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Full-Text Articles in Life Sciences
Genetic Variation At Hair Length Candidate Genes In Elephants And The Extinct Woolly Mammoth, Alfred L. Roca, Yasuko Ishida, Nikolaidis Sergios, Sergios-Orestis Kolokotronis, Stephen Fratpietro, Kristin Stewardson, Shannon Hensley, Michele Tisdale, Gennady Boeskorov, Alex D. Greenwood
Genetic Variation At Hair Length Candidate Genes In Elephants And The Extinct Woolly Mammoth, Alfred L. Roca, Yasuko Ishida, Nikolaidis Sergios, Sergios-Orestis Kolokotronis, Stephen Fratpietro, Kristin Stewardson, Shannon Hensley, Michele Tisdale, Gennady Boeskorov, Alex D. Greenwood
Biological Sciences Faculty Publications
Background: Like humans, the living elephants are unusual among mammals in being sparsely covered with hair. Relative to extant elephants, the extinct woolly mammoth, Mammuthus primigenius, had a dense hair cover and extremely long hair, which likely were adaptations to its subarctic habitat. The fibroblast growth factor 5 (FGF5) gene affects hair length in a diverse set of mammalian species. Mutations in FGF5 lead to recessive long hair phenotypes in mice, dogs, and cats; and the gene has been implicated in hair length variation in rabbits. Thus, FGF5 represents a leading candidate gene for the phenotypic differences in hair length …
Role Of Accelerated Segment Switch In Exons To Alter Targeting (Asset) In The Molecular Evolution Of Snake Venom Proteins, Robin Doley, Stephen P. Mackessy, R. Manjunatha Kini
Role Of Accelerated Segment Switch In Exons To Alter Targeting (Asset) In The Molecular Evolution Of Snake Venom Proteins, Robin Doley, Stephen P. Mackessy, R. Manjunatha Kini
Biological Sciences Faculty Publications
BACKGROUND: Snake venom toxins evolve more rapidly than other proteins through accelerated changes in the protein coding regions. Previously we have shown that accelerated segment switch in exons to alter targeting (ASSET) might play an important role in its functional evolution of viperid three-finger toxins. In this phenomenon, short sequences in exons are radically changed to unrelated sequences and hence affect the folding and functional properties of the toxins.
RESULTS: Here we analyzed other snake venom protein families to elucidate the role of ASSET in their functional evolution. ASSET appears to be involved in the functional evolution of three-finger toxins …