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Production of a de-novo designed antimicrobial peptide in Nicotiana benthamiana.
Plant Mol. Biol. 81, 259-272 (2013)
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Antimicrobial peptides are important defense compounds of higher organisms that can be used as therapeutic agents against bacterial and/or viral infections. We designed several antimicrobial peptides containing hydrophobic and positively charged clusters that are active against plant and human pathogens. Especially peptide SP1-1 is highly active with a MIC value of 0.1 mu g/ml against Xanthomonas vesicatoria, Pseudomonas corrugata and Pseudomonas syringae pv syringae. However, for commercial applications high amounts of peptide are necessary. The synthetic production of peptides is still quite expensive and, depending on the physico-chemical features, difficult. Therefore we developed a plant/tobacco mosaic virus-based production system following the 'full virus vector strategy' with the viral coat protein as fusion partner for the designed antimicrobial peptide. Infection of Nicotiana benthamiana plants with such recombinant virus resulted in production of huge amounts of virus particles presenting the peptides all over their surface. After extraction of recombinant virions, peptides were released from the coat protein by chemical cleavage. A protocol for purification of the antimicrobial peptides using high resolution chromatographic methods has been established. Finally, we yielded up to 0.025 mg of peptide per g of infected leaf biomass. Mass spectrometric and NMR analysis revealed that the in planta produced peptide differs from the synthetic version only in missing of N-terminal amidation. But its antimicrobial activity was in the range of the synthetic one. Taken together, we developed a protocol for plant-based production and purification of biologically active, hydrophobic and positively charged antimicrobial peptide.
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Publikationstyp Artikel: Journalartikel
Dokumenttyp Wissenschaftlicher Artikel
Schlagwörter Antimicrobial Peptides ; Tobacco Mosaic Virus ; Designed Peptide ; Fusion Protein ; Plant Transformation ; Molecular Farming; Tobacco-mosaic-virus ; Protein-mediated Resistance ; Coat-protein ; Transgenic Plants ; Recombinant Proteins ; Structural Features ; Viral Vectors ; Nucleic Acid ; Expression ; Epitopes
ISSN (print) / ISBN 0167-4412
Zeitschrift Plant Molecular Biology
Quellenangaben Band: 81, Heft: 3, Seiten: 259-272
Begutachtungsstatus Peer reviewed