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Photosystem I (PSI) is one of two large pigment–protein complexes responsible for converting solar energy into chemical energy. This study reveals the previously unknown major PSI assembly pathway in land plants.
The plant DNA damage response ensures genomic stability by controlling interconnected networks of DNA repair and cell division proteins. Decoding these networks offers potential solutions to the challenges of climate-related stress and food security.
Two studies report the use of paternal haploids to enable one-step transfer of cytoplasmic male sterility in maize and broccoli, which resolves a key technical bottleneck in hybrid crop breeding.
An efficient method of cyto-swapping by haploid induction using a CENH3 mutation is reported in maize, to convert commercial germplasm to cytoplasmic male sterility for hybrid seed production.
Han et al. develop BoCENH3 mutants which trigger paternal haploid induction in Brassica oleracea. On the basis of this haploid inducer line, a workable system is proposed for transferring cytoplasmic male sterility to broccoli inbred lines.
In this Perspective, Finger and Möhring discuss the emergence of pesticide-free crop production systems in Europe in the context of real-world examples and highlight the barriers to adoption of this cropping strategy.
The authors show that RALF22 has a dual role in cell wall assembly in root hairs: as a structural component organizing cell wall architecture and as a feedback signalling molecule that regulates this process depending on its interaction partners.
Timber harvest claims can be scrutinized based on a combination of wood chemical composition and species distribution. The location of timber harvest can be determined within 180 to 230 km of true location across Eastern Europe.
This study reports that in European beech masting, the summer solstice serves as a celestial trigger that enables cohesive timekeeping across distant beech populations, allowing seed production to be synchronized at a subcontinental scale.
Cell edges are part of a coordinate system used by the cell to direct three-dimensional growth in an organized manner. They emerge as signalling hubs with unique composition, capable of sensing mechanical stresses derived from neighbouring cells, to negotiate and harmonize individual cellular growth rates, therefore avoiding mechanical conflict.
How do multicellular organisms integrate cell- and tissue-scale mechanical information to coordinate growth? Elliott et al. show that plant cells establish a self-regulating cell-wall-sensing module at their one-dimensional cell edges to control three-dimensional growth.
In response to abscisic acid, the m6A reader ECT8 undergoes phase separation to form cytoplasmic condensates and sequesters m6A-modified abscisic acid receptor PYL7 mRNA in stress granules, which suppresses PYL7 translation for feedback regulation of abscisic acid perception.
The ATP-dependent chromatin remodeller DDM1 has a vital role in plant DNA methylation, influencing gene silencing and suppression of transposable elements. The structure of DDM1 in complex with nucleosome in different states of the ATP hydrolysis process reveals the molecular mechanism underlying chromatin remodelling by DDM1.
This study explores the evolution of two traits, branching density and spine presence, in the globally distributed plant family Combretaceae. These traits were found to have appeared in a two-step process in response to mammalian herbivory pressure, revealing the importance of large mammals in the evolution of plant architecture diversity.
Glandular trichomes on plant leaves and stems synthesize and store specialized compounds. We identified a novel lignin-based structure (which we named the neck strip) required for storage of compounds in cucumber glandular trichomes and demonstrated the mechanism of specialized compound accumulation in glandular trichomes.
Cryogenic electron microscopy structures of DDM1–nucleosome complexes in ADP–BeFx-bound, ADP-bound and nucleotide-free conformations reveal insights into the mechanism underlying chromatin remodelling by DDM1, a key chromatin remodeller involved in plant DNA methylation.
Plants regulate their microbiota to cope with diverse stresses. A recent study shows that rice maintains homeostasis of its phyllosphere microbiome through a secondary metabolite biosynthetic gene, which offers potential for harnessing microbiome-shaping genes in disease-resistance breeding.
