RNAi-Based Antiviral Innate Immunity in Plants.

Multiple antiviral immunities were developed to defend against viral infection in hosts. RNA interference (RNAi)-based antiviral innate immunity is evolutionarily conserved in eukaryotes and plays a vital role against all types of viruses. During the arms race between the host and virus, many viruses evolve viral suppressors of RNA silencing (VSRs) to inhibit antiviral innate immunity. Here, we reviewed the mechanism at different stages in RNAi-based antiviral innate immunity in plants and the counteractions of various VSRs, mainly upon infection of RNA viruses in model plant Arabidopsis. Some critical challenges in the field were also proposed, and we think that further elucidating conserved antiviral innate immunity may convey a broad spectrum of antiviral strategies to prevent viral diseases in the future.

Genome-wide identification and analysis of NPR family genes in Brassica juncea var. tumida.

Nonexpressor of pathogenesis-related (NPR) genes are bona fide transcription cofactors in the signal transduction pathway of salicylic acid (SA) and play critical regulatory roles in plant immunity. However, the NPR family genes in Brassica juncea var. tumida have not yet been comprehensively identified and analyzed as of yet. In the present study, NPR genes in B. juncea var. tumida seedlings were identified, and the tissue-specific expression patterns of NPR genes in the seedling were analyzed under salt stress (200 mM) treatment and infection by Plasmodiophora brassicae. A total of 19 NPR family genes clustering into six separate groups were identified in the genome of B. juncea var. tumida. These BjuNPR family genes were located in 11 of 18 chromosomes of B. juncea var. tumida and each possessed 1-5 exons. The BjuNPR family members had similar protein structures and conserved motifs. The BjuNPR genes exhibited tissue-specific expression patterns in the root, stem, leaf, flower and pod. Some BjuNPR genes were sensitive to salt stress and showed up-regulated or down-regulated expression patterns and most BjuNPR genes were up-regulated upon infection by P. brassicae. This study provides a foundation for further research into BjuNPR genes regulation in plant growth, development, and abiotic stress tolerance.

Genome-Wide Analysis of Auxin Receptor Family Genes in Brassica juncea var. tumida.

Transport inhibitor response 1/auxin signaling f-box proteins (TIR1/AFBs) play important roles in the process of plant growth and development as auxin receptors. To date, no information has been available about the characteristics of the TIR1/AFB gene family in Brassica juncea var. tumida. In this study, 18 TIR1/AFB genes were identified and could be clustered into six groups. The genes are located in 11 of 18 chromosomes in the genome of B. juncea var. tumida, and similar gene structures are found for each of those genes. Several cis-elements related to plant response to phytohormones, biotic stresses, and abiotic stresses are found in the promoter of BjuTIR1/AFB genes. The results of qPCR analysis show that most genes have differential patterns of expression among six tissues, with the expression levels of some of the genes repressed by salt stress treatment. Some of the genes are also responsive to pathogen Plasmodiophora brassicae treatment. This study provides valuable information for further studies as to the role of BjuTIR1/AFB genes in the regulation of plant growth, development, and response to abiotic stress.