Complementary DNA library of Myanmar Russell's viper (Daboia russelii siamensis) venom gland

Geographical variations of snake venoms of the same species are well-known. Exploring the components of venom from each region will give insights in its distinctive toxicities. Venom gland cDNA library of Russell's viper (RV) from Myanmar (Daboia russelii siamensis) was constructed to create a catalog of expressed sequences tags (ESTs) and to compare with sequences from RV of other countries. The cDNA library of venom gland was generated by using CloneMiner™ II cDNA Library Construction Kit. Clones were subjected to Sanger sequencing and analyses by bioinformatics tools. From 251 isolated clones, 38 ESTs were assembled into 6 clusters and 21 singlets. Toxin sequences contributed to 57.9% of all transcripts and Kunitz-type serine protease inhibitors are most abundant (45.5% of toxin transcripts). The Myanmar RV phospholipase A2 (PLA2) showed 98% and 74% identity to D. r. russelii PLA2 from India (DrK-bI) and PLA2 of D. r. siamensis from Thailand as well as Taiwan, respectively. The cysteine-rich secretory protein (CRISP) homologs from Myanmar RV were first identified here showing homology to CRISP from Taiwan RV and European vipers with 98% and 90% identity, respectively. The RV 5′ nucleotidase was also first cloned. In summary, Myanmar RV showed a unique gene expression pattern and sequences. Large scale analysis by next-generation sequencing is warranted. The distribution of toxin and non-toxin transcripts from cDNA library of Myanmar Russell's viper venom glands. [Display omitted] •Snake venom intraspecific variations cause geographical differences in clinical features.•The Myanmar Russell's viper (RV) venom gland cDNA revealed a unique toxin profile.•Kunitz-type protease inhibitors were abundant toxin transcripts in Myanmar RV.•Myanmar RV PLA2 showed higher homology to Indian than Thai subspecies.