Comprehensive Identification of Substrates for F-box Proteins by Differential Proteomics Analysis

Although elucidation of enzyme–substrate relations is fundamental to the advancement of biology, universal approaches to the identification of substrates for a given enzyme have not been established. It is especially difficult to identify substrates for ubiquitin ligases, given that most such substrates are immediately ubiquitylated and degraded as a result of their association with the enzyme. We here describe the development of a new approach, DiPIUS (differential proteomics-based identification of ubiquitylation substrates), to the discovery of substrates for ubiquitin ligases. We applied DiPIUS to Fbxw7α, Skp2, and Fbxl5, three of the most well-characterized F-box proteins, and identified candidate substrates including previously known targets. DiPIUS is thus a powerful tool for unbiased and comprehensive screening for substrates of ubiquitin ligases

Comprehensive Identification of Substrates for F-box Proteins by Differential Proteomics Analysis

Although elucidation of enzyme–substrate relations is fundamental to the advancement of biology, universal approaches to the identification of substrates for a given enzyme have not been established. It is especially difficult to identify substrates for ubiquitin ligases, given that most such substrates are immediately ubiquitylated and degraded as a result of their association with the enzyme. We here describe the development of a new approach, DiPIUS (differential proteomics-based identification of ubiquitylation substrates), to the discovery of substrates for ubiquitin ligases. We applied DiPIUS to Fbxw7α, Skp2, and Fbxl5, three of the most well-characterized F-box proteins, and identified candidate substrates including previously known targets. DiPIUS is thus a powerful tool for unbiased and comprehensive screening for substrates of ubiquitin ligases

Comprehensive Identification of Substrates for F-box Proteins by Differential Proteomics Analysis

Although elucidation of enzyme–substrate relations is fundamental to the advancement of biology, universal approaches to the identification of substrates for a given enzyme have not been established. It is especially difficult to identify substrates for ubiquitin ligases, given that most such substrates are immediately ubiquitylated and degraded as a result of their association with the enzyme. We here describe the development of a new approach, DiPIUS (differential proteomics-based identification of ubiquitylation substrates), to the discovery of substrates for ubiquitin ligases. We applied DiPIUS to Fbxw7α, Skp2, and Fbxl5, three of the most well-characterized F-box proteins, and identified candidate substrates including previously known targets. DiPIUS is thus a powerful tool for unbiased and comprehensive screening for substrates of ubiquitin ligases