Biocatalysts and Bioreactor Design

Simplifying and streamlining Escherichia coli-based cell-free protein synthesis

  1. William C. Yang1,†,¶,
  2. Kedar G. Patel2,‡,¶,
  3. H. Edward Wong2,§,
  4. James R. Swartz1,2,*

Article first published online: 1 FEB 2012

DOI: 10.1002/btpr.1509

Issue

Biotechnology Progress

Biotechnology Progress

Volume 28, Issue 2, pages 413–420, March/April 2012

Additional Information

How to Cite

Yang, W. C., Patel, K. G., Wong, H. E. and Swartz, J. R. (2012), Simplifying and streamlining Escherichia coli-based cell-free protein synthesis. Biotechnol Progress, 28: 413–420. doi: 10.1002/btpr.1509

Author Information

  1. 1

    Dept. of Bioengineering, Stanford University, Stanford, CA 94305

  2. 2

    Dept. of Chemical Engineering, Stanford University, Stanford, CA 94305

  1. Biogen Idec Inc., 5000 Davis Drive, Research Triangle Park, NC 27709.

  2. Amyris Biotechnologies, Inc., 5885 Hollis Street, Suite 100, Emeryville, CA 94608.

  3. §

    Department of Chemical Engineering, University of Virginia, Charlottesville, VA 22904.

  1. William C. Yang and Kedar G. Patel contributed equally to this work

*Dept. of Bioengineering, Stanford University, Stanford, CA 94305

  1. William C. Yang and Kedar G. Patel contributed equally to this work

Publication History

  1. Issue published online: 10 APR 2012
  2. Article first published online: 1 FEB 2012
  3. Accepted manuscript online: 16 DEC 2011 02:04PM EST
  4. Manuscript Revised: 28 SEP 2011
  5. Manuscript Received: 30 JUN 2011

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Keywords:

  • streamline;
  • cell-free protein synthesis;
  • premix;
  • extract;
  • T7 RNA polymerase

Abstract

Escherichia coli cell-free protein synthesis (CFPS) uses E. coli extracts to make active proteins in vitro. The basic CFPS reaction mixture is comprised of four main reagent components: (1) energy source and CFPS chemicals, (2) DNA encoding the protein of interest, (3) T7 RNA Polymerase (RNAP) for transcription, and (4) cell extract for translation. In this work, we have simplified and shortened the protocols for preparing the CFPS chemical mixture, cell extract, and T7 RNAP. First, we streamlined the workflow for preparing the CFPS chemical solutions by combining all the chemicals into a single reagent mixture, which we call Premix. We showed that productive cell extracts could be made from cells grown in simple shake flasks, and we also truncated the preparation protocol. Finally, we discovered that T7 RNAP purification was not necessary for CFPS. Crude lysate from cells over-expressing T7 RNAP could be used without deleteriously affecting protein production. Using chloramphenicol acetyltransferase (CAT) as a model protein, we showed that these streamlined protocols still support high-yielding CFPS. These simplified procedures save time and offer greater accessibility to our laboratory's CFPS technology. © 2012 American Institute of Chemical Engineers Biotechnol. Prog., 2012

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