Metabolite Profiling of the Resurrection Grass <i>Eragrostis nindensis</i> During Desiccation and Recovery
2025
Erikan Baluku | Llewelyn van der Pas | Henk W. M. Hilhorst | Jill M. Farrant
Resurrection plants employ unique metabolic mechanisms to protect themselves against damage caused by desiccation. This study aimed to identify metabolites, using gas chromatography–mass spectrometry, which were differentially abundant in <i>Eragrostis nindensis</i> at different stages of dehydration and rehydration in leaves which are destined to senesce on desiccation termed “senescent tissue” (ST) and those which remain desiccation-tolerant during water deficit and are termed “non-senescent tissue” (NST). Furthermore, the study compared the shoot and root systems during extreme water deficit and recovery therefrom to unravel similarities and differences at the whole plant level in overcoming desiccation. Shoot metabolomics data showed differentially abundant metabolites in NST, including raffinose, sucrose, glutamic acid, aspartic acid, proline, alpha-ketoglutaric acid, and allantoin, which act as major drivers for plant desiccation tolerance and aid the plant post-rehydration. The metabolites which accumulated in the ST-indicated initiation of programmed cell death (PCD) leading to senescence. The roots accumulated fewer metabolites than the shoots, some exclusive to the root tissues with functions such as osmoprotection, reactive oxygen species quenching, and signaling, and thus proposed to minimize damage in leaf tissues during dehydration and desiccation. Collectively, this work gives further insight into the whole plant responses of <i>E. nindensis</i> to extreme dehydration conditions and could serve as a model for future improvements of drought sensitive crops.
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