ABSTRACT
In a study aimed at the chemical characterization of constituents of the ventral gland secretion of the male dwarf hamster, Phodopus sungorus sungorus, 48 compounds, including saturated alcohols, saturated and unsaturated ketones, saturated and unsaturated straight-chain carboxylic acids, iso- and anteisocarboxylic acids, 3-phenylpropanoic acid, hydroxyesters, 2-piperidone, and some steroids were identified in the secretion. The position of the double bonds in gamma-icosadienyl-gamma-butyrolactone and gamma-henicosadienyl-gamma-butyrolactone, and the position of methylbranching in seven C16-C21 saturated ketones could not be established. Several constituents with typically steroidal mass spectra also remained unidentified. The female dwarf hamster's ventral gland either does not produce secretion or produced so little secretion that it was impossible to collect enough material for analysis.
Subject(s)
Cricetinae/physiology , Exocrine Glands/chemistry , Pheromones/chemistry , Alcohols/analysis , Alcohols/chemistry , Animals , Carboxylic Acids/analysis , Carboxylic Acids/chemistry , Esters/analysis , Esters/chemistry , Female , Ketones/analysis , Ketones/chemistry , Male , Mass Spectrometry , Steroids/analysis , Steroids/chemistryABSTRACT
As a first step in a study of the role of the secretion of the supplementary sacculi (buccal secretion) of the dwarf hamster, Phodopus sungorus sungorus, almost complete chemical characterization of the secretion was achieved. The 35 compounds identified include carbon dioxide, hydrogen sulfide, a large number of carboxylic acids (representing the bulk of the organic volatile fraction of the secretion), phenol, 2-piperidone, indole, two long-chain hydroxyesters, cholestrol, desmosterol, and lanosterol. The position of the double bonds in gamma-icosadienyl-gamma-butyrolactone and gamma-henicosadienyl-gamma-butyrolactone could not be determined, and these two compounds remained only partially characterized. Large variations were found in the relative concentrations in which the short-chain carboxylic acids are present in the secretions of individual animals, and although this aspect was not investigated in sufficient detail in the present investigation, the difference in the carboxylic acid profiles of the secretions of individual animals could play a role in individual recognition in this animal.