Expression of defense responsive genes in tripartite interaction of cucumber mosaic virus and plant growth promoting rhizobacteria in ridge gourd (Luffa acutangula (L.) Roxb)

Abstract

The mosaic caused by cucumber mosaic virus (CMV) on ridge gourd (Luffa acutangula (L.) Roxb) is an important disease. An attempt was made to use a consortium of plant growth promoting rhizobacteria to manage the disease with an aim to reduce the usage of pesticide to control its vector. Eleven isolates of Bacillus spp. were selected based on their plant gowth promotion ability on ridge gourd cv. COH1. Among these, Bacillus pumilus (BSC 4), B. subtilis (Bbv 57) and B. subtilis (BST 8) had shown their potentiality in reducing the severity of CMV disease under artificial conditions. The compatibility test showed that these isolates were compatible to each other. A Bacillus consortium was prepared and evaluated for its efficacy against CMV on ridge gourd and the results showed a reduction of 49.98 % in disease severity over control. The quantitative gene expression analysis revealed that the defense genes viz., peroxidase, polyphenol oxidase, catalase and super oxide dismutase were upregulated in consortium treated ridge gourd plants. The upregulation of these genes indicated the activation of defense pathways which witnessed the induction of systemic resistance in Bacillus consortium treated plants. All gene expressions were reached its peak nearly two to three fold in the consortium treated plants except catalase, its peak expression was found in salicylic acid treated plants which served as a positive control. Correspondingly, the quantitative enzymatic analysis of these defense enzymes at different time intervals was also reflected in similar manner. The elevated level of defense enzymes in plant growth promoting rhizobacteria consortium treated plants was the evident for the onset of systemic resistance.