Molecular characterization of mitochondrial Zucchini and its relation to nuage-piRNA pathway components in Bombyx mori ovary-derived BmN4 cells.

Piwi-interacting RNAs (piRNAs) are a class of small non-coding RNAs that associate with PIWI subfamily proteins, which play an important role in transposon silencing in animal germ cell. The piRNAs biogenesis is divided into two major pathways: primary and secondary, and both pathways are independent of double-stranded RNA-processing enzyme Dicer, which processes the single-stranded RNA transcripts in microRNA (miRNA) and siRNA (small interfering RNA) pathway. Primary piRNAs are processed from long non-coding RNA precursors transcribed from piRNA clusters. Zucchini (Zuc), a mitochondrial phospholipase D (PLD) superfamily protein is conserved among the animals and involved in piRNA biogenesis. Recent studies showed that the Zucchini is an endoribonuclease essential for primary piRNA maturation and production of phased piRNA in secondary piRNA biogenesis of drosophila germ cell. Based on these reports, here we identified and studied the silkworm Zucchini (BmZuc) at subcellular level in ovary-derived BmN4 cell. The silkworm Zuc specifically expressed in germ-related tissues and localized on mitochondria and partially co-localized with perinuclear nuage-piRNA pathway components and nuage marker protein BmVasa. Molecular dissection analyses revealed that the conserved mitochondrial localization sequence, RGV motif, PLDc 2 domain and HKD motif are important for the BmZuc mitochondrial localization. Moreover, the knockdown analyses showed that the piRNA pathway components are independent on BmZuc for their nuage localization, whereas BmZuc depend on piRNA pathway components for the proper localization. Our data provides vital information on mitochondrial BmZuc and its relationship to "nuage" in ovary-derived BmN4 cell.

Characterization of Armitage and Yb containing granules and their relationship to nuage in ovary-derived cultured silkworm cell.

PIWI-interacting RNAs (piRNAs) are a class of endogenous small non-coding RNAs, which are mostly 24-32 nucleotides in length and interact specifically with PIWI subfamily of argonaute proteins. Despite the significant research progress in germ line piRNA pathway, its role in somatic cell is not well known. In Drosophila ovarian somatic cell, maturation of primary piRNA and its loading onto Piwi occurs at perinuclear Yb body. The Armitage (Armi) and Yb proteins are the major components of Yb body and specially expressed in ovarian somatic cell. Based on the reports, here we studied the BmArmi and BmYb in Bombyx mori ovary-derived BmN4 cells expressing BmVasa. In this study, we show that BmArmi and BmYb co-localized with BmVasa at nuage. The helicase domains of BmArmi and BmYb are important for nuage localization. Moreover, RNAi of piRNA components reveal that BmArmi depend on BmAgo3 for nuage localization, and BmArmi and BmYb form cytoplasmic granules independently in the absence of BmVasa. Our results provide evidence that the BmArmi and BmYb coexist with BmVasa and play an important role in perinuclear nuage granules formation in ovary-derived BmN4 cell.

Biochemical characterization of maintenance DNA methyltransferase DNMT-1 from silkworm, Bombyx mori.

DNA methylation is an important epigenetic mechanism involved in gene expression of vertebrates and invertebrates. In general, DNA methylation profile is established by de novo DNA methyltransferases (DNMT-3A, -3B) and maintainance DNA methyltransferase (DNMT-1). DNMT-1 has a strong substrate preference for hemimethylated DNA over the unmethylated one. Because the silkworm genome lacks an apparent homologue of de novo DNMT, it is still unclear that how silkworm chromosome establishes and maintains its DNA methylation profile. As the first step to unravel this enigma, we purified recombinant BmDNMT-1 using baculovirus expression system and characterized its DNA-binding and DNA methylation activity. We found that the BmDNMT-1 preferentially methylates hemimethylated DNA despite binding to both unmethylated and hemimethylated DNA. Interestingly, BmDNMT-1 formed a complex with DNA in the presence or absence of methyl group donor, S-Adenosylmethionine (AdoMet) and the AdoMet-dependent complex formation was facilitated by Zn(2+) and Mn(2+). Our results provide clear evidence that BmDNMT-1 retained the function as maintenance DNMT but its sensitivity to metal ions is different from mammalian DNMT-1.