2021
DOI: 10.1186/s12864-021-07732-w
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Genomic insights into body size evolution in Carnivora support Peto’s paradox

Abstract: Background The range of body sizes in Carnivora is unparalleled in any other mammalian order—the heaviest species is 130,000 times heavier than the lightest and the longest species is 50 times longer than the shortest. However, the molecular mechanisms underlying these huge differences in body size have not been explored. Results Herein, we performed a comparative genomics analysis of 20 carnivores to explore the evolutionary basis of the order’s g… Show more

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Cited by 13 publications
(14 citation statements)
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“…The fixed amino acid replacements in certain group of mammals might contribute to the explanation underlying a specific phenotype [ 29 ]. Among 5333 proteins and 3,585,819 amino acid positions, only one ascrotal mammal-specific amino acid substitution was identified in Glucagon Like Peptide 2 Receptor (GLP2R).…”
Section: Resultsmentioning
confidence: 99%
“…The fixed amino acid replacements in certain group of mammals might contribute to the explanation underlying a specific phenotype [ 29 ]. Among 5333 proteins and 3,585,819 amino acid positions, only one ascrotal mammal-specific amino acid substitution was identified in Glucagon Like Peptide 2 Receptor (GLP2R).…”
Section: Resultsmentioning
confidence: 99%
“…Results of both the two-ratio and free-ratio models were compared with the null model—a one-ratio model that allowed an equal ω ratio for all branches in the phylogeny. When the value of d N or d S in each ω value is less than 0.0002, we considered it as an outlier “n/a” [ 56 ]. The relative goodness-of-fit of the nested models was determined using a likelihood ratio test (LRT) that was performed by comparing twice the difference in ln likelihood scores (2ΔlnL) against a χ 2 distribution, with the number of degrees of freedom corresponding to the difference in number of parameters between the nested models.…”
Section: Methodsmentioning
confidence: 99%
“…However, the molecular mechanisms for maintaining large sizes and longevity in large carnivores have not been extensively investigated thus far. Huang et al (2021 ) reported 100 body size-associated genes in carnivores related to cancer control, including tumor suppressors, DNA repair, and immunity. From these genes, 15 cancer-related genes were identified as rapidly evolving in the extremely large lineages, which might protect the animal from cancer invasion: ADGRF2, CABCOCO1, CATSPERG, CCDC146, CPLX4, CTLA4, MAS1, PACSIN1, PHF13, SDR39U1, SLC25A28, TCTE1, TERB1, YTHDC2 and ZBED1 ( Huang et al , 2021 ).…”
Section: Mechanisms To Evade Cancermentioning
confidence: 99%