PubMed 18023297
Referenced in: none
Automatically associated channels: Kv10.1
Title: Adaptive evolution of the uncoupling protein 1 gene contributed to the acquisition of novel nonshivering thermogenesis in ancestral eutherian mammals.
Authors: Shigeru Saito, Claire Tanaka Saito, Ryuzo Shingai
Journal, date & volume: Gene, 2008 Jan 31 , 408, 37-44
PubMed link: http://www.ncbi.nlm.nih.gov/pubmed/18023297
Abstract
Homeotherms possess various physiological mechanisms to maintain their body temperature, thus allowing them to adapt to various environments. Under cold conditions, most eutherian mammals upregulate heat production in brown adipose tissue (BAT), and uncoupling protein (UCP) 1 is an essential factor in BAT thermogenesis. The evolutionary origin of UCP1 was believed to have been a specific event occurring in eutherian lineages. Recently, however, the UCP1 ortholog was found in fishes, which uncovers a more ancient origin of this gene than previously believed. Here we investigate the evolutionary process of UCP1 by comparative genomic approach. We found that UCP1 evolved rapidly by positive Darwinian selection in the common ancestor of eutherians, although this gene arose in the ancestral vertebrate, since the orthologous genes were shared among most of the vertebrate species. Adaptive evolution occurred after the divergence between eutherians and marsupials, which is consistent with the fact that BAT has been found only in eutherians. Our findings indicate that positive Darwinian selection acted on UCP1 contributed to the acquisition of an efficient mechanism for body temperature regulation in primitive eutherians. Phylogenetic reconstruction of UCP1 with two paralogs (UCP2 and UCP3) among vertebrate species revealed that the gene duplication events which produced these three genes occurred in the common ancestor of vertebrates much earlier than the emergence of eutherians. Thus, our data demonstrate that novel gene function can evolve without de novo gene duplication event.