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Protein expression for structural studies

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Background

Protein structure determination is an essential tool for studying protein function, and assists the design of novel drugs. The goal of the Israel Structural Proteomics Center (ISPC) is to determine the structures of proteins related to human health in their functional context http://www.weizmann.ac.il/ISPC[1]. One of the bottlenecks encountered, primarily for eukaryotic proteins, is the production of soluble and correctly folded proteins suitable for crystallization trials. In order to overcome this obstacle, we have applied various expression strategies. E. coli is the expression system of choice, in which different parameters are tested in parallel. In cases in which post-translational modification is essential for obtaining a functional protein, eukaryotic expression systems such as Pichia pastoris or baculovirus are being employed.

Results

Each target is expressed in parallel in several expression vectors in E. coli. Design of vectors, which harbor the same restriction sites and code for a cleavable N-terminal His-tag facilitate DNA cloning and purification, respectively. When necessary, a target protein is co-expressed with its natural binding partners or with molecular chaperones. Results of a representative protein expression experiment are shown below. Figure 1 demonstrates the effect of co-expression of molecular chaperones in E. coli on protein solubility. Levels of soluble protein were significantly increased when the protein was co-expressed with certain combinations of molecular chaperones (Figure 1, C and 1D).

Figure 1
figure1

Protein co-expression with molecular chaperones in E. coli. Arrow indicates the position of the protein. A- Expression without chaperones; B–D: Expression with various combinations of molecular chaperones; P, Pellet; S, Soluble fraction; N, Protein following capture on Ni-beads.

Conclusion

Rapid evaluation of protein expression under small-scale culture conditions is essential for implementing an efficient high-throughput protein production process. Parallel utilization of a repertoire of protein expression strategies resulted in a significant increase in the number of soluble proteins obtained.

References

  1. 1.

    Albeck S, Burstein Y, Dym O, Jacobovitch Y, Levi N, Meged R, Michael Y, Peleg Y, Prilusky J, Schreiber G, Silman I, Unger T, Sussman JL: Three-dimensional structure determination of proteins related to human health in their functional context at the Israel Structural Proteomics Center (ISPC). Acta Crystallogr D Biol Crystallogr. 2005, 61: 1364-72. 10.1107/S0907444905023565.

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Author information

Correspondence to Yoav Peleg.

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Open Access This article is published under license to BioMed Central Ltd. This is an Open Access article is distributed under the terms of the Creative Commons Attribution 2.0 International License (https://creativecommons.org/licenses/by/2.0), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

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Peleg, Y., Albeck, S., Burstein, Y. et al. Protein expression for structural studies. Microb Cell Fact 5, P40 (2006) doi:10.1186/1475-2859-5-S1-P40

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Keywords

  • Soluble Protein
  • Molecular Chaperone
  • Pichia
  • Pichia Pastoris
  • Eukaryotic Protein