2016年9月22日，国际著名学术杂志《PLOS Biology》上在线发表浙江大学彭动物科学学院教授金荣实验室的最新学术成果，题为“Phosphorylation of Def Regulates Nucleolar p53 Turnover and Cell Cycle Progression through Def Recruitment of Calpain3”。

p53 protein turnover through the ubiquitination pathway is a vital mechanism in the regulation of its transcriptional activity; however, little is known about p53 turnover through ...

Alternative splicing (AS) is a major contributor to transcriptome and proteome diversity. Evolutionary studies help to address questions that are fundamental to understanding this important process.