The phylogeny of the colobine monkeys has a complex evolutionary history,evolving several distinct radiations and owned a wide range of forest and woodland habits in tropical Africa and in southern and eastern Asia.Understanding the true evolutionary history of the colobine monkeys becomes an important field and has received special attention.In this article,we review phylogeny of Colobinae based on previous fossil,cytological,morphological and molecular evidence and indicate the phylogenetic controversies.This review is expected to guide the future research of Colobinae phylogeny,and also provide theoretic evidence for the conservation of these highly endangered and unique primates.
Chinese snub-nosed monkeys (genus Rhinopithecus, subfamily Colobinae), including R. bieti, R. brelichi and R. roxellana, are well-known as the non-human primates with the highest known altitudinal distribution. They represent an interesting model organism of adaptation to the extreme environmental stresses. However, no study at the molecular level has yet been reported for the high-altitude adaptation in Chinese snub-nosed monkeys. Leptin, as an adipocyte-derived hormone, is believed to play an important role in energy homeostasis in adaptation to high altitude environments. In the present study, we sequenced and compared leptin sequences of the Chinese snub-nosed monkeys (R. bieti and R. roxellana) with their lowland close relative R. avunculus and other Colobines. Unexpectedly, no amino acid changes were observed in the 7 Colobinae species examined, including the 2 Chinese snub-nosed monkeys, indicating no difference in the evolutionary pattern of the Leptin gene between high-altitude monkeys and their lowland counterparts. In contrast to a previous finding of adaptive evolution of Leptin gene in plateau pikas, our study suggests that this gene may not have an important role in high-altitude adaptation of Chinese snub-nosed monkeys. Other nuclear genes associated with energy metabolism, or mitochondrial genes, are most likely to be involved the molecular mechanism underlying adaptation of these monkeys to cold and hypoxia associated with the highland environment.
WANG XiaoPing1,2, JIN Wei1,2, YU Li1,2 & ZHANG YaPing1,2 1 Laboratory for Conservation and Utilization of Bio-resource, Yunnan University, Kunming 650091, China
Leptin is an adiposity-secreted hormone that is pivotal in regulating feeding behavior,energy metabolism and body mass.The study of leptin has been of crucial importance for public health and pharmaceutical intervention given its role in obesity.Generally,leptin is highly conserved due to its functional importance.However,episodes of rapid sequence evolution and positive selection have been observed in some mammalian species,indicating that the leptin functions in these animals may have undergone adaptive modification to their environments.In this article,we review the adaptive evolution of leptin and its potential functional consequences.This review is expected to guide future research of molecular evolution and functional assays of this gene,and also to provide a theoretical foundation for the use of leptin in therapeutic applications.
Adaptation is one of the most fundamental issues in the studies of organismal evolution. Pancreatic ribonuclease is a very impor- tant digestive enzyme and secreted by the pancreas. Numerous studies have suggested that RNASE1 gene duplication is closely related to the functional adaptation of the digestive system in the intestinal fermentation herbivores. RNASE1 gene thus becomes one of the most important candidate genetic markers to study the molecular mechanism of adaptation of organisms to the feeding habit. Interestingly, RNASE1 gene duplication has also been found in some non-intestinal fermentation mammals, suggesting that RNASE1 gene may have produced novel tissue specificity or functions in these species. In this review, RNASE1 gene and its im- plications in adaptive evolution, especially in association with the feeding habit of organisms, are summarized.
