Project description:Bombyx mori is one of the key lepidopteran model species, and is economically important for silk production and proteinaceous drug expression. Baculovirus and insect host are important natural biological models for studying host-pathogen interactions. The impact of Bombyx mori nucleopolyhedrovirus (BmNPV) infection on the proteome and acetylome of Bombyx mori ovarian (BmN) cells were explored to facilitate a better understanding of infection-driven interactions between BmNPV and host in vitro. The proteome and acetylome were profiled through 6-plex Tandem mass tag (TMT) labelling-based quantitative proteomics. Totally, 4,194 host proteins were quantified, of which 33 were up-regulated and 47 were down-regulated in BmN cells at 36 h post-infection. Based on the proteome, quantifiable differential Kac proteins were identified and functionally annotated to gene expression regulation, energy metabolism, substance synthesis and metabolism after BmNPV infection. Altogether, 644 Kac sites in 431 host proteins and 39 Kac sites in 22 viral proteins were identified and quantified in infected BmN cells. Our study demonstrated that BmNPV infection globally impacts the proteome and acetylome of BmN cells. The viral proteins are also acetylated by the host acetyltransferase. Protein acetylation is essential for cellular self-regulation and response to virus infection. This study provides new insights for understanding the host-virus interaction mechanisms, and the role of acetylation in BmN cellular response to viral infection.
Project description:To identify the cuticular proteins in developing wing scales of Bombyx mori, we performed LC-MS/MS analysis of dissoliving developing wing scales from Bombyx mori
Project description:To identify the cuticular proteins in developing wing scales of Bombyx mori, we performed LC-MS/MS analysis of dissoliving developing wing scales from Bombyx mori
Project description:To identify the cuticular proteins in developing wing scales of Bombyx mori, we performed LC-MS/MS analysis of dissoliving developing wing scales from Bombyx mori
Project description:N6-methyladenosine (m6A) is the most prevalent internal modification found in mammalian messenger and non-coding RNAs. The discoveries of functionally significant demethylases that reverse this methylation as well as the recently revealed m6A distributions in mammalian transcriptomes strongly indicate regulatory functions of this modification. Here we report the identification and characterization of the mammalian nuclear RNA N6-adenosine methyltransferase core (RNMTC) complex. Besides METTL3, a methyltransferase which was the only known component of RNMTC in the past, we discovered that a previously uncharacterized methyltransferase, METTL14, exhibits a N6-adenosine methyltransferase activity higher than METTL3. Together with WTAP, the third component that dramatically affects the cellular m6A level, these three proteins form the core complex that orchestrates m6A deposition on mammalian nuclear RNA. Biochemistry assays, imaging experiments, as well as transcriptome-wide analyses of the binding sites and their effects on m6A methylation support methylation function and reveal new insights of RNMTC. PAR-CLIP and m6A-seq in HeLa cells
