Abstract
To identify and compare venom components and expression patterns, venom gland-specific transcriptome analyses were conducted for 14 Aculeate bees and wasps. TPM (transcripts per kilobase million) values were normalized using the average transcription level of a reference housekeeping gene (dimethyladenosine transferase). Orthologous venom component genes across the 14 bee and wasp species were identified, and their relative abundance in each species was determined by comparing normalized TPM values. Based on signal sequences in the transcripts, the genes of novel venom components were identified and characterized to encode potential allergens. Most of the allergens and pain-producing factors (arginine kinase, hyaluronidase, mastoparan, phospholipase A1, phospholipase A2, and venom allergen 5) showed extremely high expression levels in social wasps. Acid phosphatase, neprilysin, and tachykinin, which are known allergens and neurotoxic peptides, were found in the venom glands of solitary wasps more often than in social wasps. In the venom glands of bumblebees, few or no transcripts of major allergens or pain-producing factors were identified. Taken together, these results indicate that differential expression patterns of the venom genes in some Aculeate species imply that some wasps and bumblebee species have unique groups of highly expressed venom components. Some venom components reflected the Aculeate species phylogeny, but others did not. This unique evolution of specific venom components in different groups of some wasps and bumblebee species might have been shaped in response to both ecological and behavioral influences.
Highlights
Wasps are an extremely diverse group of hymenopteran insects that includes an estimated 70,000 species worldwide
Total reads of 5.89, 6.39, 7.13, 5.74, 6.22, 6.16, 11.3, 11.4, 8.2, 8.07, 8.1, 7.66, 10.9, and 10.6 Gb were obtained from RNA sequencing of the venom glands of Eumenes decoratus, Sphecidae sp., Anterhynchium flavomarginatum, Sceliphron deforme, V. crabro, V. analis, V. dybowskii, V. simillima, Parapolybia varia, Polistes snelleni, Polistes rothneyi, Bombus ardens, B. consobrinus, and B. ussurensis, respectively
Relative transcription levels showed significantly similar expression pattern with that of transcripts per kilobase million (TPM) values indicating that relative transcriptional abundances of major venomic genes estimated from TPM values are reliable
Summary
Wasps are an extremely diverse group of hymenopteran insects that includes an estimated 70,000 species worldwide. Wasps belong to the suborder Apocrita (Hymenoptera), which is divided into. Parasitica comprises most of the parasitoid wasps, whereas Aculeata. Toxins 2020, 12, 47 contains parasitoids and predatory wasps, in which the ovipositor is modified to transmit venom rather than being an egg-positioning device [2]. Aculeate wasps are divided into solitary and social groups [3]. Most of Aculeate wasps, approximately 95%, are solitary wasps, which build their own nests and store their prey [4]. Most solitary wasps paralyze and preserve prey to provision their young using venom composed of bioactive molecules with various functions, including paralysis, antimicrobial activity, and developmental arrest [5]
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