Transient expression of the coat protein of sugarcane mosaic virus in sugarcane protoplasts and expression in Escherichia coli

Identification of resistance to Sugarcane mosaic virus, Sugarcane streak mosaic virus, and Sugarcane bacilliform virus in new elite sugarcane accessions in India

Sugarcane mosaic and leaf fleck diseases are significant viral diseases affecting sugarcane crops in India. The use of resistant sugarcane varieties is considered the most economical and effective approach to manage viral diseases, especially in vegetatively propagated crops such as sugarcane. Sugarcane mosaic virus (SCMV) and Sugarcane streak mosaic virus (SCSMV) are the primary pathogens responsible for mosaic disease in sugarcane-growing regions of India. Sugarcane bacilliform virus (SCBV), causing leaf fleck disease, is also often found in mixed infections with mosaic symptoms. The study aimed to identify new sources of resistance by screening sugarcane germplasm for resistance to SCMV, SCSMV, and SCBV. The screening was carried out under high inoculum using the infector row method in both plant and ratoon crops. Out of 129 genotypes tested, only 8 were found to be free of mosaic viruses, indicating a rare occurrence of resistant sources. The study revealed that mosaic disease is widespread, with nearly 95% of tested varieties/genotypes being infected with mosaic viruses. SCMV, SCSMV, and SCBV were detected in 121 out of 129 genotypes using the RT-PCR and PCR assays. Based on their response to the viruses, the tested genotypes were categorized into different resistance grades: highly resistant (grade 1), resistant (grade 2), moderately resistant (grade 3), susceptible (grade 4), and highly susceptible (grade 5). The results of the study provide valuable information about elite resistance resources that can be used for the prevention and control of mosaic disease. These resistant genotypes could also serve as potential donors for mosaic and leaf fleck disease resistance in breeding programs.

Sequence diversity in the NIb coding region of eight sugarcane mosaic potyvirus isolates infecting sugarcane in Australia

We have sequenced the NIb coding region of sugarcane mosaic potyvirus strain SC (SCMV-SC) and eight field isolates of SCMV from Australia. This region comprised 1563 nucleotides and encoded a putative protein of 521 amino acids containing the consensus motif GDD. The protease cleavage sites between the NIa/NIb and the NIb/coat protein were found to be Q/C and Q/A, respectively. The SCMV sequences were most similar to sorghum mosaic potyvirus with identities of 70% and 78% at the nucleotide and amino acid levels, respectively. When the sequences were compared to each other, there was a maximum of 3.3% variation between isolates at the nucleotide level and a maximum of 0.8% at the amino acid level. Phylogenetic analysis of the sequences indicated the field isolates were grouped according to their geographical location. The SCMV sequence with most homology to all other isolates has been selected to generate constructs for replicase-mediated resistance.

Expression, purification, and use as an antigen of recombinant sugarcane mosaic virus coat protein

A high titre (1:10,000) antiserum was raised in a rabbit against the coat protein of sugarcane mosaic potyvirus (SCMV), by injecting a preparation of recombinant coat protein purified from a fusion protein expressed in E. coli. The fusion protein consisted of the MalE maltose binding protein (MBP) and the viral coat protein separated by the protease factor Xa cleavage site. The fusion protein was encoded by the plasmid pMAL-cCPM, which was constructed by cloning a modified coat protein gene to the 3' end of the MBP/factor Xa coding region. The coat protein gene was modified by site-directed mutagenesis so that the ATG start codon in the original construct was replaced by the codon AGC, deleting the NcoI restriction site (C/CATGG) and creating a unique Eco47III site (AGC/GCT). Endonuclease restriction with Eco47III resulted in a DNA fragment with GCT as the first three nucleotides. This triplet encodes alanine, which is the proposed N-terminal amino acid residue of the mature native coat protein. This modified coat protein coding region was ligated directly behind the nucleotide code for the amino acid recognition sequence for factor Xa. Expression was induced with IPTG and the recombinant fusion protein was extracted from the bacterial lysate by amylose resin column affinity chromatography and the two domains separated by factor Xa proteolysis. The coat protein was then purified from the maltose binding protein by ion exchange chromatography in buffer containing 6 M urea. A highly purified sample which contained 150 micrograms of both full-length and truncated coat proteins, was recovered from a litre of bacterial broth. The antiserum reacted with native coat protein in SCMV-infected sugarcane, and with recombinant coat proteins expressed in E. coli and sugarcane protoplasts with little or no cross-reaction with sugarcane proteins.