CSIRO PUBLISHING www.publish.csiro.au/journals/apdn Australasian Plant Disease Notes, 2007, 2, 27–28 First record of a begomovirus associated with yellow vein mosaic disease of Urena lobata in India A. Chatterjee A , A. Roy A and S. K. Ghosh A,B A Plant Virus Laboratory and Biotechnology Unit, Division of Crop Protection, Central Research Institute for Jute and Allied Fibres, Barrackpore, Kolkata 700 120, India. B Corresponding author. Email: subratak ghosh@yahoo.co.uk Abstract. A begomovirus with DNA A and a satellite DNA β molecule has been detected for the first time in the eastern part of India in Urena lobata showing yellow vein mosaic disease symptoms. Urena lobata L. is popularly known as Aramina, Bun Ochra, Caesar Weed, or Congo Jute and is of the family Malvaceae; it is probably of Old World origin. It grows best in hot and humid climates in tropical and subtropical areas, where begomoviruses (family Geminiviridae) are a serious threat to dicotyledonous plants. This plant suffers a great deal due to attack by several diseases. Recently, yellow vein mosaic disease of U. lobata has been found in endemic form in different parts of eastern India. The association of begomoviruses with yellow vein mosaic disease in several crops and weeds, such as Ageratum spp., bhendi (Abelmoschus esculentus) and mesta (Hibiscus cannabinus and Hibiscus sabdariffa), grown in the eastern part of India has been noted (Saunders et al. 2000; Usha and Jose 2000; Chatterjee et al. 2005). Yellow vein mosaic disease, which has not been seen previously, has been observed in U. lobata. Symptomatologically the disease is characterised by yellowing of veins and veinlets followed by complete chlorosis of the leaves of affected plants at an advanced stage of infection (Fig. 1). The disease develops from one or both halves of the leaves or with the appearance of erratic chlorotic flakes in the veins and veinlets. In severe cases, these flakes gradually increase in size and form yellow netting. This disease does not exhibit vein clearing and vein thickening types of symptoms as have been noticed in other yellow vein mosaic diseases of bhendi, Croton spp. and Ageratum spp. Along with the vein yellowing, the leaf lamina started showing discolouration. This discolouration was greenish yellow at first, then developed to form yellow mosaic, chlorotic yellowing and complete chlorosis of foliage in a sequential chronology. The infected plants, in general, showed stunted growth with reduced leaf size. In order to study the disease incidence pattern, an initial survey was carried out at different experimental fields of Central Research Institute for Jute and Allied Fibres (CRIJAF), Barrackpore and at experimental farm of BudBud (Burdwan), West Bengal. The results revealed that the disease intensity was slightly higher at CRIJAF (22.6%) than at the experimental farm of BudBud (11.2%). The study was also continued and validated in 20 farmers’ field in three districts of West Bengal and a low level of disease incidence (16.1%) was recorded in those fields. Transmission electron microscopy of typical symptomatic leaves of U. lobata using a 2% uranyl acetate stain revealed that the disease was associated with a geminivirus. The size of the geminate particle was 20 × 30 nm. The virus was effectively transmitted in nature by whiteflies (Bemisia tabaci). Under glasshouse conditions with whitefly acquisition and inoculation access periods of 12 h each, a similar pattern of symptom appearance to that observed in nature was recorded. The whitefly transmission experiments were conducted with 25 plants in three replications. The same numbers of healthy plants were inoculated with non-viruliferous whitefly as a control in each experiment and no symptom expression was observed. Back-inoculation to a new set of healthy plants, 20 in each case, produced similar yellow vein mosaic symptoms and thus confirmed the whitefly transmissibility of the disease. To confirm the presence of a geminivirus in the Urena plants showing yellow vein mosaic disease symptoms, nucleic acid spot hybridisation (NASH) tests were performed using α- 32 P radiolabelled probes (prepared using a High Prime DNA Labelling Kit, Roche Applied Science, USA) complementary to the clone of a complete DNA β molecule (GenBank accession number DQ298137) and a DNA A coat protein gene (accession (a) (b) Fig. 1. (a) A healthy leaf and (b) Urena lobata leaf affected by yellow vein mosaic. © Australasian Plant Pathology Society 2007 10.1071/DN07012 1833-928X/07/010027