Genetius

The study evaluated plasma-activated water (PAW) as an alternative nitrogen fertilizer by comparing its effects on the rhizosphere microbial communities of Arabidopsis thaliana and Solanum lycopersicum to those of equivalent nitrate solutions. While alpha diversity remained unchanged after five weeks, beta diversity showed significant shifts without apparent functional differences, indicating that PAW does not adversely affect rhizosphere microbiomes under the tested conditions. These findings support the potential use of PAW as a sustainable N-fertilizer, pending further investigation of ROS-containing formulations.

The study introduces an enhanced crosslinking mass spectrometry workflow that preserves native protein interactions within functional thylakoid membranes of Arabidopsis and spinach, while electron transport remains active. Mapping the obtained crosslinks to known structures validates complex integrity and reveals novel assemblies, facilitating in situ exploration of photosynthetic membrane protein networks.

The study demonstrates that ethylene signaling contributes to host resistance against the root parasitic plant Phelipanche aegyptiaca, as both water stress and parasitism activate ethylene responses in Arabidopsis roots. Application of the ethylene precursor ACC reduced parasite attachment, and mutants in ethylene signaling components (ETR1, CTR1) showed altered tolerance, highlighting ethylene-mediated defenses as a potential strategy for crop protection.

The study investigates how volatile organic compounds (VOCs) emitted by the fungi Laccaria bicolor, Hebeloma cylindrosporum, and Serendipita indica affect root architecture and meristem regulation in Arabidopsis thaliana and Populus tremuloides. Results show that these fungal VOCs alter root morphology in both species and modulate the expression of the stem‑cell regulator WOX5, highlighting a role for VOC‑mediated signaling in maintaining root meristem homeostasis.

The study visualizes subcellular dynamics following activation of the NRC4 resistosome, showing that NRC4 enrichment at the plasma membrane triggers calcium influx, followed by sequential disruption of mitochondria, plastids, endoplasmic reticulum, and cytoskeleton, culminating in plasma membrane rupture and cell death. These observations define a temporally ordered cascade of organelle and membrane events that execute plant immune cell death.

The study finely dissected shoot stem cell–enriched tissues from maize and Arabidopsis thaliana and optimized single‑cell RNA‑seq protocols to reliably capture CLAVATA3 and WUSCHEL‑expressing cells. Cross‑species comparison and functional validation, including spatial transcriptomics and mutant analyses, revealed conserved ribosome‑associated RNA‑binding proteins and sugar‑kinase families as key regulators linked to shoot development and yield traits.

The study engineered autoluminescent reporter constructs that visually indicate jasmonic and salicylic acid signaling with up to 53‑fold contrast. Using consumer‑grade cameras, the authors monitored hormone activity in Arabidopsis thaliana and Nicotiana benthamiana throughout development and during pest and pathogen attacks.

The study developed a validated LC‑MS/MS method to simultaneously quantify fourteen polyamines, amino acids, and ethylene precursors in Arabidopsis thaliana and Solanum lycopersicum, and used it to compare their metabolic responses to drought, salinity, and inhibitor treatments. Distinct species‑specific metabolic adjustments were observed, with Arabidopsis showing greater fluctuations and drought generally increasing metabolite levels, while spermine exhibited stress‑specific patterns.