Herein, we describe a scalable purification of the lantibiotic nisin via an extraction/precipitation approach using a biphasic system, which can be carried out up to 40-80 gram scale. This approach results in an at least tenfold enrichment of commercially available preparations of nisin, which usually contain only 2.5% of the desired peptide, to allow further purification by preparative HPLC. As a follow-up study, the enriched nisin sample was digested either by trypsin or chymotrypsin, or treated by CNBr, and these reactions were monitored by LC-MS to identify and characterize the obtained fragments. Two previously unknown cleavage sites have been identified: Asn20-Met21 and Met21-Lys22 for trypsin and chymotrypsin, respectively. Furthermore, a novel and convenient enzymatic approach to isolate the native nisin C-ring [nisin fragment (13-20)] was uncovered. Finally, by means of preparative HPLC, nisin fragments (1-12), (1-20), (22-34), and (22-31) could be isolated and will be used in a semi-synthesis approach to elucidate the role of each fragment in the mode of action of nisin as an antimicrobial peptide.
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