Genetius

The study identifies the cysteine‑rich receptor‑like kinase CRK5 as a negative regulator of salicylic‑acid‑mediated cell death and a positive regulator of antioxidant homeostasis during dark‑induced leaf senescence in Arabidopsis. Loss‑of‑function crk5 mutants display accelerated senescence, elevated ROS and electrolyte leakage, and altered antioxidant enzyme activities, phenotypes that are rescued by suppressing SA biosynthesis or catabolism. Transcriptome analysis reveals extensive deregulation of senescence‑ and redox‑related genes, highlighting CRK5’s central role in coordinating hormonal and oxidative pathways.

The study demonstrates that FERONIA and phytochrome B physically interact with the NADPH oxidase RBOHD, and that FERONIA-mediated phosphorylation of phyB is essential for RBOHD-driven ROS production under excess light stress in Arabidopsis thaliana. Additional membrane proteins CRK10 and PIP2;6 also associate with this complex, forming a plasma‑membrane assembly that integrates multiple signaling pathways to regulate stress‑induced ROS.

The study identifies wound‑induced proline transporters ProT2 and ProT3 as central regulators that link salicylic acid signaling to the suppression of de novo root regeneration (DNRR) via modulation of reactive oxygen species dynamics. Genetic loss of these transporters or pharmacological inhibition of proline transport alleviates SA‑mediated regeneration inhibition across several plant species without compromising disease resistance.

The study examined how Arabidopsis calcium‑dependent protein kinases AtCPK5 and AtCPK6 modulate immunity triggered by bacterial rhamnolipids, finding that RLs up‑regulate these kinases and that mutants, especially cpk5/6, show altered reactive oxygen species production and defense gene expression. However, these kinases did not influence RL‑induced electrolyte leakage or resistance to Pseudomonas syringae pv. tomato DC3000, indicating additional signaling components are involved.

Using a microfluidic valve rootchip, the study simultaneously tracked ROS and calcium dynamics in compressed roots and found three kinetic phases linking mechanosensitive channel activity, NADPH oxidase‑dependent ROS accumulation, and secondary calcium influx. Pharmacological inhibition revealed that a fast calcium response is mediated by plasma‑membrane mechanosensitive channels, while a slower calcium increase is driven by ROS production.

A comparative phosphoproteomics study using Arabidopsis thaliana ahk5 loss‑of‑function mutants and wild‑type seedlings revealed that the histidine kinase AHK5 mediates a rapid shift from multistep phosphorelay signaling to serine/threonine phosphorylation in response to H2O2. AHK5 controls ROS‑responsive phosphorylation of plasma‑membrane nanodomain proteins and orchestrates distinct ABA‑independent stomatal closure and ABA‑dependent root development pathways by modulating key components such as RBOHD, CAS, HPCA1, and auxin transporters.

The study investigates how auxin signaling influences aluminium tolerance in tomato by comparing mutants with reduced (dgt) and increased (entire) auxin sensitivity. Reduced auxin sensitivity leads to lower Al tolerance, higher ROS accumulation, and pronounced metabolic changes, whereas increased sensitivity maintains meristem activity, lower ROS, and minimal metabolic disruption, suggesting auxin pathway manipulation can enhance crop Al tolerance.

The study evaluated the genetically encoded redox biosensor roGFP2-Orp1 for monitoring extracellular redox dynamics in diverse land plants, revealing that re‑oxidation rates in the apoplast differ between Physcomitrium patens and Arabidopsis thaliana and are accelerated by immune activation. Comparisons across tip‑growing cells showed no intracellular redox gradient but a partially reduced extracellular sensor in Nicotiana tabacum pollen tubes, indicating species‑ and cell‑type‑specific oxidative processes.

The study examined five sequential reproductive organ abscission events in two cherry species, revealing that calyx abscission zones form de novo while others are pre‑formed and reactivated by localized ethylene signaling, leading to cell division, differentiation, and lignin deposition. Species‑specific patterns were observed, with P. yedoensis shedding petals independently of pollination and P. sargentii retaining them, and both species using fruit pedicel abscission as a post‑fertilization checkpoint to cull small fruits, indicating a hierarchical reproductive filter.

The study reconstitutes Papaver rhoeas self‑incompatibility in Arabidopsis thaliana by expressing the pollen S‑determinant PrpS and shows that incompatibility rapidly triggers a Ca2+ and pH‑dependent cascade leading to mitochondrial hydrogen peroxide production, membrane depolarization, reduced respiration, ATP depletion, and glycolytic inhibition via GAPDH oxidation. Early inactivation of plasma‑membrane NADPH oxidase limits superoxide generation, indicating distinct ROS sources drive separate aspects of the response before programmed cell death.