Sirex noctilio infestation led to inevitable pine death despite activating pathways involved in tolerance

Riquelme, Sebastian; Campos, Jasna, V; Pecio, Lukasz; Alzamora, Rosa; Mardones, Claudia; Simonet, Ana M.; Arteaga-Perez, Luis E.; Rubilar, Rafael; Fiehn, Oliver; Perez, Andy J.

Abstract

Defense-related metabolome traits in pine species after infestation by Sirex noctilio are largely unknown, despite, in most cases, trees being overwhelmed. Using LC-MS-based untargeted metabolomics, we revealed the systemic metabolic changes induced by this insect in 14-year-old Pinus radiata trees, the most affected species worldwide. An immediate metabolome alteration was expressed in needles after infestation, including the up-regulation of flavonols, flavan-3-ols, oxyneolignans, auxins, proline, and tryptophan, among others. The flavan-3-ols (catechin and procyanidin B1) suggested a rapidly induced photoprotection mechanism aided by diverting proline as an alternative substrate for respiration to compensate for the progressive chlorosis that degrades photosystems. Meanwhile, glutathione, glutamate, and ascorbate levels significantly dropped in needles, which may indicate the critical oxidative stress that trees had to face since the onset of the infestation. They were not fully replenished after long-term infestation, and redox homeostasis was probably not achieved, compromising tree survival. Nevertheless, a huge auxins overexpression detected in needles throughout the infestation may reflect tolerance against the premature senescence caused by the woodwasp venom. In contrast, the metabolome of wood tissues remained initially unchanged, although it seems to collapse after three months. Overall, the metabolomics strategy adopted in this work evidenced its usefulness in uncovering the fundamental roles of plants' chemical defense that govern interactions with specific stressors.

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Título según WOS: Sirex noctilio infestation led to inevitable pine death despite activating pathways involved in tolerance
Título de la Revista: PHYTOCHEMISTRY
Volumen: 203
Editorial: PERGAMON-ELSEVIER SCIENCE LTD
Fecha de publicación: 2022
DOI:

10.1016/j.phytochem.2022.113350

Notas: ISI