PURExpress® Disulfide Bond Enhancer

Catalog # Concentration Size List Price Quantity Your Price
E6820S 50 reactions $405.00
$364.50
Catalog # Size List Price Your Price
E6820S 50 reactions $405.00
$364.50
Catalog #
Qty:
 
*On-line ordering is for Canadian customers only. Web pricing is applicable only to orders placed online at www.neb.ca

The PURExpress® Disulfide Bond Enhancer is a proprietary blend of proteins and buffer components formulated to correctly fold target proteins with multiple disulfide bonds.

  • Promotes a proper disulfide bond pattern by assisting with the oxidation of cysteine thiols and correcting mis-oxidized substrates
  • Increase yields of soluble and active proteins relying on correct folding via disulfide bonding
  • Compatible for both PURExpress and other in vitro protein synthesis systems
  • Convenient to use by adding to an in vitro protein synthesis reaction at the time of set up
The PURExpress® Disulfide Bond Enhancer (PDBE) is a proprietary blend of proteins and buffer components designed to correctly fold target proteins with multiple disulfide bonds produced in PURExpress reactions. Added at the beginning of a reaction, the components promote a proper disulfide bond pattern by assisting with the oxidation of cysteine thiols and correcting mis-oxidized substrates. These enhancements can increase the yield of soluble and functionally active protein.

Figure 1: Figure 1
PURExpress Disulfide Bond Enhancer (PDBE) promotes proper folding of active vtPA, a truncated version of tissue plasminogen activator with 9 disulfide bonds, 8 of which are non-consecutive.

(A.) Reactions were set-up according to PURExpress specifications with the vtPA template DNA. After a two-hour incubation at 37°C, 5 µl of each reaction was used in an activity assay and cleavage of the chromogenic substrate was monitored for one hour. (B.) 2.5 µl of each reaction was resolved by SDS-PAGE and the gel stained with Coomassie Blue. The vtPA target protein is marked by a red arrow.

The addition of PDBE generates active protein. The difference in observed activity is due to disulfide bond folding, as measured by functional activity of the target, and is not due to differences in the amount of protein produced by PURExpress.
Figure 2: Figure 2
PURExpress Disulfide Bond Enhancer is optimized for use in PURExpress but also shows utility in S30 lysate-based IVTT kits from other suppliers. Reactions were set-up according to manufacturer's specifications with equivalent amounts of template DNA encoding a truncated version of tissue plasminogen activator (9 disulfide bonds, 8 non-consecutive). After a two-hour incubation, 5 µl of each reaction was used in an activity assay and cleavage of the chromogenic substrate was monitored for one hour.
Figure 3: Figure 3
PURExpress Disulfide Bond Enhancer promotes proper folding of active Gaussia Luciferase (GLuc) which contains 5 probable disulfide bonds. Reactions were set-up according to PURExpress specifications with equivalent amounts of template DNA encoding GLuc. After a two-hour incubation at 37°C, triplicate aliquots (2.5 µl) of each reaction were incubated with 50 µl of the GLuc substrate solution and the relative luminescence recorded after a 4 second counting window.
Reagents Supplied

The following reagents are supplied with this product:

NEB # Component Name Component # Stored at (°C) Amount Concentration
  PURExpress Disulfide Bond Enhancer 1 P6821AVIAL -20 1 x 0.05 ml 25 X
  Enhancer 2 B6822AVIAL -20 1 x 0.05 ml 25 X

Properties & Usage



Notes
  • PURExpress Disulfide Bond Enhancer has been optimized for use with NEB PURExpress Systems (NEB #E6800, E3313). However, it is compatible with bacterial S30 lysate-based IVTT systems from other suppliers (Fig. 2). As the formulation of other systems varies, all guidelines, protocols and FAQs related to PDBE are for use with the PURExpress System.
References
  • Harada R, Furumoto S, Yoshikawa T, Ishikawa Y, Shibuya K, Okamura N, Ishiwata K, Iwata R, Yanai K (2016). Synthesis and Characterization of 18F-Interleukin-8 Using a Cell-Free Translation System and 4-18F-Fluoro-L-Proline.. Journal of Nuclear Medicine. 57 (4), 634-639. DOI: 10.2967/jnumed.115.162602 PubMedID: 26742712
  • Horiya S, Bailey JK, Krauss IJ (2017). Directed Evolution of Gycopeptides Using mRNA Display.. Methods in Enzymology . DOI: 10.1016/bs.mie.2017.06.029 PubMedID: 28935113
  • Huang A, P.Q. Nguyen, J.C. Stark, M.K. Takahashi, N. Donghia, T. Ferrante, A.J. Dy, K.J. Hsu, R.S. Dubner, K. Pardee, M.C. Jewett and J.J. Collins (2018). Biobits™ Explorer: A modular synthetic biology education kit. Science Advances. 4 (8),
  • Mankowska, S.A., P. Gatti-Lafranconi, M. Chodorge, S. Sridharan, R.R. Minter and F. Hollfelder (2016). A Shorter Route to Antibody Binders via Quantitative in vitro Bead-Display Screening and Consensus Analysis. Scientific Reports. 6,
  • Pardee K, Slomovic S, Nguyen PQ, Lee JW, Donghia N, Burrill D, Ferrante T, McSorley FR, Furuta Y, Vernet A, Lewandowski M, Boddy CN, Joshi NS, Collins JJ (2016). Portable, On-Demand Biomolecular Manufacturing. Cell. 248-259 e212. DOI: 10.1016/j.cell.2016.09.013 PubMedID: 27662092
  • Price A.K., MacConnell A.B., Paegel B.M. (2014). Microfluidic bead suspension hopper. Analytical Chemistry. 86 (10), 5039-5044. DOI: 10.1021/ac500693r PubMedID: 24761972
  • Price A.K., MacConnell A.B., Paege B.M. (2016). hnuSABR: Photochemical Dose-Response Bead Screening in Droplets.. Analytical Chemistry. 88 (5), 2904-2911.
  • Ren G, Ke N, Berkmen M (2016). Use of the SHuffle Strains in Production of Proteins. Current Protocols in Protein Science. 85, DOI: 10.1002/cpps.11 PubMedID: 27479507
  • Tran D.T., Cavett V.J., Dang V.Q., Torres H.L., Paegel B.M. (2016). Evolution of a mass spectrometry-grade protease with PTM-directed specificity. Proceedings of the National Acadmey of Sciences of the United States of America. 113 (51), 14686-14691. DOI: 10.1073/pnas.1609925113 PubMedID: 27940920
Tech Tips
  • Titration of solutions 1 and 2 for optimal protein folding may be required. Start with 1 ul of each.
    Can be used with S30 lysates as well as PURExpress.
Quality Control Assay
Quality Control tests are performed on each new lot of NEB product to meet the specifications designated for it. Specifications and individual lot data from the tests that are performed for this particular product can be found and downloaded on the Product Specification Sheet, Certificate of Analysis, data card or product manual. Further information regarding NEB product quality can be found here.
Specifications
The Specification sheet is a document that includes the storage temperature, shelf life and the specifications designated for the product. The following file naming structure is used to name these document files: [Product Number]_[Size]_[Version]
Certificate of Analysis
The Certificate of Analysis (COA) is a signed document that includes the storage temperature, expiration date and quality controls for an individual lot. The following file naming structure is used to name these document files: [Product Number]_[Size]_[Version]_[Lot Number]
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