Vacuolar targeting of r-proteins in sugarcane leads to higher levels of purifiable commercially equivalent recombinant proteins in cane juice.

Sugarcane is an ideal candidate for biofarming applications because of its large biomass, rapid growth rate, efficient carbon fixation pathway and a well-developed storage tissue system. Vacuoles occupy a large proportion of the storage parenchyma cells in the sugarcane stem, and the stored products can be harvested as juice by crushing the cane. Hence, for the production of any high-value protein, it could be targeted to the lytic vacuoles so as to extract and purify the protein of interest from the juice. There is no consensus vacuolar-targeting sequence so far to target any heterologous proteins to sugarcane vacuole. Hence, in this study, we identified an N-terminal 78-bp-long putative vacuolar-targeting sequence from the N-terminal domain of unknown function (DUF) in Triticum aestivum 6-SFT (sucrose: fructan 6-fructosyl transferase). In this study, we have generated sugarcane transgenics with gene coding for the green fluorescent protein (GFP) fused with the vacuolar-targeting determinants at the N-terminal driven by a strong constitutive promoter (Port ubi882) and demonstrated the targeting of GFP to the vacuoles. In addition, we have also generated transgenics with His-tagged -glucuronidase (GUS) and aprotinin targeted to the lytic vacuole, and these two proteins were isolated and purified from the transgenic sugarcane and compared with commercially available protein samples. Our studies have demonstrated that the novel vacuolar-targeting determinant could localize recombinant proteins (r-proteins) to the vacuole in high concentrations and such targeted r-proteins can be purified from the juice with a few simple steps.