Primate

About: Primate is a research topic. Over the lifetime, 1250 publications have been published within this topic receiving 67388 citations. The topic is also known as: the primate order & primates.

Different rates of LINE-1 (L1) retrotransposon amplification and evolution in New World monkeys.

Abstract: LINE-1 (L1) elements constitute the major family of retrotransposons in mammalian genomes. Here we report the first investigation of L1 evolution in New World monkeys (NWM). Two regions of the second open-reading frame were analyzed by two methods in three NWM species, the squirrel monkey (Saimiri sciureus), the tamarin (Saguinus oedipus), and the spider monkey (Ateles paniscus). Since these three species diverged, L1 has amplified in the Saimiri and Saguinus lineages but L1 activity seems to have been strongly reduced in the Ateles lineage. In addition, the active L1 lineage has evolved rapidly in Saimiri and Saguinus, generating species-specific subfamilies. In contrast, we found no evidence for a species-specific subfamily in Ateles, a result consistent with the low L1 activity in this species for the last ~25 My.

Blood Groups of Apes and Monkeys

Abstract: The study of red cell antigens of primate animals was initiated by Landsteiner and Miller in 1925. It was intensified in 1940 when it was recognized that not only apes’ and monkeys’ red cells contained antigens similar to those already known in humans, but that immunizations of laboratory animals with the red cells of monkeys resulted in a production of antibodies that defined a new, hitherto unrecognized allogenic property of the human red cells. The discovery of the Rh factor (Landsteiner and Wiener, 1940) was to be one of the most important chapters in the history of human blood groups.

Evolution of α2-Fucosyltransferase Genes in Primates: Relation Between an Intronic Alu-Y Element and Red Cell Expression of ABH Antigens

Abstract: Coding sequences of the paralogous FUT1 (H), FUT2 (Se), and Sec1 alpha 2-fucosyltransferase genes were obtained from different primate species. Analysis of the primate FUT1-like and FUT2-like sequences revealed the absence of the known human inactivating mutations giving rise to the h null alleles of FUT1 and the se null alleles of FUT2. Therefore, most primate FUT1-like and FUT2-like genes potentially code for functional enzymes. The Sec1-like gene encodes for a potentially functional alpha 2-fucosyltransferase enzyme in nonprimate mammals, New World monkeys, and Old World monkeys, but it has been inactivated by a nonsense mutation at codon 325 in the ancestor of humans and African apes (gorillas, chimpanzees). Human and gorilla Sec1's have, in addition, two deletions and one insertion, respectively, 5' of the nonsense mutation leading to proteins shorter than chimpanzee Sec1. Phylogenetic analysis of the available H, Se, and Sec1 mammalian protein sequences demonstrates the existence of three clusters which correspond to the three genes. This suggests that the differentiation of the three genes is rather old and predates the great mammalian radiation. The phylogenetic analysis also suggests that Sec1 has a higher evolutionary rate than FUT2 and FUT1. Finally, we show that an Alu-Y element was inserted in intron 1 of the FUT1 ancestor of humans and apes (chimpanzees, gorillas, orangutans, and gibbons); this Alu-Y element has not been found in monkeys or nonprimate mammals, which lack ABH antigens on red cells. A potential mechanism leading to the red cell expression of the H enzyme in primates, related to the insertion of this Alu-Y sequence, is proposed.

Activity budget and diet of patas monkeys in Kala Maloue National Park, Cameroon: A preliminary report

Abstract: A preliminary study was carried out on the feeding ecology of patas monkeys in the rainy season in Cameroon. Their daily activity rhythm revealed two active peaks. The proportion of time spent on feeding with respect to waking time was 30%. Patas monkeys largely depended on the flowers and buds of herbaceous plants and the larvae of insects for their diet as they ranged widely. Patas monkeys spent more time in feeding and travelled for a longer distance per day than the sympatric primate species, the tantalus monkey. It is considered that these findings reflected the large amount of food requirement due to the large body size, as well as the low density and high degree of dispersal of their food.

Serum concentrations of lipids, vitamins A and E, vitamin D metabolites, and carotenoids in nine primate species at four zoos

Abstract: The purpose of this work was to measure important nutritional status parameters for captive primates, compare those with published data, and look for a link with diet. The nutritional status of nine captive primate species was examined using biochemical analysis. The species were spider monkeys (Ateles geoffroyi), colobus monkeys (Colobus guereza), sooty mangabeys (Cercocebus torquatus), Schmidt's monkeys (Cercopithecus ascanius), mandrills (Papio sphinx), baboons (Papio cynocephalus), chimpanzees (Pan troglodytes), orangutans (Pongo pygmaeus), and gorillas (Gorilla gorilla). Diet information was collected by survey and the estimated nutritional composition of the diet for each species at each institution was compared with non-human primate nutrient requirements. On the average, the captive primates received diets that met or exceeded recommended dietary guidelines for vitamins A, D, and E for non-human primates. Blood samples were collected from 94 primates held at Brookfield Zoo, Fort Worth Zoo, Lincoln Park Zoological Gardens, and North Carolina Zoological Park and analyzed for lipids, vitamins A and E, D metabolites, and carotenoids. Several species showed differences among zoos for some nutrients, but values from any one zoo were not consistently lower. When monkeys were compared with great apes, monkeys had lower serum total cholesterol, triacylglyceride, and measured LDL cholesterol levels, but significantly higher vitamin D metabolite levels. Species differences were found for serum A, E, and carotenoid levels (with the exception of lycopene). Some differences were seen in serum retinol, retinyl palmitate and γ-tocopherol. The relatively large number of animals contributing to this database and the fact that the data were collected from four zoos provide a substantial base for comparing nutritional status. Comparisons of these serum levels with previously published values for selected primates and humans revealed some differences. Zoo Biol 18:551–564, 1999. © 1999 Wiley-Liss, Inc.