Production of functional recombinant roseltide rT1 antimicrobial peptide in tobacco plants.

Plant-derived peptides represent a promising group of natural compounds with broad industrial and pharmaceutical applications. Low-efficiency production level is the major obstacle to the commercial production of such bioactive peptides. Today, recombinant techniques have been developed for fast and cost-effective production of high-quality peptides for various applications in the chemical and food industries. The roseltide rT1 is a plant peptide with different antimicrobial properties and therapeutic applications in the prevention and treatment of inflammatory lung diseases by inhibiting human neutrophil elastases. Here, we report the expression of functional recombinant roseltide rT1 peptide in tobacco plants. Transgenic plants were generated by the Agrobacterium-mediated transformation method followed by molecular analysis of transgenic plants to demonstrate successful integration and expression of recombinant rT1 peptide. Protein extracts of transgenic plants expressing a single-copy rT1 gene showed efficient antimicrobial properties as verified by growth inhibition of different bacterial strains. Our results illustrate that plant-derived recombinant rT1 peptide is a promising alternative for rapid and cost-effective production of this important antimicrobial peptide for application in therapeutic and food industries. • Transgenic tobacco plants expressing recombinant roseltide rT1 were generated by Agrobacterium-mediated transformation. • Single-copy transgenic lines were selected and verified by different molecular methods. • The expressed recombinant peptide performed efficient antibacterial properties. • Plant system is presented as a promising alternative for rapid and cost-effective production of recombinant rT1 peptide. [ABSTRACT FROM AUTHOR]