E. coli Protein Co-Expression Service

      • Overview
      • Service Details
      • Service Highlights
      • Related Services
      • Case Study
      • How to order
      Overview

      Service Number: PSLSJ002

      Multi-protein complexes, critical for cellular processes, rely on individual protein properties and inter-protein interactions. In prokaryotes, heterologous proteins often misfold and lose activity due to insufficient cofactors or post-translational modifications. E. coli co-expression technology simulates natural interaction environments by expressing multiple proteins simultaneously, yielding correctly folded, bioactive complexes. It is widely used in biochemical analysis, structural biology, and high-throughput screening, serving as an efficient, low-cost alternative to yeast or mammalian cell systems.

       

      BOT Bioscience offers professional E. coli protein co-expression services with advanced platforms and experience. Covering experimental design to protein identification, we provide customized solutions for diverse co-expression needs, ensuring efficient, active, and pure protein complexes to accelerate research.



      Service Details

      Phase

      Procedure

      Timeline

      Vector Design and Construction

      1.  Select co-expression strategies (single-vector/multi-vector systems);

      2.  Design combinations of promoters, tags, and replication origins;

      3.  Perform target gene cloning, vector digestion and ligation, sequencing verification, and integrate tags and regulatory elements

      1-2 weeks

      Host Preparation and Positive Clone Screening

      1.  Select suitable strains;

      2.  Prepare culture media and inducers;

      3.  Transform plasmids into host cells;

      4.  Obtain positive clones through resistance screening and PCR verification

      1 weeks

      Optimization of Expression Conditions and Large-Scale Cultivation

      1.  Conduct small-scale expression using 24/96-well plates and optimize induction conditions;

      2.  Scale up cultivation via shake flasks or fermenters

      1 weeks

      Protein Purification and Identification

      1.  Lyse cells by ultrasonic treatment/lysozyme, purify through affinity chromatography and remove impurity proteins;

      2.  Verify products by SDS-PAGE and Western blot, and confirm the function of the complex through activity determination

      1 weeks




      Service Highlights

      High-Efficiency Expression

      Cost-Effective Solution

      Guaranteed High Activity

      Flexible and Scalable


       

      In addition, we also provide a variety of Related Services, including

      E. Coli Protein Expression Service - BOT Bioscience

      Yeast Expression Service - BOT Bioscience

      Baculovirus-Insect Expression Service - BOT Bioscience

       

      References

      Haffke, M., Marek, M., Pelosse, M., Diebold, M. L., Schlattner, U., Berger, I., & Romier, C. (2014). Characterization and production of protein complexes by co-expression in Escherichia coli. In Structural Proteomics: High-Throughput Methods (pp. 63-89). New York, NY: Springer New York.

      Chen, H., Huang, R., & Zhang, Y. H. P. (2017). Systematic comparison of co-expression of multiple recombinant thermophilic enzymes in Escherichia coli BL21 (DE3). Applied microbiology and biotechnology, 101(11), 4481-4493.

      Busso, D., Peleg, Y., Heidebrecht, T., Romier, C., Jacobovitch, Y., Dantes, A., ... & Celie, P. H. (2011). Expression of protein complexes using multiple Escherichia coli protein co-expression systems: a benchmarking study. Journal of Structural Biology, 175(2), 159-170.


      Related Services
      Case Study
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