AUTHOR=López-Castillo L. Margarita , González-Leyzaola Alán , Diaz-Flores-Rivera M. Fernanda , Winkler Robert , Wielsch Natalie , García-Lara Silverio 

TITLE=Modulation of Aleurone Peroxidases in Kernels of Insect-Resistant Maize (Zea mays L.; Pob84-C3R) After Mechanical and Insect Damage

JOURNAL=Frontiers in Plant Science

VOLUME=11

YEAR=2020

URL=https://www.frontiersin.org/journals/plant-science/articles/10.3389/fpls.2020.00781

DOI=10.3389/fpls.2020.00781

ISSN=1664-462X

ABSTRACT=<p>Peroxidases (PODs) have many biological functions during the plant life cycle. In maize kernels, endosperm PODs have been identified as biochemical contributors to resistance against <italic>Sitophilus zeamais</italic>, but their identities have not been determined. In this study, we identified these PODs and determined whether their contributions are basal or inducible. Semi-purification and LC-MS/MS analyses showed that the protein ZmPrx35 is the predominant soluble endosperm POD from kernels of Pob84-C3R. Subsequent time-course analyses after mechanical damage showed that POD activity was regulated in a fluctuating kinetics pattern and that <italic>zmprx35</italic> mRNA expression levels reflected this pattern. After 48 h of infestation with <italic>S. zeamais</italic> or <italic>Prostephanus truncatus</italic>, soluble endosperm POD activities were 1.38- or 0.85-fold, respectively. Under the same conditions, <italic>zmprx35</italic> expression was induced 1.61-fold (<italic>S. zeamais</italic> infestation) and 1.17-fold (<italic>P. truncatus</italic> infestation). These findings suggest that ZmPrx35 contributes to the protective responses of aleurone cells against wounding and pest attacks, which could be enhanced/repressed by insect factors. Our data also provide evidence that the mechanisms of resistance of maize Pob84-C3R kernels toward the insect pests <italic>S. zeamais</italic> and <italic>P. truncatus</italic> are independent.</p>