生物化学与生理学：开放获取

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Identification of Volatile and Protein Profiles in the Sting and Mandibular Glands of the Worker Honey Bee (Apis cerana indica)

G. Lakshmi Priya, P. Rameshkumar, P. Ponmanickam, R. Eswaran, D.N.P. Sudarmani and T. Rajagopal

In social insect, the perception of volatile molecules, odorants and releasing pheromones, is mediated via specialized olfactory organs is generally thought to be accomplished by odorant-binding proteins and pheromonecarrying proteins. These proteins play an important role in the solubilization, transport and deactivation of pheromones. In honeybee, the sting and mandibular glands are one of the major pheromonal sources and it is believed to contain volatile compounds and proteins (pheromone carrying or binding) for chemical communication. Therefore, the present investigation was carried out to identify the pheromones and proteins in sting and mandibular glands in adult worker bee, Apis cerana indica GC-MS and SDS-PAGE. Nearly twenty eight volatile compounds were identified in the sting and mandibular glands of the worker bee. Amongst, the 19 compounds were identified in the mandibular gland and 16 compounds in the sting. Amongst certain compounds peak appeared specific or common to particular glands. The present results suggest that glandular specific volatiles which may evoke the behaviourally important chemical signals in the Apis cerana indica. The present study revealed that the total content of protein was higher in the mandibular than sting gland. In fact, the protein profiles like 21.1, 25, 26, 29, 43, 61, 97.9 and 110 kDa have noted in the sting and mandibular glands. Among these fractions, the 43 and 26 kDa polypeptides appeared prominently in the sting and mandibular glands, respectively. Further, electophoretic profile showed 43 kDa mass protein intensity was relatively high in sting gland, whereas 26 kDa mass protein intensity was relatively higher in the mandibular gland. Based on the volatile identification and proteins in the sting and mandibular glands of worker bees supported by literature, it is concluded that the sting and mandibular gland-specific volatile compounds which may convey the specific information regarding the alarm or repellent forage-marking scent.