Arachis mottle-associated virus, a new polerovirus infecting Pinto peanut.

A new polerovirus, named "arachis mottle-associated virus" (ArMoV), was identified by high-throughput sequencing in a Pinto peanut (Arachis pintoi) plant. The genome sequence was confirmed by Sanger sequencing and contains 5775 nucleotides and seven predicted open reading frames (ORFs), showing a typical polerovirus genome structure. All of the proteins encoded by ArMoV showed less than 90% amino acid sequence identity to those of other poleroviruses, the threshold to establish a new species in the genus.

First report of Moroccan watermelon mosaic virus in pumpkin plants in Brazil.

Cucurbita moschata is widely cultivated in Brazil, and zucchini lethal chlorosis virus, squash mosaic virus, papaya ringspot virus, watermelon mosaic virus have been reported as viral pathogens in this crop in Brazil. The leaf samples of C. moschata showing mosaic, blistering, and yellowing symptoms were collected from a commercial field in Petrolina, Pernambuco state and a commercial field in Juazeiro, Bahia state, in February 2023.

Practical use of tobravirus-based vector to produce SARS-CoV-2 antigens in plants.

A plant-based heterologous expression system is an attractive option for recombinant protein production because it is based on a eukaryotic system of high feasibility, and low biological risks. Frequently, binary vector systems are used for transient gene-expression in plants. However, plant virus vector-based systems offer advantages for higher protein yields due to their self-replicating machinery.

Complete genome sequence of mimosa mosaic virus, a new sobemovirus infecting Mimosa sensitiva L.

A new sobemovirus, which we have named "mimosa mosaic virus" (MimMV), was found by high-throughput sequencing and isolated from a mimosa (Mimosa sensitiva L.) plant. The genome sequence was confirmed by Sanger sequencing and comprises 4595 nucleotides.

Complete genome sequence of patchouli chlorosis-associated cytorhabdovirus, a new cytorhabdovirus infecting patchouli plants in Brazil.

A cytorhabdovirus, tentatively named "patchouli chlorosis-associated cytorhabdovirus" (PCaCV), was identified in a patchouli plant, using high-throughput sequencing, and its genome sequence was confirmed by Sanger sequencing. The PCaCV genome consists of 12,913 nucleotides and contains six open reading frames in the order 3'-N-P'-P-P3-M-(G)-L-5'. The glycoprotein gene was found to contain stop codons in the coding frame; hence, this gene is considered defective.