomas J. ; Epperlein, Lilian ; Bauer, Aaron M. ; Cobos, Anthony ; Higham, Timothy E. ; Naylor, Emily ; Gamble, Tony ( June 2021 , Proceedings of the Royal Society B: Biological Sciences)

   Among the most specialized integumentary outgrowths in amniotes are the adhesive, scale-like scansors and lamellae on the digits of anoles and geckos. Less well-known are adhesive tail pads exhibited by 21 gecko genera. While described over 120 years ago, no studies have quantified their possible adhesive function or described their embryonic development. Here, we characterize adult and embryonic morphology and adhesive performance of crested gecko ( Correlophus ciliatus ) tail pads. Additionally, we use embryonic data to test whether tail pads are serial homologues to toe pads. External morphology and histology of C . ciliatus tail pads are largely similar to tail pads of closely related geckos. Functionally, C . ciliatus tail pads exhibit impressive adhesive ability, hypothetically capable of holding up to five times their own mass. Tail pads develop at approximately the same time during embryogenesis as toe pads. Further, tail pads exhibit similar developmental patterns to toe pads, which are markedly different from non-adhesive gecko toes and tails. Our data provide support for the serial homology of adhesive tail pads with toe pads. 

   more » « less
4. Divergent expression of aristaless1 and aristaless2 during embryonic appendage and pupal wing development in butterflies

   https://doi.org/10.1186/s12915-023-01602-5  

   Bayala, Erick X. ; Cisneros, Isabella ; Massardo, Darli ; VanKuren, Nicholas W. ; Kronforst, Marcus R. ( May 2023 , BMC Biology)

   Gene duplication events are critical for the evolution of new gene functions. Aristaless is a major regulator of distinct developmental processes. It is most known for its role during appendage development across animals. However, more recently other distinct biological functions have been described for this gene and its duplicates. Butterflies and moths have two copies ofaristaless,aristaless1(al1) andaristaless2(al2), as a result of a gene duplication event. Previous work inHeliconiushas shown that both copies appear to have novel functions related to wing color patterning. Here we expand our knowledge of the expression profiles associated with both ancestral and novel functions of Al1 across embryogenesis and wing pigmentation. Furthermore, we characterize Al2 expression, providing a comparative framework between gene copies within the same species, allowing us to understand the origin of new functions following gene duplication.

   Our work shows that the expression of both Al1 and Al2 is associated with the ancestral function of sensory appendage (leg, mouth, spines, and eyes) development in embryos. Interestingly, Al1 exhibits higher expression earlier in embryogenesis while the highest levels of Al2 expression are shifted to later stages of embryonic development. Furthermore, Al1 localization appears extranuclear while Al2 co-localizes tightly with nuclei earlier, and then also expands outside the nucleus later in development. Cellular expression of Al1 and Al2 in pupal wings is broadly consistent with patterns observed during embryogenesis. We also describe, for the first time, how Al1 localization appears to correlate with zones of anterior/posterior elongation of the body during embryonic growth, showcasing a possible new function related to Aristaless’ previously described role in appendage extension.

   Overall, our data suggest that while both gene copies play a role in embryogenesis and wing pigmentation, the duplicates have diverged temporally and mechanistically across those functions. Our study helps clarify principles behind sub-functionalization and gene expression evolution associated with developmental functions following gene duplication events.

    

   more » « less
5. Osteological description of casque ontogeny in the southern cassowary ( Casuarius casuarius ) using micro‐CT imaging

   https://doi.org/10.1002/ar.24477  

   Green, Todd L. ; Gignac, Paul M. ( July 2020 , The Anatomical Record)

   Extant cassowaries (Casuarius) are unique flightless birds found in the tropics of Indo‐Australia. They have garnered substantial attention from anatomists with focus centered on the bony makeup and function of their conspicuous cranial casques, located dorsally above the orbits and neurocranium. The osteological patterning of the casque has been formally described previously; however, there are differing interpretations between authors. These variable descriptions suggest that an anatomical understanding of casque anatomy and its constituent elements may be enhanced by developmental studies aimed at further elucidating this bizarre structure. In the present study, we clarify casque osteology of the southern cassowary (C. casuarius) by detailing casque anatomy across an extensive growth series for the first time. We used micro‐computed tomography (μCT) imaging to visualize embryonic development and post‐hatching ontogeny through adulthood. We also sampled closely related emus (Dromaius novaehollandiae) and ostriches (Struthio camelus) to provide valuable comparative context. We found that southern cassowary casques are comprised of three paired (i.e., nasals, lacrimals, frontals) and two unpaired elements (i.e., mesethmoid, median casque element). Although lacrimals have rarely been considered as casque elements, the contribution to the casque structure was evident in μCT images. The median casque element has often been cited as a portion of the mesethmoid. However, through comparisons between immatureC. casuariusandD. novaehollandiae, we document the median casque element as a distinct unit from the mesethmoid.

    

   more » « less