Orthotospovirus iridimaculaflavi (iris yellow spot virus): An emerging threat to onion cultivation and its transmission by Thrips tabaci in India.

The yellow spot disease caused by the virus species Orthotospovirus iridimaculaflavi (Iris yellow spot virus-IYSV), belonging to the genus Orthotospovirus, the family Tospoviridae, order Bunyavirales and transmitted by Thrips tabaci Lindeman. At present, emerging as a major threat in onion (Allium cepa) in Tamil Nadu, India. The yellow spot disease incidence was found to be 53-73 % in six districts out of eight major onion-growing districts surveyed in Tamil Nadu during 2021-2023. Among the onion cultivars surveyed, the cultivar CO 5 was the most susceptible to IYSV. The population of thrips was nearly 5-9/plant during vegetative and flowering stages. The thrips infestation was 34-60 %. The tospovirus involved was confirmed as IYSV through DAS-ELISA, followed by molecular confirmation through RT-PCR using the nucleocapsid (N) gene. The predominant thrips species present in onion crops throughout the growing seasons was confirmed as Thrips tabaci based on the nucleotide sequence of the MtCOI gene. The mechanical inoculation of IYSV in different hosts viz., Vigna unguiculata, Gomphrena globosa, Chenopodium amaranticolor, Chenopodium quinoa and Nicotiana benthamiana resulted in chlorotic and necrotic lesion symptoms. The electron microscopic studies with partially purified sap from onion lesions revealed the presence of spherical to pleomorphic particles measuring 100-230 nm diameter. The transmission of IYSV was successful with viruliferous adult Thrips tabaci in cowpea (Cv. CO7), which matured from 1st instar larva fed on infected cowpea leaves (24 h AAP). Small brown necrotic symptoms were produced on inoculated plants after an interval of four weeks. The settling preference of non-viruliferous and viruliferous T. tabaci towards healthy and infected onion leaves resulted in the increased preference of non-viruliferous thrips towards infected (onion-61.33 % and viruliferous thrips towards healthy onion leaves (75.33 %). The study isolates shared 99-100 % identity at a nucleotide and amino acid level with Indian isolates of IYSV in the N gene. The multiple alignment of the amino acid sequence of the N gene of IYSV isolates collected from different locations and IYSV isolates from the database revealed amino acid substitution in the isolate ITPR4. All the IYSV isolates from India exhibited characteristic amino acid substitution of serine at the 6th position in the place of threonine in the isolates from Australia, Japan and USA. The phylogenetic analysis revealed the monophyletic origin of the IYSV isolates in India.

A sequel study on the occurrence of Tomato spotted wilt virus (TSWV) in cut-chrysanthemum by DAS-ELISA using recombinant nucleocapsid protein to produce polyclonal antiserum.

The tomato spotted wilt virus (TSWV) belonging to the genus Orthotospovirus, family Tospoviridae, causes severe necrotic disease in field crops and horticultural crops, resulting in considerable yield loss worldwide. The development of protein-based diagnostics is essential to track the virus transmission and prevent its spread in vegetatively propagated crops such as ornamentals. In this study, nucleocapsid (N) gene of TSWV was cloned in pET 28 a (+) expression vector. Expression of the 32 kDa recombinant TSWV-N protein was induced in BL21 (DE3) cells using 1 mM of Isopropyl ß-d-1-thiogalactopyranoside (IPTG), and was confirmed through SDS-PAGE and Western blot by fluorescent-labeled secondary antibody. The bacterial cells expressed recombinant TSWV-N protein up to a concentration of 9.48 µg/mL. The purified protein was used for immunization of a rabbit to produce specific polyclonal antiserum. The TSWV antiserum was conjugated with the enzyme alkaline phosphatase (ALP). Double Antibody Sandwich-Enzyme Linked Immunosorbent Assay (DAS-ELISA) was developed and validated against TSWV infected hosts. This antiserum specifically reacted with recombinant N protein as well as TSWV infected hosts, but not with groundnut bud necrosis orthotospovirus (GBNV) as well as capsicum chlorosis orthotospovirus (CaCV) infecting tomato and chilli plants. The coating antibody at 1 µg/mL concentration and 1:500 dilution of enzyme conjugate were found to be effective and economical in the detection of recombinant N protein of TSWV and the virus present naturally in the infected hosts. Using standardized DAS-ELISA protocol, the TSWV titer also was quantified in artificially inoculated assay hosts. Among 11 hosts tested, higher virus titer was recorded in Nicotiana tabacum (0.270 µg/100 µL), followed by Impatiens balsamiana (0.185 µg/100 µL) and Dahlia pinnata at a low virus tire of 0.083 µg/100 µL. The diagnostic reagents and protocol (DAS-ELISA) are further validated by detecting the infection of TSWV in chrysanthemum stem cuttings from six different nurseries in the hill stations of Tamil Nadu, India. The DAS-ELISA assay experimented on six varieties from four different nurseries revealed that the Mum Yellow variety had a higher percentage of TSWV infection (36 %), which was followed by the Mum White variety (33 %); both collected from Kotagiri Nursery. The same variety exhibited a higher virus titer by DAS-ELISA, an A405 value range of 0.733 (Ì´ 0.115 µg) and 0.711 (Ì´ 0.111 µg) respectively, and a total of 27 % of TSWV infection was confirmed by screening 800 stem cuttings by DAS-ELISA. The presence of TSWV was also detected in 54 (6.75 %) asymptomatic stem cuttings from different locations, and the A405 value ranged from 0.325 to 0.468. (Ì´ 0.044-0.069 µg/100 µL); this is the first reported development of immune-based diagnostics for TSWV in India. This protocol and diagnostics will be highly useful for quarantine purposes while trading large quantities of planting materials.

Role of Thrips palmi and Parthenium hysterophorus pollen in active spread of tobacco streak virus in the cotton ecosystem.

Tobacco streak virus incidence in the cotton field, cv.CO14 at Department of Cotton, Tamil Nadu Agricultural University (TNAU), Coimbatore, India was nearly 36.50 %. Cotton plants infected with TSV exhibits different types of symptoms, including necrotic spots, lesions, mosaic, purplish necrotic rings, square drying, veinal necrosis and drying of terminal shoots. The highly prevalent thrips species in this cotton ecosystem was established as Thrips palmi (60.00 %) by morphological (ESEM) and molecular methods (RT-PCR using mtCOI primers). The density of the alternate weed host, Parthenium hysterophorus, was 15.05 plants per m2 in these fields. Association of Thrips palmi with Parthenium was confirmed, when observed under environmental scanning electron microscope (ESEM), Parthenium pollen grains (i.e., average size @ 15000X =12.94 µm) were found adhering to its body. Molecular studies through RT-PCR confirmed the presence of TSV in the leaves and pollen grains of symptomatic and symptom-free Parthenium plants collected from the cotton field (cv. CO14). Therefore, the combined role of Thrips palmi and the Parthenium pollen grains in the transmission of TSV was examined; acquiring of TSV and its presence in the body of Thrips palmi instars and adults after 72 h of AAP was convincingly demonstrated using RT-PCR, NASH and qPCR. However virus acquired thrips could not transmit the virus. Pollen from TSV infected Parthenium plants when dusted on cotton (ANKUR 2110) seedlings along with virus acquired or non-acquired thrips led to symptom development 22 days after sowing. From the study it is evident that thrips only facilitate the movement of TSV borne pollen grains, and thereby contributing to active spread of the virus.