Abstract

Although the Escherichia coli expression system is the most commonly used expression system, some proteins are still difficult to be expressed by this system, such as proteins with high thermolability and enzymes that cannot mature by autoprocessing. Therefore, it is necessary to develop alternative expression systems. In this study, a cold-adapted Pseudoalteromonas expression system was developed. A shuttle vector was constructed, and a conjugational transfer system between E. coli and psychrophilic strain Pseudoalteromonas sp. SM20429 was established. Based on the shuttle vector, three reporter vectors were constructed to compare the strength of the cloned promoters at low temperature. The promoter of xylanase gene from Pseudoalteromonas sp. BSi20429 was chosen due to its high activity at 10–15°C. An expression vector pEV containing the chosen promoter, multiple cloning sites and a His tag was constructed for protein expression and purification. With pEV as expression vector and SM20429 as the host, a cold-adapted protease, pseudoalterin, which cannot be maturely expressed in E. coli, was successfully expressed as an active extracellular enzyme when induced by 2% oat spelt xylan at 15°C for 48 h. Recombinant pseudoalterin purified from the culture by Ni affinity chromatography had identical N-terminal sequence, similar molecular mass and substrate specificity as the native pseudoalterin. In addition, another two cold-adapted enzymes were also successfully expressed by this system. Our results indicate that this cold-adapted Pseudoalteromonas expression system will provide an alternative choice for protein expression, especially for the Pseudoalteromonas proteins intractable for the E. coli system.

Highlights

  • The Escherichia coli expression system is the most commonly used system for expressing recombinant proteins

  • There are still many proteins that are difficult to express via a recombinant protein expression system due to their low thermostability, toxicity to the host cell or tendency to form inclusion bodies

  • To express cold-adapted proteins, Ferrer et al expressed the chaperones Cpn60 and Cpn10 of a psychrophilic bacterium in E. coli so that E. coli could grow at a low temperature[30, 31]

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Summary

Introduction

The Escherichia coli expression system is the most commonly used system for expressing recombinant proteins. The E. coli expression system is not suitable for all proteins. Some cold-adapted proteins are not expressed well in E. coli at 37°C due to their low thermostability. Reducing the induction temperature may improve the expression of some cold-adapted proteins [1], it is not always effective and the expression time can be prolonged at a low temperature. For these reasons, it is necessary to develop alternative expression systems to produce proteins that are difficult to express via the E. coli expression system

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