Edith A. MacDonald

Chemical Cues Identify Gender and Individuality in Giant Pandas (Ailuropoda melanoleuca)

The Giant panda communicates with conspecifics by depositing a mixture of volatile compounds (called scent marks) on trees and rocks. Using mass spectrometry, we identified 951 chemical components from scent glands, urine, vaginal secretions, and scent marks made by pandas. The scent marks of the two genders contained a similar array of chemicals but varied in concentration; specifically, males possessed a significantly greater amount of short chain fatty acids (F(1, 29) = 18.4, P = 0.002). Using stepwise discriminate analysis on the relative proportions of a subset of these chemicals, it was possible to classify gender (94% for males and females) and individuality (81% for males and 91% for females) from scent marks. The power to identify individual males was reduced due to the relatedness of two subjects. By cracking the identity code of Giant panda communication, we show insights into how these animals can match individuals with unique chemical profiles. Since radiocollaring is currently banned in China, the techniques described in this paper give field biologists a new means to identify and track pandas in the wild.

Accurate enzymatic measurement of fecal bile acids in patients with malabsorption

Quantitation of fecal bile acid excretion can help elucidate the cause of diarrhea or steatorrhea. Fecal bile acids can be measured with gas chromatography-mass spectrometry, but this is time-consuming, expensive, and not available for clinical use. Relatively simple enzymatic methods have been described for the measurement of fecal 3alpha-hydroxy bile acids, but these have not been validated in patients with gastrointestinal disease. We found that an enzymatic method yielded falsely low results in patients with malabsorption syndromes for two reasons: First, the preliminary hydrolysis step did not completely deconjugate bile acids, precluding their extraction into diethyl ether for enzymatic assay. Second, long-chain fatty acids inhibited 3alpha-hydroxysteroid dehydrogenase activity. By increasing the duration of hydrolysis and the concentration of enzyme, we developed a simple, accurate, and reproducible method for measuring fecal 3alpha-hydroxy bile acids that agreed well with values obtained with the use of gas chromatography-mass spectrometry (R =.95), both in normal subjects and in patients with malabsorption syndromes.