BioTechniques (Mar 2001)

Large-Scale Purification of a Stable Form of Recombinant Tobacco Etch Virus Protease

  • Louise J. Lucast,
  • Robert T. Batey,
  • Jennifer A. Doudna

DOI
https://doi.org/10.2144/01303st06
Journal volume & issue
Vol. 30, no. 3
pp. 544 – 554

Abstract

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Tobacco etch virus NIa proteinase (NIa-Pro) has become the enzyme of choice for removing tags and fusion domains from recombinant proteins in vitro. We have designed a mutant NIa-Pro that resists autoproteolytic inactivation and present an efficient method for producing large amounts of this enzyme that is highly pure, active, and stable over time. Histidine-tagged forms of both wild-type and mutant NIa-Pro were overexpressed in E. coli under conditions in which greater than 95% of the protease was in the insoluble fraction after cell lysis. An inclusion body preparation followed by denaturing purification over a single affinity column and protein renaturation yields greater than 12.5 mg enzyme per liter of bacterial cell culture. NIa-Pro purified according to this protocol has been used for quantitative removal of fusion domains from a variety of proteins prepared for crystallization and biochemical analysis.