Genetic Diversity of Tomato Black Ring Virus Satellite RNAs and Their Impact on Virus Replication

Expanding Possibilities for Foreign Gene Expression by Cucumber Green Mottle Mosaic Virus Genome-Based Bipartite Vector System

Expanding possibilities for foreign gene expression in cucurbits, we present a novel approach utilising a bipartite vector system based on the cucumber green mottle mosaic virus (CGMMV) genome. Traditional full-length CGMMV vectors face limitations such as a restricted cargo capacity and unstable foreign gene expression. To address these challenges, we developed two 'deconstructed' CGMMV genomes, DG-1 and DG-2. DG-1 features a major internal deletion, resulting in the loss of crucial replicase enzyme domains, rendering it incapable of self-replication. However, a staggered infiltration of DG-1 in CGMMV-infected plants enabled successful replication and movement, facilitating gene-silencing experiments. Conversely, DG-2 was engineered to enhance replication rates and provide multiple cloning sites. Although it exhibited higher replication rates, DG-2 remained localised within infiltrated tissue, displaying trans-replication and restricted movement. Notably, DG-2 demonstrated utility in expressing GFP, with a peak expression observed between 6 and 10 days post-infiltration. Overall, our bipartite system represents a significant advancement in functional genomics, offering a robust tool for foreign gene expression in Nicotiana benthamiana.

Development of Stable Infectious cDNA Clones of Tomato Black Ring Virus Tagged with Green Fluorescent Protein

Tomato black ring virus (TBRV) is a member of the Nepovirus genus in the Secoviridae family, which infects a wide range of important crop species worldwide. In this work, we constructed four cDNA infectious clones of the TBRV tagged with the green fluorescent protein (TBRV-GFP), which varied in (i) the length of the sequences flanking the GFP insert, (ii) the position of the GFP insert within the RNA2 polyprotein, and (iii) the addition of a self-cutting 2A protein. The presence of the GFP coding sequence in infected plants was verified by RT-PCR, while the infectivity and stability of the constructs were verified by mechanical inoculation of the host plants. The systemic spread of TBRV-GFP within plants was observed under UV light at a macroscopic level, monitoring GFP-derived fluorescence in leaves, and at a microscopic level using confocal microscopy. The obtained clones are a valuable tool for future studies of TBRV-host interactions, virus biology, and the long-term monitoring of its distribution in infected plants.

Construction and biological characterization of a cDNA infectious clone of wheat umbra-like virus in wheat and Nicotiana benthamiana

Umbravirus-like associated RNAs (ulaRNAs) are a new group of subviral RNAs associated with plants. Little is known about the biology of ulaRNAs. We recently reported wheat umbra-like virus (WULV) from Kansas fields. In this work, we generated a full-length cDNA clone of WULV which systemically infected N. benthamiana. While agroinfiltrated leaves demonstrated severe necrosis, upper leaves were symptomless. We also showed that WULV is capable of infecting wheat in the absence of a helper virus. Furthermore, and through sap inoculation, we demonstrated that WULV is transmissible in the form of free RNA. This is the first report of a mechanically transmissible ulaRNA. Together, these findings contribute to advancing our knowledge of the biology of WULV. Moreover, the construction of the WULV infectious clone provides a valuable research tool for further investigations including the role of WULV in symptom development in interaction with other wheat viruses.