Abstract
Sugarcane streak mosaic virus (SCSMV) is one of the mosaic viruses found in mixed infection with two or more viruses. Infections of mosaic viruses show highly similar mosaic symptoms and are difficult to distinguish. This study aimed to develop a specific antibody against SCSMV that could potentially be utilized to differentiate mosaic virus infections. The cDNA encoding the coat protein (CP) of SCSMV was isolated by RT-PCR from the symptomatic sugarcane leaves. The cDNA was then used for the production of CP for the development of its polyclonal antibody. The nucleotide sequence of the cDNA showed high homology of 94.2-97.3% at the amino acid level with the CP-cDNA of SCSMV isolated from India (AM749403.1), Africa (OR195142.1), and USA (U75456.1). CP was produced as a recombinant protein with a molecular size of 36.5 kDa in Escherichia coli. The injection of recombinant CP into a rabbit resulted in the production of polyclonal antibodies, which were used for the immunodetection of SCSMV in sugarcane. Immunoblot analysis revealed a specific reaction of SCSMV-CP in symptomatic sugarcane leaves. ELISA (Enzyme-Linked Immunosorbent Assay) and IC-RT-PCR (Immunocapture-Reverse Transcription-Polymerase Chain Reaction) using the CP antibody proved successful for detecting SCSMV infection in sugarcane leaves. The results indicate that the SCSMV-CP antibody is suitable for an immunodetection system and exhibits high specificity for SCSMV infection.