Bemisia tabaci, a significant agricultural pest in Asia, contains distinct genetic groups, Asia-1 and Asia II-1. Understanding its reproductive biology, particularly the role of ejaculatory bulb proteins (EBPs) in mating, is crucial. However, EBPs in B. tabaci were not well characterised until this study. The EBPs have been characterised in the Asia-1 and Asia II-1 genetic groups of the whitefly B. tabaci, prevalent in Asia. The transcriptomic analysis yielded over 40,000,000 and 30,000,000 annotated transcripts, respectively, from Asia II-1 and Asia-1. Differential gene expression revealed the presence of 270 upregulated and 198 downregulated genes, with significant differences between these two genetic groups. Orphan genes (1992 numbers) were identified in both genetic groups. We report, for the first time, full-length sequences of EBP genes from B. tabaci. The 10 EBPs each deduced in B. tabaci Asia-1 and Asia II-1 are structurally akin to chemosensory proteins having four conserved cysteine residues. Additionally, we did domain analysis, protein structure prediction, mapping of these EBPs in the chromosomes of B. tabaci, and phylogenetic analysis to track their evolutionary lineage. We have specifically demonstrated the transfer of EBPs from males to females during mating using qPCR and further validated the transfer of EBPs through RNAi. Specifically, we targeted the highly expressed EBPs (EBP-3, 7, and 8 in BtAsia1; EBP-8, 9, and 10 in BtAsia II-1) through feeding bioassays of dsRNAs. Tracking by qPCR revealed that the females, when mated with dsRNA-treated males, did not show expression of the specific EBP, suggesting that the silencing of these genes in males hinders the transfer of EBP to females during mating. Our findings provide novel insights into the genomic contours of EBPs in B. tabaci and underscore the potential of RNAi-based strategies for pest management by disrupting the reproductive processes.