Publications by authors named "Chelsea A Rundle"
Targeted protein degradation is an important and pervasive regulatory mechanism in plants, required for perception and response to the environment as well as developmental signaling. Despite the significance of this process, relatively few studies have assessed plant protein turnover in a quantitative fashion. Tandem fluorescent protein timers (tFTs) offer a powerful approach for the assessment of in vivo protein turnover in distinct subcellular compartments of single or multiple cells.
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- The Arg/N-end rule pathway influences plant development, especially in transforming dormant seeds into photosynthesizing seedlings, by regulating protein degradation.
- PRT6, an N-recognin E3 ligase, degrades certain transcription factors (ERFVIIs) that control sugar sensitivity and oil body breakdown in seedlings.
- The study suggests that the Arg/N-end rule pathway operates through both ABA-dependent and independent mechanisms, highlighting its role in multiple processes during the seed-to-seedling transition.
Detection of potentially pathogenic microbes through recognition by plants and animals of both physical and chemical signals associated with the pathogens is vital for host well-being. Signal perception leads to the induction of a variety of responses that augment pre-existing, constitutive defences. The plant cell wall is a highly effective preformed barrier which becomes locally reinforced at the infection site through delivery of new wall material by the actin cytoskeleton.
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