Presentation is loading. Please wait.

Presentation is loading. Please wait.

Heterologous protein production in Escherichia coli: strategies and challenges François Baneyx Department of Chemical Engineering and Bioengineering University.

Published byWilfrid Morrison Modified over 9 years ago

Similar presentations

Presentation on theme: "Heterologous protein production in Escherichia coli: strategies and challenges François Baneyx Department of Chemical Engineering and Bioengineering University."— Presentation transcript:

1 Heterologous protein production in Escherichia coli: strategies and challenges François Baneyx Department of Chemical Engineering and Bioengineering University of Washington, Seattle WA

2 Bottlenecks to efficient protein expression in E. coli Promoter choice and design Inefficient transcriptionNo or little protein synthesized Codon usage Transcript stability Transcript secondary structure Improper secondary, tertiary or quaternary structure formation Inefficient or improper disulfide bridge formation Inefficient isomerization of peptidyl-prolyl bonds Inefficient translationNo or little protein synthesized Inefficient folding (cytoplasmic or periplasmic) Inefficient membrane insertion/translocation ToxicityCell death l l l l l u u u u u u u Aggregation or degradation

3 Escherichia coli Intracellular environment and protein synthesis

4 Folding modulators of E. coli Molecular chaperones are a class of proteins that help other polypeptides fold or reach a proper cellular location without becoming part of the final structure l Many - but not all - cytoplasmic chaperones are heat shock proteins transcribed at high level by E  32 The  32 regulon consists of ≈ 30 heat shock proteases and chaperones: DnaK-DnaJ-GrpE (Hsp70/40 family) GroEL-GroES (Hsp60/10 family) ClpB (Hsp100 family) HtpG (Hsp90 family) IbpA-IbpB (sHsp family) Hsp33 Hsp31 Foldases are a class of proteins that accelerate rate-limiting steps along the folding pathway l Thiol/disulfide oxidoreductases catalyze disulfide formation and isomerization Peptidyl-prolyl cis/trans isomerases catalyze the trans to cis isomerization of X-Pro bonds u u u u u u u “Folding” chaperones “Disaggregating” chaperone “Holding” chaperones ?

5 Folding chaperones in de novo folding Aggregate 3' 5' K TF J Native K ADP GrpE J GroEL GroES ATP ADP ATP ADP GrpE

6 DnaK-DnaJ co-expression and low temperatures improve preS2-S’-  -galactosidase folding 30ºC 37ºC 42ºC tacpreS2lacZS’

7 GroEL-GroES co-expression and low temperatures improve leptin folding

8 However, this strategy does not always work

9 aa a 3' 5' K TF J Native K ADP GrpE J GroEL GroES ATP ADP ATP ADP GrpE IbpA/B Hsp33 Hsp31 ClpB Disaggregation Holding Chaperone-assisted protein folding

10 E. coli Hsp31 mechanism of action T decrease T increase

11 To His-tag or not to His-tag...

12 Transfer of growing cells from 37 to 10-15 o C triggers the cold shock response l Cells growth and protein synthesis stop and resume at lower rates after 1-4h A subset of cold shock proteins (CspA, CspB, CspG, CspI, CsdA, RbfA) is induced over 10-fold A subset of proteins involved in housekeeping transcriptional/translational control (IF-2, NusA, HN-S, Pnp, GyrA, RecA) is induced 2-10-fold The cold-shock response and CspA

13 Use of rbfA mutants abolishes cspA promoter repression

14 cspA-driven transcription allows the production of a toxic and proteolytically-sensitive protein in full-length form

15 cspA-driven transcription allows the production of a poorly translated protein in a partially soluble form

16 pMM101 + pTG10pMM101 + pDnaK/JpMM101 + pGroESL A combination of cspA-driven transcription and DnaK/J co-expression transiently increases IL21 solubility

17 Making disulfide bridges in the E. coli cytoplasm Stable disulfide bonds form in the cytoplasm of surprisingly healthy trxB and trxB gor (sup) strains Incubation of trxB cells at low temperatures greatly increases oxidation efficiency Certain active site mutants of thioredoxin 1 (trxA) are able complement a null mutation in yeast PDI Purified thioredoxin exhibits PDI activity in vitro

18 ColE1-compatible plasmids for cspA-driven synthesis of thioredoxin 1 active site mutants

19 37ºC to A 600 ≈ 0.4 IPTG 1h at 37ºC 37ºC 15ºC IAA Wild typetrxBtrxB gor Effect of mutant thioredoxin co-expression on the recovery of active MalG17-PhoA in wt, trxB and trxB gor cells

20 Low temperature co-expression of thioredoxin 1 CGHC mutant in an oxidizing background enhances IL21 solubility and stability

21 Acknowledgments Dr. Jeff Thomas Paulene Quigley Dr. Jess VasinaWim Hol Mirna Mujacic Dr. Kerri Cooper Joanne Palumbo Stephanie Richardson Dr. Konstantin Korotkov Yan Brodsky Dr. M.S.R. Sastry National Science Foundation American Cancer Society ZymoGenetics

Download ppt "Heterologous protein production in Escherichia coli: strategies and challenges François Baneyx Department of Chemical Engineering and Bioengineering University."

Similar presentations

ANFINSEN: AMINO ACID SEQUENCE DETERMINES PROTEIN SHAPE.

ANFINSEN: AMINO ACID SEQUENCE DETERMINES PROTEIN SHAPE.
Chapter 18 Regulation of Gene Expression in Prokaryotes

Chapter 18 Regulation of Gene Expression in Prokaryotes
SCID Living Process: From Molecules to Cell

SCID Living Process: From Molecules to Cell
Experimental Approach for Protein Folding C. P. Chou Department of Chemical Engineering.

Experimental Approach for Protein Folding C. P. Chou Department of Chemical Engineering.
Three major factors influence protein expression Host Growth Conditions Vector Thus, you should consider the solutions for YOUR expression problems at.

Three major factors influence protein expression Host Growth Conditions Vector Thus, you should consider the solutions for YOUR expression problems at.
Protein Synthesis Genome - the genetic information of an organism DNA – in most organisms carries the genes RNA – in some things, for example retroviruses.

Protein Synthesis Genome - the genetic information of an organism DNA – in most organisms carries the genes RNA – in some things, for example retroviruses.
Expressing disulphide-rich (recombinant) proteins in E. coli Kovilen Sawmynaden

Expressing disulphide-rich (recombinant) proteins in E. coli Kovilen Sawmynaden
Chapter 17 Regulation of gene expression in bacteria: lac Operon of E. coli trp operon of E. coli.

Chapter 17 Regulation of gene expression in bacteria: lac Operon of E. coli trp operon of E. coli.
CHAPTER 8 Metabolic Respiration Overview of Regulation Most genes encode proteins, and most proteins are enzymes. The expression of such a gene can be.

CHAPTER 8 Metabolic Respiration Overview of Regulation Most genes encode proteins, and most proteins are enzymes. The expression of such a gene can be.
Molecular Chaperones The Hsp70 Super-family. Pathways For Protein Folding.

Molecular Chaperones The Hsp70 Super-family. Pathways For Protein Folding.
2004 PP&CW Optimization of protein expression and solubility Alternative and novel prokaryotic expression systems Eukaryotic expression systems Methods.

2004 PP&CW Optimization of protein expression and solubility Alternative and novel prokaryotic expression systems Eukaryotic expression systems Methods.
The Unfolded Protein Response in C. Elegans Biology 314, Advanced Cell Biology, Spring 2004.

The Unfolded Protein Response in C. Elegans Biology 314, Advanced Cell Biology, Spring 2004.
MOLECULAR CHAPERONES The Department of Biochemistry of Medical Faculty Presents now Edited by Attila Sandor.

MOLECULAR CHAPERONES The Department of Biochemistry of Medical Faculty Presents now Edited by Attila Sandor.
Bacterial Physiology (Micr430)

Bacterial Physiology (Micr430)
Posttranslational modification, folding, assembly, and death 1.Covalent modifications 1)Proteolytic processing: posttranslational processing is called.

Posttranslational modification, folding, assembly, and death 1.Covalent modifications 1)Proteolytic processing: posttranslational processing is called.
 What actually happens inside the cell in response to genetic engineering, not just how we manipulate and alter cell  Can use to predict responses of.

 What actually happens inside the cell in response to genetic engineering, not just how we manipulate and alter cell  Can use to predict responses of.
PET for PAT? Process Evaluation Tools for Process Analytical Technologies in Manufacture of Biological Products Charles L. Cooney Department of Chemical.

PET for PAT? Process Evaluation Tools for Process Analytical Technologies in Manufacture of Biological Products Charles L. Cooney Department of Chemical.
Gene Regulation in Prokaryotes. Outline of Chapter 16 There are many steps in gene expression and regulation can occur at any one of them There are many.

Gene Regulation in Prokaryotes. Outline of Chapter 16 There are many steps in gene expression and regulation can occur at any one of them There are many.
Folding Experiments2 UV absorbance of aromatic amino acids.

Folding Experiments2 UV absorbance of aromatic amino acids.
Enzyme Biosynthesis Tri Rini Nuringtyas. As we remember ! Most enzymes are proteins so As we remember ! Most enzymes are proteins so Mechanism of enzyme.

Enzyme Biosynthesis Tri Rini Nuringtyas. As we remember ! Most enzymes are proteins so As we remember ! Most enzymes are proteins so Mechanism of enzyme.

Similar presentations

Ads by Google