Phytoglobin Scavenging of Nitric Oxide Is Associated With Ethylene Reduction and Drought Tolerance in Oat (Avena sativa)
Gracia Montilla‐Bascon, Simona M. Cristescu, Luis A. J. Mur, Elena Prats

TL;DR
This study shows that phytoglobins help oat plants tolerate drought by reducing harmful nitric oxide levels.
Contribution
The study reveals a novel role of phytoglobin in modulating nitric oxide and ethylene to improve drought tolerance in oat.
Findings
Resistant oat cultivar Patones shows increased Pgb gene expression and reduced nitric oxide levels under drought.
Susceptible oat cultivar Flega exhibits elevated nitric oxide and ethylene, leading to increased senescence.
Phytoglobin expression correlates negatively with drought symptoms across multiple oat genotypes.
Abstract
Drought stress significantly impacts crop productivity and plant physiology. Nitric oxide (NO) signalling is essential for drought tolerance. This study explores the relationship between in vivo NO levels, mediated by NO scavenging phytoglobin (encoded by Pgb, non‐symbiosis associated hemoglobin), and drought tolerance in oat ( Avena sativa ). Real‐time in vivo NO measurements suggested increased production under moderate to high water stress in the susceptible cultivar Flega compared to the resistant Patones. This elevated NO correlated with increased senescence in Flega. Conversely, the resistant cultivar Patones showed a marked increase in Pgb gene expression, which correlated with reduced NO levels in vivo. This suggested that Pgb acts as a protective mechanism against NO‐induced stress. Water stress‐induced NO increases fed into the polyamine pathway, leading to a significant rise…
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Taxonomy
TopicsPlant responses to water stress · Crop Yield and Soil Fertility · Soybean genetics and cultivation
