Cell-Free Protein Expression
Choose Type:
- Based on my application, should I use the NEBExpress® Cell-free E. coli Protein Synthesis System (NEB #E5360) or the PURExpress® In Vitro Protein Synthesis Kit (NEB #E6800)?
- What is the difference between NEBExpress® Cell-free E. coli Protein Synthesis System and the PURExpress In Vitro Protein Synthesis Kit?
- Protein Synthesis Reaction using PURExpress (E6800)
- Quick Start Protocol for NEBExpress® Cell-free E. coli Protein Synthesis System
- Determination of Protein Synthesis Yield with PURExpress (E3313, E6800, E6840, E6850)
- Protein Synthesis Reaction using PURExpress® ∆ (aa, tRNA) Kit (E6840)
- Purification of Synthesized Protein using Reverse His-tag Purification
- Protein Synthesis Reaction using PURExpress® ∆ RF123 Kit (E6850)
- Protein Synthesis Reaction using PURExpress (E3313)
- Analysis of Synthesized Protein using PURExpress (E6800)
- Analysis of Synthesized Protein using PURExpress (E6840)
- Analysis of Synthesized Protein using PURExpress (E3313)
- Measurement of 35S-Methionine Incorporation by TCA Precipitation and Yield Determination using PURExpress
- Protocol for Avoiding Rnase Contamination using Murine Rnase Inhibitor (M0314)
- Poly(A) Tailing of RNA using E. coli Poly(A) Polymerase (NEB# M0276)
- Analysis of Synthesized Protein using PURExpress (E6850)
- PURExpress Disulfide Bond Enhancer (E6820)
- Use of the PURExpress® in vitro Protein Synthesis Kit, Disulfide Bond Enhancer and SHuffle® Competent E. coli for heterologous in vitro and in vivo cellulase expression.
- Using the PURExpress® In Vitro Protein Synthesis Kit for Heterologous In Vitro Expression and Functional Screening of FMN-dependent Oxidoreductase Variants
- NEBExpress® Cell-free E. coli Protein Synthesis System
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Avoid Common Obstacles in Protein Expression
Read how to avoid common obstacles in protein expression that prevent interactions with cellular machinery.
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The Future of Cell-Free Protein Synthesis
Cell-free protein synthesis has the potential to become one of the most important high throughput technologies for functional genomics and proteomics.
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Over 40 years in protein expression and purification – a historical perspective
This article provides an overview of the advances in protein expression and purification methodology over the past 40 years.
- Protein Expression & Purification Brochure
- Purification Beads, Columns and Resins Brochure
- PURExpress® vs. NEBExpress® Application Chart
- Protein Expression and Purification Selection Chart
Feature Articles
Brochures
Selection Tools
- His-Tagged Translation Factors
- Initiation Factors (IF1, IF2, IF3)
- Elongation Factors (EF-Tu, EF-Ts, EF-G)
- Release Factors (RF1, RF2, RF3)
- Ribosome Recycling Factor
- 20 Aminoacyl tRNA synthetases
- Methionyl tRNA formyltransferase
- E. coli Ribosomes
- E. coli tRNAs
- Energy Regeneration System
- NTPs, Amino Acids, Salts, Buffer
In addition, recombinant T7 RNA polymerase is used to couple transcription to translation. The PURE system represents an important step towards a totally defined in vitro transcription/translation system, thus avoiding the “black box” nature of the cell extract-based systems.
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This product is intended for research purposes only. This product is not intended to be used for therapeutic or diagnostic purposes in humans or animals.