To investigate genes differentially expressed in the venom of social and solitary wasps, a comparative transcriptome analysis was conducted. Subtractive expressed sequence tag (EST) libraries specific to the venom gland and sac (gland/sac) of a social wasp species, Vespa tropica and a solitary hunting wasp species, Rhynchium brunneum, was constructed by suppression subtractive hybridization. In BLASTx analysis, 41% and 56% of the total ESTs showed statistically best-matched hits (E ≤ 10-4) in the libraries of V. tropica and R. brunneum, respectively. Although the functional category analysis did not show remarkable differences in the distribution of functional categories between the two venom gland/sac cDNA libraries, perhaps due to the lack of functional information on many of the venom components, there were groups of genes that are specific to either V. tropica or R. brunneum. Venom allergen 5 and serine protease were found to be social wasp-specific venom transcripts. In contrast, venom peptides, metalloendopeptidases, arginine kinase and dendrotoxin were observed in solitary wasp at much higher frequencies.

Rhynchium brunneum is a widely distributed wasp species in South Eastern Asia. R. brunneum females were collected from rural provinces of Cambodia, and their total RNA and venom were extracted on site. To search for novel substances in venom, a subtracted cDNA library specific to the venom gland and sac was constructed. A total of 1118 expressed sequenced sequence tags (ESTs) were sequenced and assembled into 349 contigs (107 multiple sequences and 242 singletons). In this result, we found the putative neurotoxin (DTX protein precursor), antimicrobial peptides (teratocyte-specific caboxylesterase) together with typical major components of wasp venom (venom hyaluronidase, arginine kinase, phospholipase A2, serine/theonine protein phosphatase). Additional in-depth annotation would be required for further characterization of many unidentified genes found in the EST library.