Litcius/Paper detail

Overexpression of the peroxidase gene ZmPRX1 increases maize seedling drought tolerance by promoting root development and lignification

Xiuzhen Zhai, Xiaocui Yan, Tinashe Zenda, Nan Wang, Anyi Dong, Qian Yang, Yuan Zhong, Yue Xing, Huijun Duan

2024The Crop Journal43 citationsDOIOpen Access PDF

Abstract

Drought is a main abiotic stress factor hindering plant growth, development, and crop productivity. Therefore, it is crucial to understand the mechanisms by which plants cope with drought stress. Here, the function of the maize peroxidase gene ZmPRX1 in drought stress tolerance was investigated by measurement of its expression in response to drought treatment both in a ZmPRX1 overexpression line and a mutant line. The higher root lignin accumulation and seedling survival rate of the overexpression line than that of the wild type or mutant support a role for ZmPRX1 in maize drought tolerance by regulating root development and lignification. Additionally, yeast one-hybrid, Dule luciferase and ChIP-qPCR assays showed that ZmPRX1 is negatively regulated by a nuclear-localized ZmWRKY86 transcription factor. The gene could potentially be used for breeding of drought-tolerant cultivars.

Topics & Concepts

SeedlingDrought toleranceMutantBiologyAbiotic componentTranscription factorAbiotic stressPeroxidaseGeneArabidopsisLateral rootCultivarBotanyAgronomyCell biologyGeneticsEnzymeBiochemistryPaleontologyPlant Stress Responses and TolerancePlant Gene Expression AnalysisGenetic Mapping and Diversity in Plants and Animals
Overexpression of the peroxidase gene ZmPRX1 increases maize seedling drought tolerance by promoting root development and lignification | Litcius