New Disease Reports (2016) 33, 4. [http://dx.doi.org/10.5197/j.2044-0588.2016.033.004]
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Association of Cotton leaf curl Multan virus and its associated betasatellite with leaf curl disease of Hibiscus rosa-sinensis in India

A. Srivastava, S. Kumar, M. Jaidi and S.K. Raj

*skraj2@rediffmail.com

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Received: 25 Aug 2015; Published: 22 Jan 2016

Keywords: begomovirus

Hibiscus (Hibiscus rosa-sinensis) is a perennial ornamental plant grown for its attractive flowers. In September 2011, symptoms of severe leaf curling, vein thickening and enation were observed on 31% (13/42) hibiscus plants (Fig. 1) grown in a garden at Lucknow, India. The symptoms and whitefly infestation suggested a begomovirus infection.

Leaf samples from 13 diseased and four healthy hibiscus plants were collected. Total DNA was isolated and subjected to PCR using degenerate begomovirus primers (CP-F: 5′-GCATCTGCAGGCCCACATYGTCTTYCCNGT-3′ and CP-R: 5′-AATACTGCAGGGCTTYCTRTACATRGG-3′). All samples of symptomatic leaves yielded a ~1.2 kb PCR product indicative of a begomovirus. Full-length genomes were amplified by the rolling circle amplification method (~2.7 kb) from two samples, and cloned and sequenced (GenBank Accession Nos. JN880418 and JN807763). Nucleotide sequence analysis revealed 99% identity between the two isolates, and 90-93% identity and close phylogenetic relationships with isolates of Cotton leaf curl Multan virus (CLCuMV) (Fig. 2). Hence, two new variants of CLCuMV were identified. Association with a betasatellite was tested by PCR with specific primers (Beta 01: 5′-AGCCTTAGCTACGCCGGAGC-3′ and Beta 02: 5′-GCTGCGTAGCGTAGAGGTTT-3′). Again, all 13 samples of symptomatic leaves produced the expected product of ~1.3 kb. One amplicon was cloned and sequenced (KT447040). The sequence had 98% nucleotide identity and close phylogenetic relationships with Cotton leaf curl Multan betasatellite (CLCuMB) isolates (Fig. 3), and was concluded to be an isolate of CLCuMB. The disease incidence was confirmed during a survey of the same garden in September 2015. Twenty three of the 42 hibiscus plants investigated by dot blot analysis using a CLCuMV-specific probe (derived from clone JN880418) were found to be infected (Fig. 4).

The natural occurrence of CLCuMV and CLCuMB has been reported on hibiscus from China (Mao et al., 2008), whereas Cotton leaf curl Burewala virus with CLCuMB on hibiscus has been reported from Pakistan (Akhtar et al., 2014). However, this is the first report of CLCuMV and CLCuMB on hibiscus from India.

 

Figure1+
Figure 1: Naturally infected H. rosa-sinensis twig showing leaf curl and enation symptoms.
Figure 1: Naturally infected H. rosa-sinensis twig showing leaf curl and enation symptoms.
Figure2+
Figure 2: Phylogenetic tree exhibiting relationship of begomovirus isolates (in grey) with other begomoviruses. The unrooted tree was generated using the neighbor-joining method in MEGA v6.1 and percentage values of replicate trees in which associated taxa clustered together in the bootstrap test (1000 replicates) are shown next to the branches. The bar indicates the number of substitutions per nucleotide position. Full names of viruses may be found by reference to the GenBank accessions.
Figure 2: Phylogenetic tree exhibiting relationship of begomovirus isolates (in grey) with other begomoviruses. The unrooted tree was generated using the neighbor-joining method in MEGA v6.1 and percentage values of replicate trees in which associated taxa clustered together in the bootstrap test (1000 replicates) are shown next to the branches. The bar indicates the number of substitutions per nucleotide position. Full names of viruses may be found by reference to the GenBank accessions.
Figure3+
Figure 3: Phylogenetic analysis (as described in Fig. 2) of betasatellite molecule from hibiscus (in grey) revealing close relation to other selected Cotton leaf curl Multan betasatellite isolates.
Figure 3: Phylogenetic analysis (as described in Fig. 2) of betasatellite molecule from hibiscus (in grey) revealing close relation to other selected Cotton leaf curl Multan betasatellite isolates.
Figure4+
Figure 4: Image of dot blot hybridization showing positive signals in 21/23 samples. PC = Cotton leaf curl Multan virus clone as a positive control.
Figure 4: Image of dot blot hybridization showing positive signals in 21/23 samples. PC = Cotton leaf curl Multan virus clone as a positive control.

References

  1. Akhtar KP, Ullah R, Saeed M, Sarwar N, Mansoor S, 2014. China rose (Hibiscus rosa-sinensis): a new natural host of Cotton leaf curl Burewala virus in Pakistan. Journal of Plant Pathology 96, 385-389. [http://dx.doi.org/10.4454/JPP.V96I1.045]
  2. Mao MJ, He ZF, Yu H, Li HP, 2008. Molecular characterization of cotton leaf curl Multan virus and its satellite DNA that infects Hibiscus rosa-sinensis. Chinese Journal of Virology 24, 64-68.

To cite this report: Srivastava A, Kumar S, Jaidi M, Raj SK, 2016. Association of Cotton leaf curl Multan virus and its associated betasatellite with leaf curl disease of Hibiscus rosa-sinensis in India. New Disease Reports 33, 4. [http://dx.doi.org/10.5197/j.2044-0588.2016.033.004]

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