Dear Editor, In recent years, post-translational modifications (PTMs) by small ubiquitin-related modifiers (SUMOs) have emerged as an important regulatory mechanism for both cellular and viral processes (Ribet an...Dear Editor, In recent years, post-translational modifications (PTMs) by small ubiquitin-related modifiers (SUMOs) have emerged as an important regulatory mechanism for both cellular and viral processes (Ribet and Cossart, 2010). Identifying the SUMOylation sites of the target protein is important to understand the molecular mechanism under- lying SUMO modification and virus-host interactions, as well as provide new insights into antiviral drug develop- ment (Wimmer and Schreiner, 2015). Traditional site- directed mutagenesis for identifying viral protein SUMO- ylation sites lacks a specific aim and is laborious (McManus et al., 2016). Recently, mass spectrometry (MS) has been employed as an accurate and sensitive tool to identify PTM sites, thereby greatly expanding the number of known SUMOylated proteins (Pedrioli et al., 2006). However, during viral infection, SUMOylation is highly dynamic and SUMOylated viral proteins often have low abundance, which makes studying SUMOylation under natural conditions difficult.展开更多
文摘Dear Editor, In recent years, post-translational modifications (PTMs) by small ubiquitin-related modifiers (SUMOs) have emerged as an important regulatory mechanism for both cellular and viral processes (Ribet and Cossart, 2010). Identifying the SUMOylation sites of the target protein is important to understand the molecular mechanism under- lying SUMO modification and virus-host interactions, as well as provide new insights into antiviral drug develop- ment (Wimmer and Schreiner, 2015). Traditional site- directed mutagenesis for identifying viral protein SUMO- ylation sites lacks a specific aim and is laborious (McManus et al., 2016). Recently, mass spectrometry (MS) has been employed as an accurate and sensitive tool to identify PTM sites, thereby greatly expanding the number of known SUMOylated proteins (Pedrioli et al., 2006). However, during viral infection, SUMOylation is highly dynamic and SUMOylated viral proteins often have low abundance, which makes studying SUMOylation under natural conditions difficult.
