A new blunervirus infects tomato crops in Italy and Australia.

In this study, we determined the complete genome sequence of a new blunervirus isolated from tomato plants grown in an open field in Italy in the fall of 2018. Like other blunerviruses, the RNA genome of this virus is quadripartite, positive-sense, and single-stranded. Excluding the polyA tail present in each segment, the RNAs 1 and 2 are 5790 nucleotides (nt) and 3621 nt in size, respectively, and each contains a single open reading frame (ORF). The RNAs 3 and 4 are 2842 and 1924 nt long and encode five and two ORFs, respectively. BLASTp analysis of the predicted products of RNA1 and RNA2 ORF1 showed the highest sequence identity (31% and 42%) to tea plant necrotic ring blotch virus (TPNRBV), while the protein encoded by RNA 4 ORF2 had the highest sequence identity (38%) to blueberry necrotic ring blotch virus (BNRBV). These are the only two recognized members in the genus Blunervirus. When the RNA3 ORF3 and ORF5 products were compared with the blunerviruses-encoded proteins, they had the highest sequence identity (30% and 32%) to their TPNRBV-encoded homologs; however, general comparisons showed stronger matches to two different proteins from Acinetobacter baumannii. The proteins encoded by ORFs 1, 2 and 4 of RNA3 and ORF 1 of RNA4 showed no significant BLASTp hits to any known proteins in the databases. Given the limited genetic similarity of this virus to those currently available in the databases, we suggest that this is a new virus, for which we propose the name "tomato fruit blotch virus" (ToFBV). A distinct isolate of the same virus was also detected in Australia.

First Report of Pepper chat fruit viroid in Traded Tomato Seed, an Interception by Australian Biosecurity.

Pepper chat fruit viroid (PCFVd), a species of Pospiviroid, was first discovered in a capsicum crop in the Netherlands in 2006 (4) and was then reported only in Thailand (2) and Canada. The mechanism of international spread was not known, but movement with traded seed was suspected. PCFVd is transmissible through capsicum seed (4) and very probably through tomato seed, like other pospiviroids. The viroid causes disease in capsicum and tomato and experiments by others indicate a capacity to cause disease in potato. It poses a biosecurity threat to crops internationally. PCFVd was intercepted by the Australian Government Department of Agriculture, Fisheries, and Forestry (DAFF) in five shipments of tomato seed (Solanum lycopersicum) exported from Israel and Thailand in September and October 2012. Batches of up to 20,000 seeds were sampled from each seed lot in a shipment and total nucleic acids were extracted from sub-samples, each of about 400 seeds, following a method similar to Hoshino et al. (1). PCFVd was initially detected when reverse transcription PCR using the generic pospiviroid primers Pospi1-FW and Pospi1-RE (3) produced amplicons of 189 bp, which were then sequenced. The PCFVd specific primers AP FW1 and AP RE2 (4) were used to amplify the remainder of the viroid genome, which was directly sequenced. Overlapping sequences were aligned to produce complete sequences of 349 bases, one from seed from Thailand and two from seed from Israel (GenBank: KC762952, KC762953, KC762954). Searches of the GenBank nucleotide non-redundant database indicated close matches with sequences from PCFVd isolates from tomato in Thailand (2); alignments generated by BLAST showed the sequences differed from those from Thailand at only 2 to 18 nucleotide positions, equating to 95 to 99% identity. PCFVd sequences from seed from Thailand were almost identical (>99%) to the sequences from seed from Israel. Many sub-samples were negative, indicating that the number of contaminated seeds was very small in some shipments. The positive sub-samples as a proportion of the total number of sub-samples tested from the five shipments was 1/1, 1/5, 1/1, 12/50, and 7/50. Tomato and capsicum seed are produced in many countries and often traded through second countries. The infected tomato seed shipments intercepted by DAFF were destroyed or re-exported following Australian regulations. Other countries were informed through the International Plant Protection Convention. This pest viroid has not been intercepted by Australian authorities before and has not been detected in recent Australian survey work (data not shown). References: (1) S. Hoshino et al. Res. Bull. Plant Prot. Japan 42:75, 2006. (2) K. Reanwarakorn et al. New Dis. Rep. 24:6, 2011 (3) J. Th. J. Verhoeven et al. EJPP 110:823, 2004. (4) J. Th. J. Verhoeven et al. Virus Res. 144:209, 2009.