RTS Wheat Germ
RTS Wheat Germ System
Translation initiation in eukaryotes is a complex process
There are two mechanisms of translation initiation:
  • Cap-dependent
  • Cap-independent
wheat_a
The 40 S ribosomal subunit, together with certain eukaryotic initiation factors (eIF‘s) binds to the 5‘ terminal m7GpppN and scans the untranslated region (UTR) until the AUG (protein synthesis initiation) codon is reached. The joining of the 60 S subunit, results in the formation of the 80 S initiation complex, which includes the initiator tRNA.
Translation initiation in RTS Wheat Germ is a cap-independent process
In order to improve initiation of protein synthesis, RTS Wheat Germ uses a newly developed IRES- like element, which is, though non-viral, as efficient as the strongest known translational enhancers.
wheat_b
Certain mRNAs reveal internal ribosomal entry sites (IRES), usually in the 5‘- UTR. These IRES containing mRNAs are not subject to some of the complex regulatory mechanisms involved in cap-dependent translation. IRES mediated translation initiation is typically found in mRNAs translated under conditions of cellular stress. (F stands for additional protein factor(s), binding to IRES, involved in internal initiation.)
For further reading we recommend: Kapp, L.D. & Lorsch, J.R.:The molecular mechanism of eukaryotic translation. Ann. Rev. in Biochem. 73, 657, 2004.

Transcription and translation in eukaryotic lysates have very different Mg 2+ optima. Highly efficient protein synthesis therefore normally requires the separate preparation of mRNA ( at high [Mg 2+] ) prior to the translation ( at low [Mg 2+] ). Consequently, eukaryotic in vitro coupled transcription-translation can normally not be brought to preparative yields in one and the same reaction.
The RTS Wheat Germ Kits overcome this hurdle by using the Continuous Exchange Cell-Free technology, which allows to go from high to low [Mg 2+] in the course of the same reaction via dialysis. As a consequence, yields of up to 1mg per ml are reached. (see Fig. Protein Synthesis Level).
The environment provided by the wheat germ lysate has been shown to be much better suited for the expression of eukaryotic proteins in terms of reaction kinetics and polypeptide folding, leading to much higher success rates and solubilities than those found when using E. coli lysates.

Important notes:

  • Like RTS E. coli, RTS Wheat Germ in the absence of further modifications, cannot perform the following post-translational modifications: glycosylation; formation of disulfide bonds; cleavage of signal sequences.
  • In contrast to RTS 100 E. coli HY Kit, it is not recommended to run RTS 100 Wheat Germ reactions in batch (=non-CECF) mode without the RTS ProteMaster Instrument, because under these conditions the expression reaction will stop after a few hours and final protein yields will be significantly lower. Batch mode could only be used with radiolabeled amino acids.

Accelerate protein expression

  • The Wheat Germ System does not require rational gene design (ProteoExpert), because of higher initial success rates.

  • Rapidly generate expression templates by PCR with the RTS Wheat Germ Linear Template Generation Set, His6-tag, and then express them with the RTS 100 Wheat Germ CECF kit and get micrograms of expressed protein per reaction in just one day.

  • Start with circular or linear DNA templates (or with mRNA - ideally capped - *) as described in the Workflow Overview.
    *If the gene of interest is cloned in other T7 promotor containing vectors than RTS pIVEX Wheat Germ, we strongly recommend to generate capped mRNA first, with the T7 Cap Scribe Kit (Cat.No. 1581066), and to add the resulting mRNA exogeneously to the RTS Wheat Germ reaction mix.

Workflow Overview

Perform high-throughput screening

  • Quickly and easily screen many sequences with especially designed array-like CECF devices:
  
 
RTS 100 Wheat Germ reactions are performed in two-chamber devices, for insertion into the RTS ProteoMaster instrument.

A frame with 3 arrays (8 CECF reaction chambers each) is delivered with the kit.
RTS Wheat Germ Technology
The RTS Wheat Germ reaction kits use CECF technology to reach unprecedented yields in 24 hour reactions.
A two-chamber reaction device allows production of up to 1mg protein per ml. Transcription and translation take place simultaneously in the 50 µl (RTS 100 WG CECF Kit), respectively 1 ml (RTS 500 WG CECF Kit) reaction compartments of the reaction device. Substrates and energy components needed for a sustained reaction are continuously supplied via a semipermeable membrane. At the same time, potentially inhibitory reaction by-products are diluted since they diffuse through the same membrane into the 1ml (RTS 100 WG CECF Kit) or 10 ml (RTS 500 WG CECF Kit) feeding compartments. In contrast to traditional batch systems, CECF conditions allow protein synthesis to continue for 24 hours. Yields may reach up to several hundred µgs of newly synthesised protein, in reactions with PCR-generated linear template. If vectors or exogenously added capped mRNA templates are applied, yields can reach a milligram.
RTS 100 Wheat Germ CECF Kit
The RTS 100 Wheat Germ CECF Kit - for use in the RTS Proteomaster Instrument to express up to 1 mg of protein /ml.
Use the RTS 100 Wheat Germ CECF Kit (24 reactions, 50 µl each) for small-scale expression with yields of up to 50 µg of protein per reaction. It can be used to screen templates and easily express numerous proteins in a high-throughput.
Comparison RTS 100 E. coli - RTS 100 Wheat Germ
Please consider that, RTS 100 E. coli and RTS 100 Wheat Germ Kits are carried out under different conditions (see comparison table). With the overall productivity of eukaryotic lysates being significantly lower than in E. coli, yields in the same range can only be reached with longer reaction times. This, in turn, is only possible under CECF conditions, since normal batch reactions stop after only a few hours when inhibitory reaction by-products accumulate. Since CECF conditions can only be maintained stable inside the RTS ProteoMaster, this instrument is required for reliable and reproducible results with RTS 100 Wheat Germ.
RTS 500 Wheat Germ CECF Kit - New
The RTS 500 Wheat Germ CECF Kit - for use in the RTS Proteomaster Instrument to express up to 1 mg of protein /ml. RTS 500 Wheat Germ reactions are performed in RTS 500 ProteoMaster devices :

Schematic of the RTS 500 Wheat Germ CECF Device and illustration of the CECF principle invented by A. Spirin (1988).
Use the RTS 500 Wheat Germ CECF Kit for scaled-up expressions of circular or linear templates, yielding up to 1 mg per reaction (1ml) in 24 hours. For comparison to the RTS E. coli scale-up kits, please see comparison table.
Application
Use RTS Wheat Germ if your main interest is to:
  • express particularly eukaryotic proteins for functional studies, without prior sequence optimization
     
  • benefit from the effect of eukaryotic chaperones on product solubility
     
  • synthesize proteins in a molecular weight range of up to 200 kDa
     
  • produce proteins that couldn´t be expressed in a cell-based E. coli system
     
  • express proteins that are insoluble in RTS E. coli - even in the presence of chaperones
     
  • use CECF conditions during all reaction scales, to make sure you work under reliable and reproducible conditions of seamless scale-up
     
  • alternatively use DNA or RNA as templates
     
  • synthesize truncated protein variants for epitope or functional domain mapping
Ordering Information
Product Name Cat. No. Pack size
  RTS 100 Wheat Germ CECF Kit
Each kit contains an optimized wheat germ lysate, reaction mixture, 19 amino acids mix (without methionine), methionine, reconstitution buffer, GUS control DNA, and 24 CECF reaction chambers grouped together in arrays of 3x8.
 		   3 728 811   1 kit (24 x 50µl reactions)  
RTS 500 Wheat Germ CECF Kit
Each kit contains an optimized wheat germ lysate, reaction mixture, 19 amino acids mix (without methionine), methionine, reconstitution buffer, GUS control DNA, and 5 CECF devices.
 		   4 492 838   1 kit (5 x 1ml reactions)
Manuals
Application Data
For experimental data obtained using the RTS Wheat Germ Kits please go to Results. For additional applications and references see Literature.