Bombyx mori cypovirus (BmCPV) is one of the major viral pathogen for silkworm, and the genome of BmCPV is composed of 10 dsRNA segments. As construction system of recombinant BmCPV (rBmCPV) is scanty, researchers achieved little progress in studying gene function of BmCPV in recent decades. Here, 10 recombinant plasmids with a full-length cDNA of viral genome segments S1-S10 containing T7 promoter were constructed. After cotransfecting the BmN cells with the mixture of 10 in vitrotranscribed RNAs, pathological changes were observed. Real-time PCR and Western blot showed viral gene vp1 and structural proteins were expressed. It is found the genome of the rBmCPV is composed of 10 dsRNA segments similar to those of wild-type BmCPV. Moreover, viral particles and polyhedron with virions can be generated in the cotransfected cells and the injected silkworm midguts. These findings confirmed the formation of infective rBmCPV. Additionally, we found viable rBmCPV was generated by cotransfecting the mixture of in vitro-transcribed S1-S9 RNAs into the cultured cells, confirming polh was not essential for BmCPV replication. Moreover, an infectious rBmCPV expressing the DsRed protein was constructed based on this system. Further investigation showed S2 and S7 segments are indispensible for viral proliferation. Our findings demonstrated the construction system of rBmCPV can be utilized for exploring viral replication and pathogenesis, and investigated method for constructing rBmCPV will certainly facilitate developing novel biopesticides and expressing exogenous gene in the midgut of silkworm.

Nosema ceranae is a unicellular fungal parasite of honey bees and causes huge losses for apiculture. Until present, no study on N . ceranae long non-coding RNAs (lncRNAs) was documented. Here, we sequenced purified spores of N . ceranae using strand-specific library construction and high-throughput RNA sequencing technologies. In total, 83 novel lncRNAs were predicted from N . ceranae spore samples, including lncRNAs, long intergenic non-coding RNAs (lincRNAs), and sense lncRNAs. Moreover, these lncRNAs share similar characteristics with those identified in mammals and plants, such as shorter length and fewer exon number and transcript isoforms than protein-coding genes. Finally, the expression of 12 lncRNAs was confirmed with RT-PCR, confirming their true existence. To our knowledge, this is the first evidence of lncRNAs produced by a microsporidia species, offering novel insights into basic biology such as regulation of gene expression of this widespread taxonomic group.

Currently, knowledge of circular RNAs (circRNAs) in insects including honeybee is extremely limited. Here, differential expression profiles and regulatory networks of circRNAs in the midguts of Apis cerana cerana workers were comprehensively investigated using transcriptome sequencing and bioinformatics. In total, 9589 circRNAs (201–800 nt in length) were identified from 8-day-old and 11-day-old workers’ midguts (Ac1 and Ac2); among them, 5916 (61.70%) A. cerana cerana circRNAs showed conservation with our previously indentified circRNAs in Apis mellifera ligucstica workers’ midguts (Xiong et al., Acta Entomologica Sinica 61:1363–1375, 2018). Five circRNAs were confirmed by RT-PCR and Sanger sequencing. Interestingly, novel_circ_003723, novel_circ_002714, novel_circ_002451, and novel_circ_001980 were highly expressed in both Ac1 and Ac2. In addition, the source genes of circRNAs were involved in 34 GO terms including organelle and cellular process and 141 pathways such as endocytosis and Wnt signaling pathway. Moreover, 55 DEcircRNAs including 34 upregulated and 21 downregulated circRNAs were identified in Ac2 compared with Ac1. circRNA-miRNA regulatory networks indicated that 1060 circRNAs can target 74 miRNAs; additionally, the DEcircRNA-miRNA-mRNA networks suggested that 13 downregulated circRNAs can bind to eight miRNAs and 29 miRNA-targeted mRNAs, while 16 upregulated circRNAs can link to 9 miRNAs and 29 miRNA-targeted mRNAs. These results indicated that DEcircRNAs as ceRNAs may play a comprehensive role in the growth, development, and metabolism of the worker’s midgut via regulating source genes and interacting with miRNAs. Notably, eight DEcircRNAs targeting miR-6001-y were likely to be key participants in the midgut development. Our findings not only offer a valuable resource for further studies on A. cerana cerana circRNA and novel insights into understanding the molecular mechanisms underlying the midgut development of eastern honeybee but also provide put

Ascosphaera apis is a widespread fungal pathogen of honeybee larvae, which causes heavy losses in apiculture. To date, knowledge about non-coding RNA (ncRNA) including circular RNA (circRNA) in A. apis is lacking. In this study, A. apis mycelia and spores were sequenced using RNA-seq technology. A total of 551 circRNAs were predicted on the basis of bioinformatic analyses, and most of the circRNAs were 200–600 bp in length, which were different from animal and plant circRNAs. In addition, the expression of six circRNAs in A. apis were confirmed using divergent and convergent PCR. Moreover, circRNA-microRNA regulation networks in A. apis were constructed, and further investigation showed that A. apis circRNAs could regulate gene expression by competitively binding miRNAs. GO and KEGG pathway enrichment analyses of the miRNAs target genes of circRNAs demonstrated that these A. apis circRNAs are likely to play key roles in metabolism, environmental response and gene expression.

Circular RNAs (circRNAs) are newly discovered endogenous non-coding RNAs (ncRNAs) that play key roles in microRNA function and transcriptional regulation. Though a large number of circRNAs had been identifed in animals and plants, however, little is known regarding circRNAs in Nosema ceranae, a widespread fungal parasite of honeybee. In this study, using deep sequencing technology and bioinformatic analysis, we predicted 204 circRNAs from N. ceranae spore samples, including 174 exonic circRNAs and 30 intergenic circRNAs. In addition, the expression of seven N. ceranae circRNAs was confrmed by RT-PCR assay. Furthermore, regulation networks of circRNAs were constructed, and 15 circRNAs were found to act as sponges of the corresponding three miRNAs. GO categorization and pathway enrichment analysis suggested that the circRNAs are likely to play signifcant roles in N. ceranae spore. This is the frst report of circRNAs generated by a microsporidia species. Our results provide novel insights into understanding the basic biology of N. ceranae.