New Disease Reports (2007) 15, 52.

Shallot virus X in Indian shallot, a new virus report for India

S. Majumder, M. Arya, R.P. Pant and V.K. Baranwal*

*vbaranwal2001@yahoo.com

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Accepted: 11 Jul 2007

Shallot, Allium cepa var aggregatum, is cultivated in Tamil Nadu and other southern states of India. Leaves from five plants with mild mosaic & chlorotic symptoms were collected from the field and fixed in 2.5 % glutaraldehyde. Flexuous rod shaped particles of two different lengths measuring ~ 650 and ~800 nm were observed in negatively stained leaf dip preparations under the electron microscope. Immuno-sorbent electron microscopy was performed using antisera to the potyvirus Onion yellow dwarf virus (OYDV) available at our centre, and the carlavirus Garlic latent virus (GarLV), obtained from Dr. D.E. Lesemann, Braunschweig, Germany. OYDV and GarLV are commonly reported viruses infecting garlic and onion in India (Ghosh and Ahlawat 1997; Arya et al., 2006). The smaller flexuous particles were decorated by antisera to GarLV (Fig. 1) but neither OYDV or GarLV antisera decorated the larger flexuous virus particle (Fig. 2).

Based on the length and morphology of the larger particles RT-PCR was performed to determine whether the virus was a member of the Flexivirus genus. Total RNA was extracted from 100 mg of leaves using an RNeasy Plant Minikit (Qiagen) according to the manufacturers protocol and RT-PCR was performed using the primers 5'-CYGCTAAGCTATATGCTGAARGG-3' and 5'-TGTTRCAARGTAAGTTTAGYAATATCAACA-3' previously designed from conserved regions at the 3'-end of ORF6 and 3'-end of the non coding region of Allexivirus sequences (Dovas et al., 2001). An expected amplicon of ~ 200 base pairs was obtained (Fig. 3) which was cloned in pGEM-T Easy vector (Promega) and sequenced. Sequence analysis of the 191 nucleotide product using BioEdit (version 7.0.5.3.) showed a 90% sequence identity with the Allexivirus, Shallot virus X (Accession no M97264). To the best of our knowledge this is the first report of Shallot virus X in India and the first published report of Garlic latent virus in field samples of shallot from India.

Figure1+
Figure 1: Electron micrograph of Garlic latent virus particles decorated with antibodies of Garlic latent virus
Figure 1: Electron micrograph of Garlic latent virus particles decorated with antibodies of Garlic latent virus
Figure2+
Figure 2: Electron Micrograph showing Shallot virus X particles in negatively stained preparation (N.B. ows two particles end-on-end)
Figure 2: Electron Micrograph showing Shallot virus X particles in negatively stained preparation (N.B. ows two particles end-on-end)
Figure3+
Figure 3: Detection of Shallot virus X in field samples of shallot by RT-PCR. Lane M = 100bp marker,; lanes 1, 2, 3 = field samples of shallot
Figure 3: Detection of Shallot virus X in field samples of shallot by RT-PCR. Lane M = 100bp marker,; lanes 1, 2, 3 = field samples of shallot

Acknowledgements

The authors would like to thank Department of Science and Technology, Government of India, for financial assistance.


References

  1. Dovas CI, Hatziloukas E, Solomon R, Barg E, Shiboleth Y, Katis NI, 2001. Comparison of methods for virus detection in Allium spp. Journal of Phytopathology 149, 731-737.
  2. Ghosh DK, Ahlawat YS, 1997. Filamentous viruses associated with mosaic disease of garlic in India. Indian Phytopathology 50, 266-267.
  3. Arya M, Baranwal VK, Ahlawat YS, Singh L, 2006. RT-PCR detection and molecular characterization of Onion yellow dwarf virus associated with garlic and onion. Current Science 91, 1230-1234.

This report was formally published in Plant Pathology

©2007 The Authors