The complete genome sequence of tomato necrotic ringspot virus in chilli in Thailand derived from next-generation sequencing.

Tomato necrotic ringspot virus (TNRV) was first reported in Thailand in 2011, where it continues to reduce the yield and quality of pepper and tomato crops. Here, we report the complete genome sequence of TNRV isolate chilli-CR derived from next-generation sequencing. The TNRV genome comprises 16,595 nucleotides (nt) on three RNA segments. The L RNA is 8,858 nt, the M RNA is 4,724 nt, and the S RNA is 3,013 nt in length. The genome structure and organization are typical of orthotospoviruses, encoding five proteins, named L, NSm, GNGC, NSs, and N. Pairwise comparison of each genomic RNA segment and its deduced amino acid (aa) sequence showed that TNRV chilli-CR shares 73.6-82.3% nt sequence identity and 81.1-91.9% aa sequence identity with pepper chlorotic spot virus (PCSV). Similar phylogenetic groupings were observed based on each genomic RNA or deduced aa sequence, and with concatenated genomic RNA sequences. The clustering of TNRV and PCSV in all phylogenetic analyses, and the 78.9% overall nt sequence identity observed using the concatenated genomic RNAs suggest that TNRV is a distinct orthotospovirus and that analysis of concatenated orthotospovirus genome sequences will be of value in future phylogenetic studies of this virus group.

Genomic analysis of the brassica pathogen turnip mosaic potyvirus reveals its spread along the former trade routes of the Silk Road.

Plant pathogens have agricultural impacts on a global scale and resolving the timing and route of their spread can aid crop protection and inform control strategies. However, the evolutionary and phylogeographic history of plant pathogens in Eurasia remains largely unknown because of the difficulties in sampling across such a large landmass. Here, we show that turnip mosaic potyvirus (TuMV), a significant pathogen of brassica crops, spread from west to east across Eurasia from about the 17th century CE. We used a Bayesian phylogenetic approach to analyze 579 whole genome sequences and up to 713 partial sequences of TuMV, including 122 previously unknown genome sequences from isolates that we collected over the past five decades. Our phylogeographic and molecular clock analyses showed that TuMV isolates of the Asian-Brassica/Raphanus (BR) and basal-BR groups and world-Brassica3 (B3) subgroup spread from the center of emergence to the rest of Eurasia in relation to the host plants grown in each country. The migration pathways of TuMV have retraced some of the major historical trade arteries in Eurasia, a network that formed the Silk Road, and the regional variation of the virus is partly characterized by different type patterns of recombinants. Our study presents a complex and detailed picture of the timescale and major transmission routes of an important plant pathogen.

Integrating Local Lesion Assays with Conventional RT-PCR for Detection of Interspecies Tospovirus Reassortants and Mixed Tospovirus Infections.

Tomato spotted wilt virus (TSWV) has historically been the major tospovirus present in North America. Recent emergence of Groundnut ringspot virus (GRSV) and Tomato chlorotic spot virus (TCSV) in Florida and the Caribbean has complicated reliable identification of tospoviruses in this region. Field symptoms of these three tospoviruses are indistinguishable in most host plants, and commercially available TSWV lateral-flow immunoassay reagents cross react with GRSV and TCSV, leading to incorrect diagnoses of GRSV or TCSV as TSWV. Reliable diagnosis of TSWV, GRSV, and TCSV is further confounded by the fact that all currently known isolates of GRSV in the United States are reassortants containing one genomic RNA segment derived from TCSV. To address these practical challenges, we developed and validated genome segment-specific primers for conventional reverse-transcription polymerase chain reaction (RT-PCR) detection of the large, medium, and small RNA segments of TSWV, GRSV, and TCSV. When used in conjunction with local lesion-passaged virus isolates, the genome segment-specific RT-PCR assays developed in this study will facilitate high-throughput screening of plant or thrips samples for interspecies reassortants in epidemiological studies and reliable identification of these three tospoviruses in mixed infections commonly observed in the field.

Molecular characterization of tomato-infecting begomoviruses in Thailand.

Bipartite geminiviruses infecting tomatoes in Thailand were detected by polymerase chain reaction (PCR) using CPA5/CPA2 primers. Products derived from PCR-amplified full-length DNA-A and DNA-B of TYLCV collected from Chiang Mai, Nong Khai, and Sakon Nakhon were cloned and sequenced. DNA-A from Chiang Mai was 2747 nts long; Nong Khai, 2744 nts; and Sakon Nakhon, 2747 nts, and those of DNA-B from Chiang Mai were 2750 nts long; Nong Khai, 2749 nts; and Sakon Nakhon, 2749 nts. The genomes of these virus isolates were organized like those of other begomoviruses. The DNA-A had two ORFs in the virion sense and four ORFs in the complementary sense. The DNA-B had two ORFs in the virion sense and one ORF in the complementary sense. Nucleotide sequences of DNA-A of TYLCV from Chiang Mai, Nong Khai, and Sakon Nakhon were closely related to those of Tomato yellow leaf curl Thailand virus (TYLCTHV) and Tomato yellow leaf curl Thailand virus-[Myanmar] (TYLCTHV-[MM]) with nucleotide sequence identity ranging from 89% to 95%. Based on sequence comparisons and phylogenetic analyses, these three virus isolates studied were identified as new strains of TYLCTHV and named Tomato yellow leaf curl Thailand virus-Chiang Mai (TYLCTHV-[CM]The GenBank accession codes for DNA-A of TYLCTHV-[CM], -[NK], and -[SK] are , and , respectively. The GenBank accession codes for DNA-B of TYLCTHV-[CM], -[NK], and -[SK] are , , and , respectively.), Nong Khai (TYLCTHV-[NK] and Sakon Nakhon (TYLCTHV-[SK]).

Biological and molecular characterization of tospoviruses in Thailand.

Twenty-eight isolates of tospoviruses associated with tomato, pepper, cucurbits, peanut, and Physalis plants collected from fields in different regions of Thailand were characterized. On the basis of N gene and protein sequence relationships, three tospoviruses were identified, namely Watermelon silver mottle virus (WSMoV), Capsicum chlorosis virus (CaCV), and Melon yellow spot virus (MYSV). CLUSTAL analysis of selected N protein sequences showed different isolates of CaCV in three distinct clades. Based on necrosis symptoms on tomato and their 93% identity to CaCV isolates in the other two clades, CaCV-TD8, CaCV-AIT and CaCV-KS16-Thailand tomato tospovirus were designated as CaCV-tomato necrosis strain. A phylogenetic tree based on the 413-amino-acid Gc fragment of the CaCV-Pkk isolate supported the existence of three distinct CaCV clades. Vigna unguiculata produced concentric rings useful for discriminating the Thai CaCV peanut isolates from tomato or pepper isolates. By using reverse transcription polymerase chain reaction with species-specific primers, the three tospoviruses could be detected in mixed infections in watermelon and Physalis, as well as in the bodies of thrips vectors, Thrips palmi and Scirtothrips dorsalis, collected from fields.