First Report of Cucumber mosaic virus Subgroup II Infecting Lycopersicon esculentum in India

Genome characterization and host range studies of Cucumber mosaic virus belonging to the Subgroup IB infecting chilli in India and screening of chilli genotypes for identification of resistance

Chilli pepper is an important vegetable and spice crop grown worldwide. Chilli is susceptible to various pathogens, among them mosaic disease caused by Cucumber mosaic virus (CMV) is a major constraint for its production. Roving survey was carried out for mosaic disease assessment in chilli at 35 locations comprising five districts of south eastern Karnataka, which was later confirmed for the presence of different viruses in random samples by DAC-ELISA. Results revealed the prevalence of the disease caused by CMV up to 43.00% based on visual assessment. However, only in 64 samples out of 140 infected chilli samples showed CMV infection in DAC-ELISA and revealed the mixed infection of viruses. Mechanical sap inoculation of CMV-Ko isolate induced symptoms on chilli plants, which were similar to the symptoms observed in field. Complete genome sequence of CMV-Ko (RNA1, RNA2 and RNA3) isolate was amplified, cloned and sequenced. Sequence analysis revealed that it shared 83.7-99.1% nucleotide (nt) identity with CMV subgroup IB isolates infecting different crops in India. Recombination analysis of CMV-Ko genome showed that, RNA1 and RNA2 had recombinant origin and not RNA3. Host range studies for CMV-Ko isolate showed its potential of infecting nine host plants out of 21 used for transmission. Fifty advanced chilli lines were screened against CMV-Ko isolate and 27 immune lines to CMV were identified, which can be utilized for management of disease caused by CMV in chilli.

Supplementary Information

The online version contains supplementary material available at 10.1007/s13337-021-00713-3.

Characterization of cucumber mosaic virus infecting coleus (Plectranthus barbatus) in Karnataka

Plectranthus barbatus also known by the synonym Coleus forskohlii it is called as forskohlii and Indian coleus. It is a tropical perennial herb belongs to the family Lamiaceae widely cultivated in India used as traditional medicinal crop. Its tuberous roots produce forskolin, an extract useful for pharmaceutical preparations and research in cell biology. The incidence of mosaic with dark and light green patches, mottling, leaf distortion and reduction growth was noticed in commercial cultivation of coleus. For identification of the virus, the infected leaf sample extract was mechanically inoculated to different hosts such as chilli, tobacco, tomato, cucumber, cowpea and Chenopodium amaranticolor. Host range studies revealed that the virus showed severe mosaic symptoms on Nicotiana spp. and Cucumis spp. The virus produced systemic and local lesion symptoms in a different host. The Leaf dip preparation of virus infected leaf extract was observed under an electron microscope showed the presence of isometric particles of 28 nm in size. The healthy and infected samples were tested using DAC-ELISA against antibodies of CMV, GBNV and TSV the infected samples showed strong positive reaction with 1.85 optical density to CMV antibodies indicated the presence of CMV. For molecular identification, total RNA was isolated and used for RT-PCR amplification using CMV specific primers. RT-PCR resulted in the positive amplification in virus infected samples but not from a healthy control. The complete genome of CMV RNA-1 consists of 3360 nucleotides (nt) encoding replicase gene of 807 amino acids (aa). The CMV RNA-2 was 2983 nt in length containing 2a (859 aa) encoding RNA dependent RNA polymerase protein and 2b encoding viral silencing suppressor (112 aa), while RNA-3 encoding 3a movement protein (280 aa) and coat protein (219 aa) was 2223 nt in length. Phylogenetic analyses of nucleotide sequences of coleus CMV isolate is closely related to subgroup IB than to subgroup IA or II with other CMV isolates. In recombination analysis, the recombination event occurs between the subgroups of I, II as well as IA and IB in RNA 1, RNA2 and RNA3 of coleus isolate with other CMV isolates. To best of our knowledge, this is the first report of CMV infection in coleus.

Biological and Molecular Characterization of Cucumber mosaic virus Subgroup II Isolate Causing Severe Mosaic in Cucumber

Cucumber mosaic virus (CMV) has a wide host range causing severe damage in many important agricultural and ornamental crops. Earlier reports showed the prevalence of CMV subgroup I isolates in India. However, some recent reports point towards increasing incidence of subgroup II isolates in the country. The complete genome of a CMV isolate causing severe mosaic in cucumber was characterized and its phylogenetic analysis with other 21 CMV isolates reported worldwide clustered it with subgroup II strains. The genome comprised of RNA 1 (3,379 nucleotides), RNA 2 (3,038 nucleotides) and RNA 3 (2,206 nucleotides). The isolate showed highest homology with subgroup II isolates: 95.1-98.7, 87.7-98.0, and 85.4-97.1 % within RNA1, RNA2, and RNA3, respectively. RNA1 and RNA2 were closely related to the Japanese isolate while RNA3 clustered with an American isolate. Host range studies revealed that isolate showed severe mosaic symptoms on Nicotiana spp. and Cucumis spp. The isolate induced leaf deformation and mild filiform type symptoms in tomato. To best of our knowledge this is the first report of complete genome of CMV subgroup II isolate from India.

Biological and Molecular Characterization of Cucumber mosaic virus Isolate Causing Shoestring Disease of Tomato in India which has Closer Affinity to European or East Asian Isolates of CMV

An isolate of Cucumber mosaic virus (CMV) retrieved from tomato in India was characterized based on its transmission by sap inoculations, Western blot immuno-assay and sequence analysis of RNA3 and 2b genome. The RNA3 genome was of 2,220 nucleotides (nt) which contained two ORFs: movement protein of 852 nt translating 283 amino acids and coat protein of 657 nt translating 218 amino acids. The complete sequence of RNA3 geneome (Acc. EF153734) shared highest 98-99% identities with P1-1, Tfn, and Nt9 strains of CMV infecting tomato reported from abroad. The 333 nucleotides long RNA2b gene (Acc. EF710773) also showed highest 98% identities with P1-1 and 97% with Tfn and NT9 strains of CMV but only 83-84% identities with Indian strains of CMV. Therefore, the isolate under study was identified as a new isolate of CMV of subgroup IB based on highest sequence similarities and closer affinity to European or East Asian isolates of CMV.

Biological and Molecular Characterization of Two Distinct Tomato Strains of Cucumber mosaic virus Based on Complete RNA-3 Genome and Subgroup Specific Diagnosis

Cucumber mosaic virus (CMV) is one of the most important viral pathogen infecting several plant species in India. Five isolates of CMV obtained from cucumber, muskmelon, tobacco and tomato from distinct geographical locations in India were analysed based on host-reactions and genome sequence. The majority of the isolates were very similar and only two isolates, Tfr-In and Tss-In showed distinct symptoms in tomato and high sequence diversity (77.8%) in coat protein (CP) gene. Tfr-In was isolated from tomato fruit showing grey patches in Aurangabad and Tss-In from tomato plant showing shoe-string symptoms in New Delhi. The RNA-3 genomes of Tfr-In (2,214 nt; JF279606), shared only 70.3% nucleotide sequence identity with Tss-In (2,178 nt; JF279605. The complete RNA-3 genome of Tss-In and Tfr-In were compared with that of 65 CMV isolates reported from various plants of the world, which formed four distinct subclades-IA, -IB, -IC and -II. The Tfr-In isolate clustered with the CMV subgroup-IB and Tss-In with the subgroup-II. The comparison of the RNA-3 sequence of both the isolates revealed maximum heterogeneity in the intergenic region (IR). Reverse transcriptase polymerase chain reaction (RT-PCR) based detection of CMV subgroup-I and -II was developed designing primers from flanking IR region. The specificity of the RT-PCR detection was confirmed using Tfr-In and Tss-In representing subgroup-I and -II and validated with field samples of tomato, cucurbits and chilli. This is the first report of complete RNA-3 of subgroup-IB CMV causing grey patches in tomato fruit and subgroup-II CMV causing shoe-string symptoms in tomato in India. The present and previous studies together showed that tomato in India was affected by multiple strains of CMV.