Overview

myTXTL Sigma 70 Master Mix Kits contain a ready-to-use, high-performance master mix based on an E. coli extract. Protein synthesis starts within minutes after adding a DNA or RNA template to the master mix. DNA templates must contain an E.coli promoter compatible with the E. coli transcription machinery, driven primarily by the Sigma 70 transcription factor and E. coli RNA polymerase. (For T7 promoter based expression, try the myTXTL T7 Expression Kit, which includes expression of T7 RNA polymerase.)

  • Simple—All-in-one master mix requires minimal pipetting.
  • Fast—From DNA to protein within a single day. Avoid time-consuming in vivo procedures.
  • High-Yield—Abundant protein for functional studies (1.5mg/mL).
  • Versatile—Accepts various constitutive and inducible E.coli and phage (T7, T3) promoters.
  • Flexible—Start from either DNA or RNA templates.
  • Consistent—Designed for reproducibility at any project scale.
  • Scalable—Several master mix volumes available, including kits, bulk, and OEM options.

Applications

myTXTL Sigma 70 Master Mix Kits are ideal for a range of research applications, including:

  • High-throughput protein/enzyme engineering
  • High-yield production of soluble and membrane proteins (10-200 kDa and higher)
  • Rapid prototyping of gene circuits using plasmid DNA and RNA
  • Metabolic pathway testing
  • Construction of artificial cells
  • Teaching biological concepts
  • And more

For your convenience, Daicel Arbor Biosciences offers a large collection of more than 100 pre-designed plasmids for setting up complex gene circuits with the myTXTL Toolbox 2.0 Plasmid Collection.

If a project occasionally requires linear DNA templates such as PCR products, supplementing the myTXTL Sigma 70 Master Mix with GamS Purified Nuclease Inhibitor Protein is a perfect choice.

Performance

Protein production in myTXTL Cell-free Expression System (12-160 kDa)

12 µL myTXTL reactions were set up with 5-10 nM template DNA (~ 30-650 ng DNA) carrying either a P70a or T7 promoter, and incubated for 16 hours at 29°C. After acetone precipitation, 1 µL of each reaction was loaded onto an SDS-PAGE gel and stained with Coomassie. Target proteins are marked with an orange identifier. M; Protein Marker (10-250 kDa); Neg; no template DNA; GamS; Truncated nuclease inhibitor protein Gam, CALM; Calmodulin-like protein 3, DHFR; Dihydrofolate reductase, CAT; Chloramphenicol acetyl transferase, deGFP; Variant of enhanced GFP, RLuc; Renilla luciferase, FLuc; Firefly Luciferase, T7Pol; T7 RNA polymerase, bGal; Beta-Galactosidase, dCas9; dead Cas9.

Production of positive control deGFP using myTXTL

myTXTL Sigma 70 Master Mix with deGFP control plasmid before (A) and after (B) incubation at 29°C in a 1.5 mL reaction tube. (C) Fluorescence emitted by produced deGFP under UV light.

Effect of plasmid concentration on in vitro protein production

deGFP expression is regulated by the interaction of the endogenous E. coli core RNA polymerase and the primary sigma factor 70 (σ70) with the σ70-specific promoter P70a.

Protein synthesis in myTXTL using the T7 Expression System

deGFP expression under the control of the bacteriophage T7 promoter (PT7) is facilitated by initial expression of T7 RNA polymerase from an additional plasmid.

Resources

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Product Literature

Product Sheet

myTXTL Cell-Free Protein Expression Kits

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Technical Docs

Protocol

myTXTL Handbook

FAQs

  1. Master mix inactivation due to improper storage. The myTXTL master mix must be stored at -80°C and number of freeze-thaw cycles should be minimized.
  2. Improper reaction setup, Please review the recommendations to set up a myTXTL reaction in the current myTXTL handbook.
  3. Contamination of myTXTL reaction with nuclease. To avoid nuclease contamination, wear gloves and use nuclease-free water, sterilized tips and tubes.

Yes, scaling up the volume is possible, but above 50 uL we recommend shaking and/or switching to a reaction vessel with higher surface:volume ratio to allow proper oxygenation of the reaction mix. myTXTL reactions are very sensitive to the amount of dissolved oxygen. If using over 50 uL volume, a flat-bottomed ELISA plate or tissue culture plate may be advised along with shaking. We advise testing such a setup with our positive control deGFP plasmids or linear fragments that come with the kit. The key is to balance oxygenation and avoiding the reactions drying out due to too much surface area.

The kit used depends on the phage's genome type, if it is linear DNA, we recommend the myTXTL Linear DNA kit or myTXTL T7 Expression Kit if you need to express accessory proteins. If circular DNA or RNA, any of our kits could be used, keeping in mind that non-E. coli phages may require the addition of their host's primary transcription factor (SigA/Sigma70) or other accessory proteins to enable replication (see Emslander et al. 2022).

If you have started your project with plasmid templates for which you purchased the myTXTL Sigma 70 Master Mix, but now you want to try out linear DNA templates with the myTXTL Sigma 70 Master Mix you still have available in your lab. A simple addition of myTXTL GamS Protein to the myTXTL Sigma 70 Master Mix significantly boosts protein output from linear DNA templates in this master mix. For future work with linear DNA templates we would recommend the myTXTL Linear DNA Expression kit or myTXTL T7 Expression kit as both use the myTXTL Linear DNA Master Mix.

Batch-to-batch variation can cause varying levels of TX-TL inhibitor contamination present in the plasmid solution. Please follow our recommendations on how to prepare template plasmid DNA for TXTL reactions in the current myTXTL handbook.

A standard protocol for chemical transformation usually produces E. coli cells with a sufficient competency for plasmid intake. We recommend following the procedure described in Sambrook et al. 1989.

Consider if your recombinant protein requires co-factors like heavy metal ions or coenzymes to be functionally active. Those should be present during protein synthesis. Additionally, a low concentration of mild detergent (e.g. Triton-X-100, sodium dodecyl maltoside, or CHAPS) can be added to the reaction as well as molecular chaperones. Please note that the myTXTL system cannot introduce post-translational modifications like glycosylation or phosphorylation to your protein. Reducing the incubation temperature might help to prevent aggregation of the nascent polypeptide chain and to promote proper protein folding.

As the myTXTL platform relies on the endogenous transcription and translation machinery of E. coli, a functional gene cassette must contain a promoter that can be transcribed by E. coli RNA polymerase and associated transcription factors (primarily Sigma 70) or by a T7/T3 RNA polymerase if those polymerases are expressed from a helper plasmid (available in our Toolkit). The ribosomal binding site should also be compatible with E. coli translation machinery. For more general advice on how to construct a functional gene cassette, please refer to the current myTXTL handbook.

Apart from standard biochemical methods like Coomassie-stained SDS-PAGE and western blot analysis, the great advantage of cell-free protein production is the open-system environment which allows the direct quantification and/or analysis of protein functionality in an activity assay without purification. Alternatively, for some activity assays downstream processing via affinity purification may be needed (if an affinity tag is present). If you choose SDS-PAGE analysis, you can either take a small sample (1-3 µL) directly from your TXTL reaction, or – to reduce background signal – precipitate proteins with TCA/acetone or ammonium-acetate/methanol following a standard protocol.

The myTXTL Linear DNA Expression Kit is based off our myTXTL Sigma 70 Master Mix Kit, but has been further engineered to efficiently produce soluble and membrane proteins using linear DNA templates without the need for nuclease inhibitors like GamS. Simply add linear DNA template to the optimized master mix to begin protein synthesis.

deGFP is a N- and C-terminally truncated version of the reporter eGFP that is more translatable in cell-free systems. The excitation and emission spectra as well as fluorescence properties of deGFP and eGFP are identical which enables the use of commercial eGFP protein to be used in a standard curve to quantify the deGFP in the reaction.

Utilizing linear DNA templates greatly increases the speed of the design-build-test-learn cycle as laborious steps like cloning, transformation and purification are no longer necessary. This is particularly useful when working with a high number of variants of a single protein that need to be studied and validated. The reduced costs of linear DNA can also expand the sampled sequence space for protein designs compared to the plasmid format.

Due to the small reaction volume of 12 μL, it is very important to avoid condensation of water on the lid of the reaction tube, as it considerably increases the concentration of myTXTL reaction components. This can lead to poor or irreproducible kit performance. If possible, incubation in an incubator and water bath/Armor beads is best. Water facilitates a faster heat transfer than air and a water bath shows low temperature fluctuation, which should – combined with a closed environment with constant temperature surrounding the entire tube – lead to higher reproducibility and yield. A PCR thermoblock did not perform well with tubes or a multiwell plate.

Yes! That only requires the addition of the plasmid coding for T7 RNA polymerase under transcriptional control of a σ70-specific promoter, e.g. P70a-T7rnap and possibly your inducer like IPTG if it is an inducible promoter. The optimum concentration of P70a-T7rnap is usually between 0.1 nM and 1 nM. Higher concentration normally does not increase protein yield. The more important parameter for efficient protein expression is the concentration of the plasmid that encodes for your protein of interest downstream of the T7 promoter, which will be most likely in the range of 5-20 nM.

Yes. The myTXTL master mix contains tRNAs for seven codons rarely used in E. coli to enable expression of eukaryotic proteins.

Yes! Parameters that influence protein production efficiency are:

  • Gene cassette construction (promoter strength, position of affinity tag, TXTL elements)
  • DNA purity
  • DNA concentration
  • Incubation temperature, time, and vessel
  • Presence of folding helpers, chaperones, oxidizing agents

and should therefore be evaluated for optimization. Please also see our recommendations on Template Design in the current myTXTL handbook.

We share all DNA plasmid and linear fragment sequences in our portfolio to allow users to optimize their designs with respect to 5' and 3' sequences that enable optimal expression for their application, ranging from single protein expression to complex gene circuits and metabolic pathways. Plasmid or linear DNA can be ordered online from various DNA synthesis companies.

Unfortunately, this may lead to considerably decreased performance or even loss of function. To ensure highest kit performance, make sure to store the myTXTL kit or bulk master mix at -80 °C and freeze as soon as possible after usage.

Yes, although it is not optimized or recommended for linear DNA templates. If using linear DNA with Sigma 70 MM, enhanced protein yields can be achieved by supplementing the master mix with our nuclease inhibitor GamS.

Unfortunately, not. However, studies have shown that supplementing cell-free systems with mixtures of reduced (GSH) and oxidized glutathione (GSSG), disulfide bond isomerase C (DsbC), protein disulfide isomerase (PDI) and/or chaperones (e.g. DnaK, DnaJ, GroEL, GroES) can promote the formation of disulfide bonds. In addition, pretreatment with iodoacetamide (IAM) to inactivate endogenous reductases which are present in the cell extract might also help (Review Article: Stech M & Kubick S, Antibodies 2015, 4, 12-33).

Yes. Due to the manufacturing process, there might be a small pellet visible. It is critical that you resuspend the myTXTL Master Mix completely before aliquoting it to set up your TXTL reaction(s).

Yes. For all plasmids containing the lambda phage promoter (P70a, P70b, P70c, P70d) it is extremely crucial to use E. coli KL740 as the transformation strain. When cultivated below 30°C, this strain over-expresses the lambda phage repressor protein Cl857 that represses P70 promoters, thus ensuring high transformation efficiency and plasmid stability. KL740 can be purchased from E. coli Genetic Stock Center (Yale) [CGSC#: 4382] or from Daicel Arbor. For all other plasmids, a standard laboratory E. coli cloning strain like JM109 or DH5alpha is sufficient.

Efficient in vitro protein production is highly dependent on the quality of the template DNA, which should be free of nucleases (DNases, RNases) and inhibitors of the TXTL machinery (e.g. EDTA, ethidium bromide, SDS, Cl- ions, ethanol). Preparation of plasmid DNA with standard commercial kits usually involves sample treatment with RNase, which may not be completely removed during downstream processing. Thus, we strongly recommend subjecting the prepared DNA to either a commercial PCR clean-up kit or standard phenol-chloroform extraction and ethanol precipitation. Ideally, template DNA is suspended in nuclease-free water. Please note, introducing Mg2+and K+ ions can compromise the kit performance, as they are extremely critical for transcription and translation, and are optimized in the master mix.

Most importantly, the excitation and emission wavelength should match the fluorescence properties of deGFP/eGFP (e.g. λEm 488 nm, λEx 535 nm). Other reader settings such as reading mode, integration time and gain value should be chosen under consideration of high well-to-well fluorescence reading reproducibility.

You are advised to keep the number of freeze-thaw-cycles to a minimum. Nevertheless, our studies have indicated that up to five freeze-thaw-cycles do not negatively influence protein production efficiency of the myTXTL Master Mix when using flash freezing in liquid nitrogen.

Sample handling and storage is mainly determined by the stability of your molecule of interest (protein, DNA, RNA) and thus optimal conditions may need to be evaluated. But to ensure sample integrity, we would recommend to either process the myTXTL reaction immediately after performing the incubation or store it at ≤ -20 °C.

Order Now

Ordering Information
Size
Cat#
Qty
Price
myTXTL Sigma 70 Master Mix Kit
myTXTL Sigma 70 Master Mix Kit contains Sigma 70 Master Mix and pTXTL-T70a(2)-deGFP HP control plasmid.
507024
$$275.00
myTXTL Sigma 70 Master Mix – Bulk
Bulk formats for high-throughput processing and custom applications. Available in 5 mL and 25 mL pack sizes with 0.5mL and 1.0 mL aliquots respectively.
507005
$$3,180.00
myTXTL GamS Protein
Single tube of purified GamS-His6 nuclease inhibitor protein at 150 ?M, and volume sufficient for required reactions.
501024
$$105.00
pTXTL-P70a-T7rnap HP
High purity, ready-to-use plasmid sufficient for 24 Rxns (15uL, 2.4nM) or 96 Rxns (50uL, 2.4nM).
502134
$$80.00
pTXTL-P70a(2)-deGFP HP
High purity, ready-to-use positive control plasmid enough for 10 Rxns (35uL, 20nM). Positive control plasmid version included in the Sigma70MM kit.
502138
$
pTXTL-P70a-deGFP HP
High purity, ready-to-use positive control plasmid enough for 10 Rxns (35uL, 20nM).
502117
$
pTXTL-T7p14-deGFP HP
High purity, ready-to-use plasmid enough for 10 Rxns (25uL, 24nM).
502136
$
E. coli KL740 cI857+
E. coli KL740 cI857+ is mandatory for propagation of pTXTL-P70 vectors. The glycerol stock is delivered dry on a filter disc.
502000
$130
Available and in-stock for immediate shipment.

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