Maize Kernel-Associated Metagenomes Reveal Potential Microbe–Microbe Interactions that Underlie Fusarium Ear Rot Disease

Abstract: As an alternative to host resistance, transgenic expression of entomocidal and antimicrobial proteins from Bacillus thuringiensis (Bt) in maize can mitigate Fusarium ear rot (FER). This study evaluates FER in Bt and conventional maize; and the role of microbes in the kernel-associated metagenome using quantitative reduced representation sequencing (qRRS). Our results revealed significant differences in FER severity across environments and varieties, and between inoculation treatments. The lower FER scores of c… Show more

“…A genome-wide examination of soybean chitinases identified GmChi01, GmChi02, and GmChi16, whose defense contributions were verified against Fusarium oxysporum in Arabidopsis transgenic lines, with GmChi02 and GmChi16 enhancing defense against F. oxysporum , whereas GmChi02 was significantly induced by Burkholderia ambifaria (Chen et al, 2024 ). Furthermore, transgenic expression of entomocidal and antimicrobial proteins from Bacillus thuringiensis (Bt) in maize is an alternative to host resistance against Fusarium ear rot (FER), and the recruitment of beneficial microbes is dependent on the genetic background of the host, highlighting the importance of microbe-microbe interactions in modulating FER severity (Adams et al, 2024 ).…”

Omics approaches in understanding the benefits of plant-microbe interactions

“…A genome-wide examination of soybean chitinases identified GmChi01, GmChi02, and GmChi16, whose defense contributions were verified against Fusarium oxysporum in Arabidopsis transgenic lines, with GmChi02 and GmChi16 enhancing defense against F. oxysporum , whereas GmChi02 was significantly induced by Burkholderia ambifaria (Chen et al, 2024 ). Furthermore, transgenic expression of entomocidal and antimicrobial proteins from Bacillus thuringiensis (Bt) in maize is an alternative to host resistance against Fusarium ear rot (FER), and the recruitment of beneficial microbes is dependent on the genetic background of the host, highlighting the importance of microbe-microbe interactions in modulating FER severity (Adams et al, 2024 ).…”

Omics approaches in understanding the benefits of plant-microbe interactions