LACTOSE FED-BATCH OVEREXPRESSION OF RECOMBINANT METALLOPROTEINS IN ESCHERICHIA COLI BL21(DE3) - PROCESS CONTROL YIELDING HIGH LEVELS OF METAL-INCORPORATED, SOLUBLE PROTEIN

摘要

A method for producing recombinant proteins in pilot scale fermentation equipment using a glucose fed-batch initial growth, followed by a midlog phase feeding of a glucose and lactose mixture is described. Using the host strain Escherichia coli BL21(DE3), the diiron protein stearoyl-acyl carrier protein Delta(9) desaturase has been overexpressed at a biomass level of up to 12 g x liter(-1) dry cell weight, representing a 12-fold increase in volumetric productivity relative to that obtained from batch fermentations. Under these conditions, a maximum of 36% of the total cellular protein accumulates as the desaturase polypeptide. A correlation between the slowed growth rate of the fed-batch culture, a continued, albeit slower, exponential growth under inducing conditions, and a favorable partitioning between formation of the soluble holoprotein and inclusion bodies is reported. This correlation suggests that fed-batch techniques can be used to beneficially influence rate-limiting processes in the maturation of overexpressed proteins, such as metal uptake and incorporation proposed here. By using cells produced from the fed-batch method, the iron-containing, soluble desaturase can be purified in a yield of up to 66 mg x g(-1) dry cell weight (similar to 500 mg X liter(-1) culture), representing a three to fivefold increase in the yield relative to that obtained from batch fermentations. In addition, these methods are suitable for the production of the Anabena 7120 vegetative [2Fe 2S] ferredoxin in E. coli BL21(DE3) pLysS, a host strain used for the overexpression of toxic proteins. (C) 1995 Academic Press, Inc. [References: 30]