Authors
Todd A Castoe, AP Jason de Koning, Kathryn T Hall, Daren C Card, Drew R Schield, Matthew K Fujita, Robert P Ruggiero, Jack F Degner, Juan M Daza, Wanjun Gu, Jacobo Reyes-Velasco, Kyle J Shaney, Jill M Castoe, Samuel E Fox, Alex W Poole, Daniel Polanco, Jason Dobry, Michael W Vandewege, Qing Li, Ryan K Schott, Aurélie Kapusta, Patrick Minx, Cédric Feschotte, Peter Uetz, David A Ray, Federico G Hoffmann, Robert Bogden, Eric N Smith, Belinda SW Chang, Freek J Vonk, Nicholas R Casewell, Christiaan V Henkel, Michael K Richardson, Stephen P Mackessy, Anne M Bronikowski, Mark Yandell, Wesley C Warren, Stephen M Secor, David D Pollock
Publication date
2013/12/17
Journal
Proceedings of the National Academy of Sciences
Volume
110
Issue
51
Pages
20645-20650
Publisher
National Academy of Sciences
Description
Snakes possess many extreme morphological and physiological adaptations. Identification of the molecular basis of these traits can provide novel understanding for vertebrate biology and medicine. Here, we study snake biology using the genome sequence of the Burmese python (Python molurus bivittatus), a model of extreme physiological and metabolic adaptation. We compare the python and king cobra genomes along with genomic samples from other snakes and perform transcriptome analysis to gain insights into the extreme phenotypes of the python. We discovered rapid and massive transcriptional responses in multiple organ systems that occur on feeding and coordinate major changes in organ size and function. Intriguingly, the homologs of these genes in humans are associated with metabolism, development, and pathology. We also found that many snake metabolic genes have undergone positive …
Scholar articles
TA Castoe, APJ de Koning, KT Hall, DC Card… - Proceedings of the National Academy of Sciences, 2013