The RNA standards targeting the S9 region were obtained by transcription in vitro for generation of a standard curve. The assay developed in this study was found to be 100 LY2109761 in vitro times more sensitive than the conventional RT-PCR for SRBSDV detection. The primers were very specific for SRBSDV. This study clearly demonstrated
the potential usefulness of developed assay for detection and quantitation of SRBSDV in rice samples. Southern rice black-streaked dwarf virus (SRBSDV) is a new species in the genus Fijivirus Group 2 within the family Reoviridae (Zhang et al. 2008; Zhou et al. 2008; Wang et al. 2010), which is transmitted efficiently to rice and maize by the white backed planthopper (WBPH, Sogatella furcifera) in a persistent manner (Pu et al. 2012). Outbreaks of SRBSDV have caused significant crop losses in Southern Asia. In 2009, SRBSDV caused severe losses in North Vietnam, the winter habitat of WBPH (Cuong et al. 2009; Guo et al. 2010), and in China, over 30 million ha of rice field were infected by SRBSDV and 6500 ha of crops failed (Zhou et al. 2010a). In 2010, over 120 million ha of rice were infected by SRBSDV in China, which was 3.5 times more than the previous year, suggesting rapid spread and major
losses in future years (Zhong et al. 2011). SRBSDV isolated was indistinguishable in symptomatology, the shape of virus particles and serological properties from Rice black-streaked dwarf virus check details (RBSDV) and was therefore initially considered to be an isolate of RBSDV (Ruan et al. 1984; Zhou et al. 2004, 2008; Zhang et al. 2008). The pathogen of this disease was not identified until 2008, which was first observed in Yangjiang, Guangdong province in China in 2001 (Zhou et al. 2010a). In order to further study and achieve the ultimate
aim of forecasting and controlling the spread of southern rice black-streaked dwarf disease, the diagnosis of SRBSDV has been improved remarkably with the application of rapid molecular diagnostic systems, such as direct observation of typical symptoms (Zhou et al. 2008), Reverse Transcript-Polymerase Chain Reaction (RT-PCR) (Zhou et al. 2008, 2010b; Ji et al. 2011; Wang et al. 2012a; Dot-Enzyme-Linked Phospholipase D1 Immunosorbent Assay (Dot-ELISA) (Wang et al. 2012b) and Reverse Transcription Loop-Mediated Isothermal Amplification (RT-LAMP) (Zhou et al. 2012). However, some methods are time consuming and inaccurate, and some especially cannot precisely quantify the copy numbers of SRBSDV RNA. The one-step real time RT-PCR assay has many advantages over conventional detection methods, including rapidity, quantitative detection, lower contamination rate, higher sensitivity and specificity. It has already proved to be efficient for the detection of plant RNA and DNA viruses.