Your search keyword '"Clemente CJ"' showing total 2 results

1. Enter the Dragon: The Dynamic and Multifunctional Evolution of Anguimorpha Lizard Venoms

Author

Koludarov, I, Jackson, TNW, den Brouw, BO, Dobson, J, Dashevsky, D, Arbuckle, K, Clemente, CJ, Stockdale, EJ, Cochran, C, Debono, J, Stephens, C, Panagides, N, Li, B, Manchadi, M-LR, Violette, A, Fourmy, R, Hendrikx, I, Nouwens, A, Clements, J, Martelli, P, Kwok, HF, Fry, BG, Koludarov, I, Jackson, TNW, den Brouw, BO, Dobson, J, Dashevsky, D, Arbuckle, K, Clemente, CJ, Stockdale, EJ, Cochran, C, Debono, J, Stephens, C, Panagides, N, Li, B, Manchadi, M-LR, Violette, A, Fourmy, R, Hendrikx, I, Nouwens, A, Clements, J, Martelli, P, Kwok, HF, and Fry, BG

Abstract

While snake venoms have been the subject of intense study, comparatively little work has been done on lizard venoms. In this study, we have examined the structural and functional diversification of anguimorph lizard venoms and associated toxins, and related these results to dentition and predatory ecology. Venom composition was shown to be highly variable across the 20 species of Heloderma, Lanthanotus, and Varanus included in our study. While kallikrein enzymes were ubiquitous, they were also a particularly multifunctional toxin type, with differential activities on enzyme substrates and also ability to degrade alpha or beta chains of fibrinogen that reflects structural variability. Examination of other toxin types also revealed similar variability in their presence and activity levels. The high level of venom chemistry variation in varanid lizards compared to that of helodermatid lizards suggests that venom may be subject to different selection pressures in these two families. These results not only contribute to our understanding of venom evolution but also reveal anguimorph lizard venoms to be rich sources of novel bioactive molecules with potential as drug design and development lead compounds.

Published

2017

2. Morphology and burrowing energetics of semi-fossorial skinks (Liopholis spp.)

Author

Wu, NC, Alton, LA, Clemente, CJ, Kearney, MR, White, CR, Wu, NC, Alton, LA, Clemente, CJ, Kearney, MR, and White, CR

Abstract

Burrowing is an important form of locomotion in reptiles, but no study has examined the energetic cost of burrowing for reptiles. This is significant because burrowing is the most energetically expensive mode of locomotion undertaken by animals and many burrowing species therefore show specialisations for their subterranean lifestyle. We examined the effect of temperature and substrate characteristics (coarse sand or fine sand) on the net energetic cost of burrowing (NCOB) and burrowing rate in two species of the Egernia group of skinks (Liopholis striata and Liopholis inornata) compared with other burrowing animals. We further tested for morphological specialisations among burrowing species by comparing the relationship between body shape and retreat preference in Egernia group skinks. For L. striata and L. inornata, NCOB is 350 times more expensive than the predicted cost of pedestrian terrestrial locomotion. Temperature had a positive effect on burrowing rate for both species, and a negative effect on NCOB for L. striata but not L. inornata. Both NCOB and burrowing rate were independent of substrate type. Burrows constructed by skinks had a smaller cross-sectional area than those constructed by mammals of comparable mass, and NCOB of skinks was lower than that of mammals of similar mass. After accounting for body size, retreat preference was significantly correlated with body shape in Egernia group skinks. Species of Egernia group skinks that use burrows for retreats have narrower bodies and shorter front limbs than other species. We conclude that the morphological specialisations of burrowing skinks allow them to construct relatively narrow burrows, thereby reducing NCOB and the total cost of constructing their burrow retreats.

Published

2015