Mining Public Data to Investigate the Virome of Neglected Pollinators and Other Floral Visitors.
Sabrina Ferreira de SantanaVinícius Castro SantosÍcaro Santos LopesJoel Augusto Moura PortoIrma Yuliana Mora-OcampoGeorge Andrade SodréCarlos Priminho PirovaniAristóteles Góes-NetoLuis Gustavo Carvalho PachecoPaula Luize Camargos FonsecaMarco Antônio CostaEric Roberto Guimarães Rocha AguiarPublished in: Viruses (2023)
This study reports the virome investigation of pollinator species and other floral visitors associated with plants from the south of Bahia: Aphis aurantii , Atrichopogon sp., Dasyhelea sp., Forcipomyia taiwana , and Trigona ventralis hoozana . Studying viruses in insects associated with economically important crops is vital to understand transmission dynamics and manage viral diseases that pose as threats for global food security. Using literature mining and public RNA next-generation sequencing data deposited in the NCBI SRA database, we identified potential vectors associated with Malvaceae plant species and characterized the microbial communities resident in these insects. Bacteria and Eukarya dominated the metagenomic analyses of all taxon groups. We also found sequences showing similarity to elements from several viral families, including Bunyavirales, Chuviridae, Iflaviridae , Narnaviridae, Orthomyxoviridae, Rhabdoviridae, Totiviridae , and Xinmoviridae . Phylogenetic analyses indicated the existence of at least 16 new viruses distributed among A . aurantii (3), Atrichopogon sp. (4), Dasyhelea sp. (3), and F. taiwana (6). No novel viruses were found for T. ventralis hoozana . For F. taiwana , the available libraries also allowed us to suggest possible vertical transmission, while for A. aurantii we followed the infection profile along the insect development. Our results highlight the importance of studying the virome of insect species associated with crop pollination, as they may play a crucial role in the transmission of viruses to economically important plants, such as those of the genus Theobroma, or they will reduce the pollination process. This information may be valuable in developing strategies to mitigate the spread of viruses and protect the global industry.