AI Article Synopsis
- Plant cells transform etioplasts into chloroplasts when exposed to light, marking a shift to photosynthesis.
- This process involves significant changes in the structure of plastids and requires adjustments in metabolism and gene expression.
- A new study using tobacco plants examines this transformation, documenting the changes in photosynthetic components and genes, and identifying potential genes linked to chloroplast development.
Article Abstract
Upon exposure to light, plant cells quickly acquire photosynthetic competence by converting pale etioplasts into green chloroplasts. This developmental transition involves the de novo biogenesis of the thylakoid system and requires reprogramming of metabolism and gene expression. Etioplast-to-chloroplast differentiation involves massive changes in plastid ultrastructure, but how these changes are connected to specific changes in physiology, metabolism, and expression of the plastid and nuclear genomes is poorly understood. Here, we describe a new experimental system in the dicotyledonous model plant tobacco () that allows us to study the leaf deetiolation process at the systems level. We have determined the accumulation kinetics of photosynthetic complexes, pigments, lipids, and soluble metabolites and recorded the dynamic changes in plastid ultrastructure and in the nuclear and plastid transcriptomes. Our data describe the greening process at high temporal resolution, resolve distinct genetic and metabolic phases during deetiolation, and reveal numerous candidate genes that may be involved in light-induced chloroplast development and thylakoid biogenesis.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC6501100 | PMC |
| http://dx.doi.org/10.1104/pp.18.01432 | DOI Listing |
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