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Molecular mechanisms underlying phytochrome-controlled morphogenesis in plants
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Molecular mechanisms underlying phytochrome-controlled morphogenesis in plants
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Journal Article
Molecular mechanisms underlying phytochrome-controlled morphogenesis in plants
2019
Overview
Phytochromes are bilin-binding photosensory receptors which control development over a broad range of environmental conditions and throughout the whole plant life cycle. Light-induced conformational changes enable phytochromes to interact with signaling partners, in particular transcription factors or proteins that regulate them, resulting in large-scale transcriptional reprograming. Phytochromes also regulate promoter usage, mRNA splicing and translation through less defined routes. In this review we summarize our current understanding of plant phytochrome signaling, emphasizing recent work performed in Arabidopsis. We compare and contrast phytochrome responses and signaling mechanisms among land plants and highlight open questions in phytochrome research.
Perception of red and far-red light by photosensory phytochromes regulates plant development and adaptive responses to light. Here, Legris et al. review current models of phytochrome function connecting light-induced conformational changes to physiological outputs and highlight open questions for future research.
Publisher
Nature Publishing Group UK,Nature Publishing Group,Nature Portfolio
Subject
/ 14/19
/ 38
/ 38/15
/ 38/39
/ 96/95
/ Active Transport, Cell Nucleus - radiation effects
/ Arabidopsis - growth & development
/ Arabidopsis Proteins - chemistry
/ Arabidopsis Proteins - genetics
/ Arabidopsis Proteins - metabolism
/ Cell Nucleus - radiation effects
/ Humanities and Social Sciences
/ Light
/ Protein Conformation - radiation effects
/ Protein Multimerization - radiation effects
/ Review
/ Science
/ Signal Transduction - genetics
/ Splicing
