A rapid method for gene expression analysis, PURExpress® is a novel cell-free transcription/translation system reconstituted from the purified components necessary for E. coli translation.
PURExpress® is a registered trademark of New England Biolabs, Inc.
- Analysis of Synthesized Protein using PURExpress (E6800)
- Analysis of Synthesized Protein using PURExpress (E3313)
- Analysis of Synthesized Protein using PURExpress (E6840)
- Determination of Protein Synthesis Yield with PURExpress (E3313)
- Determination of Protein Synthesis Yield with PURExpress (E6800)
- Determination of Protein Synthesis Yield with PURExpress (E6840)
- Measurement of 35S-Methionine Incorporation by TCA Precipitation and Yield Determination using PURExpress
- Protein Synthesis Reaction using PURExpress (E3313)
- Protein Synthesis Reaction using PURExpress (E6800)
- Protein Synthesis Reaction using PURExpress® ∆ (aa, tRNA) Kit (E6840)
- PURExpress Disulfide Bond Enhancer (E6820)
- Purification of Synthesized Protein using Reverse His-tag Purification
- Analysis of Synthesized Protein using PURExpress (E6850)
- Protein Synthesis Reaction using PURExpress® ∆ RF123 Kit (E6850)
- Determination of Protein Synthesis Yield with PURExpress (E6850)
- Protocol for Avoiding Rnase Contamination using Murine Rnase Inhibitor (M0314)
- Poly(A) Tailing of RNA using E. coli Poly(A) Polymerase (NEB# M0276)
- 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
Avoid Common Obstacles in Protein Expression
Read how to avoid common obstacles in protein expression that prevent interactions with cellular machinery.
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.
- Protein Expression & Purification Brochure
- Protein Expression and Purification Selection Chart
- Shen, B.W., Heiter, D.F., Chan, S.H., Wang, H., Xu, S.Y., Morgan, R.D., Wilson, G.G. and Stoddard, B.L. (2010) Unusual target site disruption by the rare-cutting HNH restriction endonuclease PacI Structure; 18, 734-743 . PubMedID: 20541511
- Noto, T., Kurth, H., Kataoka, K., Aronica, L., DeSouza, L., Siu, K., Pearlman, R., Gorovsky, M. and Mochizuki, K. (2010) The tetrahymena argonaute-binding protein Giw1p directs a mature argonaute-siRNA complex to the nucleus Cell; 140 , 692-703 . PubMedID: 20211138
- Theerthagiri, G., Eisenhardt, N., Schwarz, H. and Antonin, W. (2010) The nucleoporin Nup188 controls passage of membrane proteins across the nuclear pore complex J Cell Biol; 189, 1129-1142 . PubMedID: 20566687
- Ueda, T., Kanamori, T., Ohashi, H. (2010) Ribosome display with the PURE technology Methods Mol Biol; 607, 219-25 . PubMedID: 20204860
- Asahara, H. and Chong, S. (2010) In vitro genetic reconstruction of bacterial transcription initiation by coupled synthesis and detection of RNA polymerase holoenzyme Nucleic Acids Res; 38, e141 . PubMedID: 20457746
- Midon, M., Schäfer, P., Pingoud, A., Ghosh, M., Moon, A.F., Cuneo, M.J., London, R.E. and Meiss, G. (2011) Mutational and biochemical analysis of the DNA-entry nuclease EndA from Streptococcus pneumoniae Nucleic Acids Res; 39, 623-634 . PubMedID: 20846957
- Feng, Z., et al. (2011) Optimization of Medium Composition for Production of Recombinant Calf Chymosin from Kluyveromyces lactis in Submerged Fermentation J Northeast Agric Univ; 18, 56-62.
- Yamamoto, S., Izumiya, H., Mitobe, J., Morita, M., Arakawa, E., Ohnishi, M. and Watanabe, H. (2011) Identification of a chitin-induced small RNA that regulates translation of the tfoX gene, encoding a positive regulator of natural competence in Vibrio cholerae J Bacteriol; 193, 1953-1965 . PubMedID: 21317321
- De Masi, F., Grove, C.A., Vedenko, A., Alibés, A., Gisselbrecht, S.S., Serrano, L., Bulyk, M.L. and Walhout, A.J. (2011) Using a structural and logics systems approach to infer bHLH-DNA binding specificity determinants Nucleic Acids Res; 18-Feb , PubMedID: 21335608
- Lamichhane, T.N., Abeydeera, N.D., Duc, A.C., Cunningham, P.R. and Chow, C.S (2011) Selection of peptides targeting helix 31 of bacterial 16S ribosomal RNA by screening M13 phage-display libraries Molecules; 16, 1211-1239 . PubMedID: 21278676
- Iizuka, R., Yamagishi-Shirasaki, M. and Funatsu, T. (2011) Kinetic study of de novo chromophore maturation of fluorescent proteins Anal Biochem; Apr 1. , PubMedID: 21459075
- Panayiotou, C., Solaroli, N., Xu, Y., Johansson, M. and Karlsson, A. (2011) The characterization of human adenylate kinases 7 and 8 demonstrates differences in kinetic parameters and structural organization among the family of adenylate kinase isoenzymes Biochem J; 2433 , 527-534 . PubMedID: 21080915
- Rosner, K., Kasprzak, M.F., Horenstein, A.C., Thurston, H.L., Abrams, J., Kerwin, L.Y., Mehregan, D.A. and Mehregan, D.R. (2011) Engineering a waste management enzyme to overcome cancer resistance to apoptosis: adding DNase1 to the anti-cancer toolbox Cancer Gene Ther; 18, 346-357 . PubMedID: 21233855
- Narayan, V., Pion, E., Landré, V., MÃ¼ller, P. and Ball, K.L. (2011) Docking-dependent ubiquitination of the interferon regulatory factor-1 tumor suppressor protein by the ubiquitin ligase CHIP J Biol Chem; 286, 607-619 . PubMedID: 20947504
- Handa, Y., Inaho, N. and Nameki, N. (2011) YaeJ is a novel ribosome-associated protein inEscherichia coli that can hydrolyze peptidyl-tRNA on stalled ribosomes Nucleic Acids Res; 39, 1739-1748 . PubMedID: 21051357
- Shimizu, Y. and Ueda, T. (2006) SmpB triggers GTP hydrolysis of elongation factor Tu on ribosome by compensating for the lack of codon-anticodon interaction during trans-translation initiation J Biol Chem; 281, 15987-15996. PubMedID: 16601123
- Muto, H., Nakatogawa, H., and Ito, K. (2006) Genetically Encoded but Nonpolypeptide Prolyl-tRNA Functions in the A Site for SecM-Mediated Ribosomal Stall Mol Cell; 22, 545-552. PubMedID: 16713584
- Kaiser, C.M., Chang, H.C., Agashe, V.R., Lakshmipathy, S.K., Etchells, S.A., Hayer-Hartl, M., Hartl, F.U. and Barral, J.M. (2006) Real-time observation of trigger factor function on translating ribosomes Nature; 444, 455-460. PubMedID: 17051157
- Villemagne, D., Jackson, R. and Douthwaite, J.A. (2006) Highly efficient ribosome display selection by use of purified components for in vitro translation J Immunol Methods; 313, 140-148. PubMedID: 16730021
- Shimizu, Y. Kanamori, T. and Ueda, T. (2005) Protein synthesus by pure translation systems Methods; 36, 299-304. PubMedID: 16076456
- Ying, B.W., Taguchi, H., Kondo, M. and Ueda, T. (2005) Co-translational involvement of the chaperonin GroEL in the folding of newly translated polypeptides J Biol Chem; 280, 12035-12040. PubMedID: 15664980
- Kuruma, Y., Nishiyama, K., Shimizu, Y., Muller, M and Ueda, T. (2005) Development of a minimal cell-free translation system for the synthesis of presecretory and integral membrance proteins Biootechnol Prog; 21, 1243-1251. PubMedID: 16080708
- Sando, S., Kanatani, K., Sato, N., Matsumoto, H. Hohsaka, T. and Aoyama, Y. (2005) A small-molecule-based approach to sense codon-templated natural-unnatural hybrid peptides. Selective silencing and reassignment of the sense codon by orthogonal reacylation stalling at the single-codon level J Am Chem Soc; 127, 7998-7999. PubMedID: 15926808
- Feng, Y. and Cronan, J. E. (2009) A new member of the Eschericia coli fad regulon: transcriptional regulation of fadM (ybaW) J Bacteriol; 191, 6320-6328 . PubMedID: 19684132
- Talabot-Ayer, D., Lamacchia, C., Gabay, C., and Palmer, G. (2009) Interleukin-33 is biologically active independently of Caspase-1 cleavage J Biol Chem; 284, 19420-19426 . PubMedID: 19465481
- Solaroli, N., Panayiotou, C., Johansson, M., and Karlsson, A. (2009) Identification of two active functional domains of human adenylate kinase 5 FEBS Lett; 583, 2872-2876 . PubMedID: 19647735
- Estevez-Torres, A., Crozatier, C., Diguet, A., Hara, T., Saito, H., Yoshikawa, K., and Baigl, D. (2009) Sequence-independent and reversible photocontrol of transcription/expression systems using a photosensitive nucleic acid binder Proc Natl Acad Sci U S A; 106, 12219-12223 . PubMedID: 19617550
- Zheng, Y., Posfai, J., Morgan, R. D., Vincze, T., and Roberts, R.J. (2009) Using shotgun sequence data to find active restriction enzyme genes Nucleic Acids Res; 37, el . PubMedID: 18988632
- Tanner, D., Cariello, D., Woolstenhulme, C., Broadbent, M. and Buskirk, A. (2009) Genetic identification of nascent peptides that induce ribosome stalling J Biol Chem; 284, 34809-34818 . PubMedID: 19840930
- Shimizu, Y., Inoue, A., Tomari, Y., Suzuki, T., Yokogawa, T., Nishikawa, K. and Ueda, T. (2001) Cell-free translation reconstituted with purified components Nat�Biotechnol; 19, 751-755. PubMedID: 11479568
- Murtas, G., Kuruma, Y., Bianchini, P., Diaspro, A., and Luisi, P.L. (2007) Protein synthesis in liposomes with a minimal set enzymes Biochem Biophys Res Commun; 363, 12-17 . PubMedID: 17850764
- Ohta, A., Murakami, H., Higashimura, E., and Suga, H. (2007) Synthesis of Polyester by Means of Genetic Code Reprogramming Chem Biol; 14, 1315-1322 . PubMedID: 18096500
- Sharma, C.M., Darfeuille, F., Plantinga, T.H., and Vogel, J. (2007) A small RNA regulates multiple ABC transporter mRNA's by targeting C/A-rich elements inside and upstream of ribosome-binding sites Genes Dev; 21, 2804-2817. PubMedID: 17974919
- Subtelny. A. O.,Hartman, M. C. T., and Szostak, J. W. (2008) Ribosomal Synthesis of N-Methyl Peptides J Am Chem Soc; 130, 6131-6136 . PubMedID: 18402453
- Sako, Y., Goto, Y., Murakami, H., and Suga, H. (2008) Ribosomal Synthesis of Peptidase-Resistant Peptides Closed by a Nonreducible Inter-Side-Chain Bond ACS Chem Biol; 3, 241-249 . PubMedID: 18338852
- Vazquez-Laslop, N., Thum, C., and Mankin, A.S. (2008) Molecular Mechanism of Drug-Dependent Ribosome Stalling Mol Cell; 30, 190-202 . PubMedID: 18439898
- Uemura, S., Iizuka, R., Ueno, T., Shimizu, Y., Taguchi, H., Ueda, T., Puglisi. J., and Funatsu, T. (2008) Single molecule imaging of full protein synthesis by immobilized ribosomes Nucleic Acids Res; 36, e90 . PubMedID: 18511463
- Kazuta, Y., Adachi, J., Matsuura, T., Ono, N., Mori, H. and Yomo T. (2008) Comprehensive Analysis of the Effects of Eschericia coli ORF's on Protein Translation Reaction Mol Cell Proteomics; 7, 1530-1540 . PubMedID: 18453339
- 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.
This product is covered by one or more patents, trademarks and/or copyrights owned or controlled by New England Biolabs, Inc (NEB).
While NEB develops and validates its products for various applications, the use of this product may require the buyer to obtain additional third party intellectual property rights for certain applications.
For more information about commercial rights, please email us at [email protected].
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.
Watch this tutorial explaining the streamlined workflow for our new NEBExpress® Cell-free Protein Synthesis System to learn how you can easily synthesize your protein in as little as 2 to 4 hours.
NEB has a long history in recombinant protein expression and has developed a wide array of solutions for proteins that are difficult to express.