Ubiquitylation activates a peptidase that promotes cleavage and destabilization of its activating E3 ligases and diverse growth regulatory proteins to limit cell proliferation in Arabidopsis
Copyright policy )Ubiquitylation activates a peptidase that promotes cleavage and destabilization of its activating E3 ligases and diverse growth regulatory proteins to limit cell proliferation in Arabidopsis
ABSTRACT The characteristic shapes and sizes of organs are established by cell proliferation patterns and final cell sizes, but the underlying molecular mechanisms coordinating these are poorly understood. Here we characterize a ubiquitin-activated peptidase called DA1 that limits the duration of cell proliferation during organ growth in Arabidopsis thaliana . The peptidase is activated by two RING E3 ligases, BB and DA2, which are subsequently cleaved by the activated peptidase and destabilized. In the case of BB, cleavage leads to destabilization by the RING E3 ligase PRT1 of the N-end rule pathway. DA1 peptidase activity also cleaves the de-ubiquitylase UBP15, which promotes cell proliferation, and the transcription factors TCP15 and TCP22, which promote cell proliferation proliferation and repress endoreduplication. We propose that DA1 peptidase activity regulates the duration of cell proliferation and the transition to endoreduplication and differentiation during organ formation in plants by coordinating the destabilization of regulatory proteins.
- Chinese Academy of Sciences
- Ghent University Belgium
- John Innes Centre United Kingdom
- Institute of Genetics and Developmental Biology China (People's Republic of)
- State Key Laboratory of Plant Cell and Chromosome Engineering China (People's Republic of)
N-end rule-mediated degradation, Ubiquitin-Protein Ligases, Arabidopsis, GENE FAMILY, DA1, END RULE PATHWAY, UBIQUITIN-BINDING PROTEINS, CYCLE, ubiquitylation, Cell Proliferation, THALIANA, ORGAN SIZE, Arabidopsis Proteins, Protein Stability, Ubiquitination, Biology and Life Sciences, organ size, LIM Domain Proteins, ubiquitin-activated peptidase, LEAF DEVELOPMENT, BIG BROTHER, Enzyme Activation, COUPLED MONOUBIQUITINATION, Research Paper
N-end rule-mediated degradation, Ubiquitin-Protein Ligases, Arabidopsis, GENE FAMILY, DA1, END RULE PATHWAY, UBIQUITIN-BINDING PROTEINS, CYCLE, ubiquitylation, Cell Proliferation, THALIANA, ORGAN SIZE, Arabidopsis Proteins, Protein Stability, Ubiquitination, Biology and Life Sciences, organ size, LIM Domain Proteins, ubiquitin-activated peptidase, LEAF DEVELOPMENT, BIG BROTHER, Enzyme Activation, COUPLED MONOUBIQUITINATION, Research Paper
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