The giant panda Ailuropoda melanoleuca belongs to the family of Ursidae; however, it is not carnivorous, feeding almost exclusively on bamboo. Being equipped with a typical carnivorous digestive apparatus, the giant panda cannot get enough energy for an active life and spends most of its time digesting food or sleeping. Feeding and mating are both regulated by odors and pheromones; therefore, a better knowledge of olfaction at the molecular level can help in designing strategies for the conservation of this species. In this context, we have identified the odorant-binding protein (OBP) repertoire of the giant panda and mapped the protein expression in nasal mucus and saliva through proteomics. Four OBPs have been identified in nasal mucus, while the other two were not detected in the samples examined. In particular, AimelOBP3 is similar to a subset of OBPs reported as pheromone carriers in the urine of rodents, saliva of the boar, and seminal fluid of the rabbit. We expressed this protein, mapped its binding specificity, and determined its crystal structure. Structural data guided the design and preparation of three protein mutants bearing single-amino acid replacements in the ligand-binding pocket, for which the corresponding binding affinity spectra were measured. We also expressed AimelOBP5, which is markedly different from AimelOBP3 and complementary in its binding spectrum. By comparing our binding data with the structures of bamboo volatiles and those of typical mammalian pheromones, we formulate hypotheses on which may be the most relevant semiochemicals for the giant panda.odorant-binding proteins | chemical communication | X-ray structure | proteomics | giant panda T he giant panda Ailuropoda melanoleuca is endemic of China and was formerly classified as an endangered species, now as a vulnerable species, but its population has remained rather stable, although very low, during the last centuries (1). Its phylogenetic classification has been a matter of debate for some time, but molecular genetic studies have recently shown that this species belongs to Ursidae, of which it represents an ancestral branch together with the spectacled bears, Tremarctos, and the sloth bear (1-3). The diets of these species are different from those of carnivorous bears: the giant panda is fully herbivorous, the spectacled bears are mainly herbivorous, and sloth bears feed on termites, fruits, and vegetables. The giant panda also shares with spectacled bears and sloth bears the absence of hibernation, an important characteristic that differentiates these species from other Ursidae (4).The obligate bamboo diet of the giant panda, which is not compatible with its carnivorous digestive system, is barely sufficient to provide the energy required for an active life, likely accounting for the slow movements and long periods of rest typical of this species (5). It has been also suggested that the reduced size of the brain, liver, and kidneys of the giant panda relative to other mammals could be a measure to further reduce the use of i...
Anogenital gland secretions play a major role in chemical communication by giant pandas, Ailuropoda melanoleuca (David, 1869). We analyzed 45 samples of anogenital gland secretions collected from 24 captive pandas (5 male adults, 6 female adults, 6 male subadults, and 7 female subadults) by gas chromatography and mass spectrometry. The secretions contained over 95 compounds. Based on 56 common compounds (relative abundances >0.1%) shared by more than three individuals, we identified steroids, long-chain fatty acids, fatty-acid esters, aldehydes, alkanes, alkenes, amines, terpenes, and furans. The chemical composition of each secretion was individual-specific. Although none of these individual compounds was age-or sex-specific, the relative abundances of several compounds differed between males and females and between adults and subadults. This result shows that information about sex and age could be coded in analog form. Information about age but not gender could also be digitally coded by the presence or absence of some of the 56 compounds, in addition to the analog coding.Résumé : Les sécrétions de la glande génito-anale jouent un rôle important dans la communication chimique chez les grands pandas, Ailuropoda melanoleuca (David, 1869). Nous avons analysé 45 prélèvements des sécrétions de la glande génito-anale provenant de 24 pandas en captivité (5 adultes mâles, 6 adultes femelles, 6 subadultes mâles, 7 subadultes femelles) par chromatographie gazeuse et spectrométrie de masse. Les sécrétions contiennent plus de 95 composés. Parmi les 56 des composés communs (d'abondance relative >0,1 %) présents chez plus de trois individus, nous avons identifié des stéroïdes, des acides gras à longue chaîne, des esters d'acides gras, des aldéhydes, des alcanes, des alcè-nes, des amines, des terpènes et des furanes. La composition chimique des sécrétions est propre à chaque individu. Bien qu'aucun de ces composés ne soit spécifique à un âge ou un sexe, l'abondance relative de plusieurs composés diffère entre les mâles et les femelles et entre les adultes et les subadultes. Ces résultats indiquent que l'information concernant le sexe et l'âge peut être codée de manière analogique. L'information concernant l'âge, mais non le sexe, peut aussi être codée de façon digitale d'après la présence oabsence de certains des 56 composés, en plus de la codification analogique.[Traduit par la Rédaction] Yuan et al. 1604
With a combination of dichloromethane extraction and analysis by gas chromatography-mass spectrometry (GC-MS), we found 39 compounds (corresponding to 38 GC peaks) in the anogenital gland secretion (AGS) of captive adult giant pandas, Ailuropoda melanoleuca, during the non-mating season. In addition to indole, squalene, and some of the straight-chain fatty acids that had been characterized previously from the AGS of giant pandas, we identified several new compounds such as decenal, two isomers of decadienal, phenylacetic acid, 5-methylhydantoin, hydroquinone, phenylpropanoic acid, and erucic acid. Quantitative comparison of the relative abundances of the 20 main GC peaks revealed that 5-methylhydantoin, indole, and erucic acid are putative female pheromones, whereas squalene and hydroquinone are putative male pheromones. In addition to the presence of a few individual-specific compounds, the relative abundances of most of the 21 constituents varied more among individuals than within individuals. This suggests that individual identity might be coded in both digital and analog form. The chemical composition of different AGS samples from the same pandas consistently displayed a minimum cluster distance, much smaller than that between samples from different individuals in a hierarchical linkage cluster (average linkage) dendrogram. Our results indicate that the AGS might contain an "odor fingerprint." Although putative sex pheromones such as squalene and erucic acid should be assessed further by bioassay, our study suggests that synthetic chemosignals might be useful in modulating the behavior and physiology of giant pandas.
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