pH-dependent defense responses in eggplant: growth performance and resistance to Verticillium dahliae
Muhammad Awais, Tianqi Wang, Jitong Xu, Xin Bu, Xing Li, Chaoge Yu, Muhammad Sohail Khan, Hongdan Fu, Zhouping Sun

TL;DR
Eggplants grow better and resist a soil fungus more effectively in near-neutral soil pH, thanks to enhanced defense mechanisms.
Contribution
The study reveals how soil pH influences eggplant's defense responses and resistance to Verticillium dahliae at both physiological and molecular levels.
Findings
A soil pH of 6.5 significantly reduces disease severity and promotes robust plant growth in eggplants.
At pH 6.5, defense enzymes and genes like SmeGLU and SmeGPX are upregulated, enhancing resistance to V. dahliae.
Subcellular defense responses, including nuclear accumulation of defense proteins, are stronger at pH 6.5.
Abstract
Eggplant is a globally important vegetable crop, yet its intensive greenhouse cultivation often leads to soil acidification, which exacerbates the incidence of Verticillium wilt. Verticillium dahliae (V. dahliae) is a major soil-borne pathogen that severely reduces eggplant growth, however, the defense responses of eggplant under different pH conditions and the mechanistic basis underlying pH-mediated resistance are still untouched and unclear. Therefore, the physiological and molecular responses of eggplant to V. dahliae inoculation under two soil pH conditions (5.5 and 6.5 VD/CK) was investigated. Soil pH profoundly influences disease severity and plant defense activation. V. dahliae inoculation at pH 5.5 led to a high disease index of 59.67%, significantly stunting plant growth. In contrast, a near-neutral pH of 6.5 promoted robust plant growth even under pathogen challenge. Defense…
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Taxonomy
TopicsPlant-Microbe Interactions and Immunity · Plant Stress Responses and Tolerance · Plant Pathogenic Bacteria Studies
