Abstract
This study describes the use of a hexa-histidine tagged exopeptidase for the cleavage of hexa-histidine tags from recombinant maltose binding protein (MBP) when both tagged species are bound to an immobilized metal affinity chromatography (IMAC) matrix. On-column exopeptidase cleavage only occurred when the cleavage buffer contained an imidazole concentration of 50 mM or higher. Two strategies were tested for the on-column tag cleavage by dipeptidylaminopeptidase (DAPase): (i) a post-load wash was performed after sample loading using cleavage buffers containing varying imidazole concentrations and (ii) a post-load wash was omitted following sample loading. In the presence of 50 mM imidazole, 46% of the originally adsorbed hexa-histidine tagged MBP was cleaved, released from the column, and recovered in a sample containing 100% native (i.e., completely detagged) MBP. This strategy renders the subsequent purification steps unnecessary as any tagged contaminants remained bound to the column. At higher imidazole concentrations, binding of both hexa-histidine tagged MBP and DAPase to the column was minimized, leading to characteristics of cleavage more closely resembling that of a batch cleavage. An on-column cleavage yield of 93% was achieved in the presence of 300 mM imidazole, albeit with contamination of the detagged protein with tag fragments and partially tagged MBP. The success of the on-column exopeptidase cleavage makes the integration of the poly-histidine tag removal protocol within the IMAC protein capture step possible. The many benefits of using commercially available exopeptidases, such as DAPase, for poly-histidine tag removal can now be combined with the on-column tag cleavage operation.
Published Version
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