DSK2-mediated degradation of F-box protein LAO1 and class I TCPs modulates the nitrogen starvation response
Yuanyuan Li, Shuyang Cheng, Xu Jin, Ruoxuan Wu, Yiyi Guo, Dezhi Wu, Jie Dong

TL;DR
This study reveals how plants adapt to nitrogen starvation through a new regulatory network involving the proteins DSK2, LAO1, and class I TCPs.
Contribution
The paper identifies a novel regulatory mechanism involving DSK2-mediated degradation of LAO1 and class I TCPs during nitrogen starvation.
Findings
LAO1 negatively regulates plant fitness during nitrogen starvation and is degraded by DSK2.
Class I TCPs are crucial for plant adaptation to nitrogen starvation and function downstream of LAO1.
DSK2 balances plant responses by degrading both LAO1 and class I TCPs.
Abstract
Plants have evolved intricate strategies to cope with various abiotic stresses. Ubiquitin-mediated protein degradation plays a key role in plant development as well as abiotic stress tolerance. In this study, we identify LAO1, an F-box protein with unknown function, as a negative regulator of plant fitness during nitrogen starvation. DOMINANT SUPPRESSOR OF KAR 2 (DSK2) interacts with and mediates the autophagic degradation of LAO1 protein during nitrogen starvation. The loss of LAO1 improves the fitness of an autophagy-deficient mutant, atg5-1, under nitrogen starvation. Intriguingly, mutations in DSK2 facilitate rather than reduce plant growth after nitrogen starvation. This unexpected effect of DSK2 knockout led us to discover that DSK2 also interacts with and degrades a group of class I TCP transcription factors. Phenotypic observations demonstrate that class I TCPs are crucial for…
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Taxonomy
TopicsAdvanced Data Storage Technologies · Plant nutrient uptake and metabolism · Plant responses to water stress
