Host-induced gene silencing of the Verticillium dahliae thiamine transporter protein gene (VdThit) confers resistance to Verticillium wilt in cotton

Abstract

Verticillium wilt (VW), induced by the soil-borne fungus Verticillium dahliae (Vd), poses a substantial threat to a diverse array of plant species. Employing molecular breeding technology for the development of cotton varieties with heightened resistance to VW stands out as one of the most efficacious protective measures. In this investigation, we successfully generated two stable transgenic lines of cotton (Gossypium hirsutum L.) VdThit-RNAi-1 and VdThit-RNAi-2 using host-induced gene silencing (HIGS) technology to introduce double-stranded RNA (dsRNA) targeting the thiamine transporter protein gene (VdThit). Southern blot analysis confirmed the presence of a single-copy insertion in both lines. Microscopic examination disclosed a marked reduction in the colonization and spread of Vd-mCherry in the roots of VdThit-RNAi cotton compared to wild type (WT). Correspondingly, the disease index and fungal biomass of VdThit-RNAi-1/2 exhibited a significant decrease. Real-time quantitative PCR (qRT-PCR) analysis demonstrated a substantial inhibition of VdThit expression following prolonged inoculation of VdThit-RNAi cotton. Small RNA sequencing (sRNA-Seq) analysis further revealed the generation of a substantial number of VdThit-specific siRNAs in the VdThit-RNAi transgenic lines. Additionally, the silencing of VdThit by siVdThit produced by VdThit-RNAi-1/2 resulted in the elevated expression of multiple genes involved in the thiamine biosynthesis pathway in Vd. In field conditions, VdThit-RNAi transgenic cotton exhibited significantly enhanced disease resistance and yield compared with WT. In summary, our findings underscore the efficacy of HIGS targeting VdThit in restraining the infection and spread of Vd in cotton, thereby potentially expediting the development of cotton breeding as a promising strategy.