Invitrogen™ Novex™ Tris-Glycine Mini Protein Gels, 14%, 1.0 mm, WedgeWell™ format

Catalog No.	Wells
XP00142BOX	12-well
XP00140BOX	10-well
XP00145BOX	15-well

Catalog No. XP00142BOX Supplier Invitrogen™ Supplier No. XP00142BOX

Description

Invitrogen Novex Tris-Glycine Mini Gels, WedgeWell format, are polyacrylamide gels that provide reproducible separation of a wide range of proteins into well-resolved bands with two times the loading capacity.

Invitrogen Novex Tris-Glycine Mini Gels, WedgeWell format, are polyacrylamide gels that provide reproducible separation of a wide range of proteins into well-resolved bands with two times the loading capacity. Novex Tris-Glycine Mini Gels are based on traditional Laemmli protein electrophoresis that allow the use of Laemmli sample and running buffers.

Features of Novex Tris-Glycine gels, WedgeWell format, include:
• Improved shelf life—store gels for up to 7 months at 4°C
• Diversity—use for native and denaturing protein assays
• Wedge-shaped wells—easily load up to two times more sample volume
• Fast run conditions—quickly separate your proteins using constant voltage in less than 60 minutes

Choose the right gel format for your experiments
Novex Tris-Glycine gels, WedgeWell format, come in a variety of fixed concentrations from 6% to 18%, as well as gradients with ranges of 4–12%, 4–20%, 8–16%, and 10–20%. You can select from our many well formats, including 10-, 12-, and 15-well, and different pack sizes.

Run your proteins in native or denatured form
Novex Tris-Glycine gels, WedgeWell format, do not contain SDS and can be used to run your proteins in native or in denatured form. For denatured proteins, we recommend using Novex Tris-Glycine SDS Sample Buffer (LC2676) and Novex Tris-Glycine SDS Running Buffer (LC26755). For native proteins, we recommend using Novex Tris-Glycine Native Sample Buffer (LC2673) and Novex Tris-Glycine Native Running Buffer (LC2672).

Convenient to use
Novex Tris-Glycine gels, WedgeWell format, have innovative wedge-shaped wells that allow up to two times more sample load volume than other 1.0 mm-thick gels. The wedge-shaped wells also have larger openings, making sample loading easier.

For transferring your proteins to a membrane, we recommend using Novex Tris-Glycine Transfer Buffer (LC3675) when preforming traditional wet transfer using the Invitrogen Mini Blot Module (B1000). Transfers can also be performed with rapid semi-dry transfer using the Invitrogen Power Blotter or rapid dry transfer using theiBlot 2 Gel Transfer Device (IB21001).

Specifications

• Gel Percentage: 14%
• Gel Size: Mini
• Gel Thickness: 1.0 mm
• Gel Type: Tris-Glycine Plus
• Recommended Applications: Denaturing, Native
• Sample Loading Volume: Up to 45 μL
• Separation Range: 6 to 250 kDa
• Separation Type: Denaturing, Native
• Wells: 12-well
• Mode of Separation: Molecular Weight
• Quantity: 10 gels (1 box)
• Shipping Condition: Wet Ice
• Storage Requirements: Store at 2°C to 8°C. Do not freeze.
• Length (Metric): 8 cm
• Width (Metric): 8 cm
• Product Line: Novex, WedgeWell
• For Use With (Equipment): Mini Gel Tank

Frequently Asked Questions (FAQs)

I would like to know if the product Novex WedgeWell 14%, Tris-Glycine, 1.0 mm, Mini Protein Gels (Cat. No. XP00140BOX) are compatible with the Bio-Rad mini-PROTEAN Tetra cell for western blot and SDS-PAGE.

The Novex WedgeWell 14%, Tris‐Glycine Mini Protein Gels have a cassette dimension of 10 cm X 10 cm. These gels are meant to be run in the XCell SureLock Mini‐Cell (Cat. No. EI0001: https://www.thermofisher.com/order/catalog/product/EI0001?SID=srch-srp-EI0001) and cannot be run in the Bio‐Rad mini‐PROTEAN Tetra cell for western blot and SDS-PAGE.

I am transferring a Tris-Glycine gel using constant voltage and the current reading is way over the expected starting current. Can you offer some suggestions?

The most common cause of abnormally high current is the transfer buffer. If the transfer buffer is too concentrated, this leads to increased conductivity and current. High current may also occur if Tris-HCl is accidentally substituted for the Tris base required in the transfer buffer. This will again result in low buffer pH and lead to increased conductivity and current and subsequently, overheating. We recommend checking the transfer buffer and its reagent components and re-diluting or remaking the buffer.

What are the main advantages of NuPAGE gels over Invitrogen Tris-Glycine gels?

NuPAGE gels have the following advantages over Tris-Glycine gels:

*Higher stability and longer shelf life: NuPAGE Bis-Tris gels and NuPAGE Tris-Acetate gels have a lower operating pH (pH 7 for NuPAGE Bis-Tris gels and pH 8.1 for NuPAGE Tris-Acetate gels) than Invitrogen Tris-Glycine gels (pH 9.5). At basic pH, polyacrylamide hydrolyzes to polyacrylic acid and ammonia whereas at neutral pH, this hydrolysis is slower. Hence, NuPAGE gels have higher stability and longer shelf life than Invitrogen Tris-Glycine gels (12 months at 4-25 degrees C for NuPAGE Bis-Tris gels and 8 months at 4 degrees C for NuPAGE Tris-Acetate gels vs 4-8 weeks at 4 degrees C for Tris-Glycine gels).

*Better resolution of proteins due to:

- Reduced undesired chemical modifications: Free acrylamide alkylates proteins at basic pH (8.5 to 9.0). It targets sulfhydryl cysteines and amine groups at the N-terminus and on lysines. This modification does not happen at pH below 8. Hence, proteins run on NuPAGE gels undergo fewer of these undesired chemical modifications than those run on Tris-Glycine gels.

- Reduced hydrolysis of proteins: Heating of Tris-Glycine sample buffer (pH 6.8) results in a drop in pH, causing Asp-Pro cleavage of proteins. High temperature and longer duration of heating/boiling increase the rate of this cleavage resulting in multiple peptide bands of decreased intensity. At 100 degrees C, the pH drops as low as pH 4.3. On the other hand, NuPAGE LDS sample buffer (pH 8.5) drops to pH 8.1 when heated to 70 degrees C, avoiding this cleavage.

*Faster run times: 35-50 min for NuPAGE Bis-Tris gels and 1 hour for NuPAGE Tris-Acetate gels vs 90 min for Tris-Glycine gels

How does the operating pH for Tris-Glycine gels differ from that for NuPAGE Bis Tris and NuPAGE Tris-Acetate gels?

The operating pH for Tris-Glycine gels is 9.5; the operating pH for NuPAGE Bis-Tris gels is 7 and for NuPAGE Tris-Acetate gels is 8.1.

Can I run Mini gels with 10 cm gel cassettes using a Bolt Mini Gel Tank?

To run Mini gels with 10 cm gel cassettes using a Bolt Mini Gel Tank (without replacement of 10.5 cm cassette clamp cam handles with 10 cm cassette clamp cam handles), please use the instructions provided on Page 22 of the manual (https://tools.thermofisher.com/content/sfs/manuals/mini_gel_tank_man.pdf).

Note: For optimal results, to run 10 cm cassette Mini gels with a Bolt Mini Gel Tank, one should replace the black 10.5 cm cassette clamp cam handles on the Bolt Mini Gel Tank with gray 10 cm cassette clamp cam handles (Cat. No. A26732). Instructions for replacement of the cam handles can be found on Page 20 of the manual (http://www.thermofisher.com/us/en/home/life-science/protein-biology/protein-gel-electrophoresis/protein-gel-electrophoresis-chamber-systems/mini-gel-tank/resources-upgrading-bolt-mini-gel-tank.html) or in this video (https://www.youtube.com/watch?v=1FtiX8Skllw).

Additional resources can be found here (https://www.thermofisher.com/us/en/home/life-science/protein-biology/protein-gel-electrophoresis/protein-gel-electrophoresis-chamber-systems/mini-gel-tank/resources-upgrading-bolt-mini-gel-tank.html).

How do you recommend transferring Midi gels?

Midi gels can be transferred using:

*iBlot Dry Blotting System in conjunction with Transfer Stacks
*Invitrogen Semi-Dry Blotter for simultaneous transfer of up to 2 Midi-gels
*Thermo Scientific Power Blotter for simultaneous transfer of up to 2 Midi gels
*Thermo Scientific G2 Fast Blotter (will be discontinued as soon as we exhaust current inventory).

Will NP-40 affect the migration of my protein samples?

All detergents, or even phospholipids in cell extracts, will form mixed micelles with SDS and migrate down into the gel. They can also interfere with the SDS:protein binding equilibrium. Most of the non-ionic detergents, including NP-40, are the worst at interfering with SDS-PAGE. The rule of thumb is to keep the ratio of SDS to lipid or other detergent at 10:1 or greater to minimize these effects.

Do your Invitrogen protein gels contain any carbohydrates and are they suitable for carbohydrate analysis?

All Invitrogen protein gels contain sucrose as a density-adjusting agent to facilitate pouring of the gel. Protein samples run on Invitrogen gels would be contaminated with large amounts of sucrose. Thus, Invitrogen gels are not recommended for this application.

What is the material used for making your Invitrogen precast gel plastic cassettes?

The cassettes are made of a styrene copolymer.

Can I recycle your Invitrogen precast gel plastic cassettes?

We do not recommend recycling our plastic cassettes because they have a chemical coating on them that may produce toxic fumes when melted and potentially cause contamination.

What is the difference between Invitrogen Mini and Midi gel formats?

Midi gels are wider than Mini gels and hence have a larger number of wells to accommodate additional samples in one gel. An experiment from a Mini gel can be easily scaled-up to a Midi gel of the same gel chemistry.

Midi gels:
*NuPAGE Bis-Tris, NuPAGE Tris-Acetate, & Invitrogen Tris-Glycine: Gel dimensions are 13cm x 8.3cm and Cassette dimensions are 15cm x 10.3cm.

Mini gels:
*NuPAGE Bis-Tris, NuPAGE Tris-Acetate, & Invitrogen Tris-Glycine: Gel dimensions are 8cm x 8cm and Cassette dimensions are 10cm x 10cm.
*New Bolt Bis-Tris Plus (Cat. No. NWxxxxxBOX): Gel dimensions are 8cm x 8.3cm and Cassette Dimensions are 10cm x10cm.
*Original Bolt Bis-Tris Plus (Cat. No. BGxxxxxBOX): Gel dimensions are 8cm x 8.3cm and Cassette Dimensions are 10cm x 10.5cm.

What are the dimensions of your precast protein gels?

All of our Invitrogen precast protein gels (NuPAGE gels, Bolt Bis-Tris Plus gels, and Novex gels) are available in Mini format. Our Mini gel dimensions are 8 cm x 8 cm and the cassette dimensions are 10 cm x 10 cm.

Our NuPAGE Bis-Tris, NuPAGE Tris-Acetate, and Novex Tris-Glycine Plus gels are also available in the wider Midi format. Our Midi gel dimensions are 8 cm x 13 cm and the cassette dimensions are 10 cm x 15 cm.

Are your precast protein gels available in Mini and Midi formats?

All our Invitrogen protein gels are available in Mini format. Certain gel chemistries (NuPAGE Bis-Tris, NuPAGE Tris-Acetate, and Invitrogen Tris-Glycine gels) are also available in the wide Midi format.

Note that Bolt Bis-Tris gels are not available in the Midi format and our Thermo Scientific Precise precast gels are only available in Mini format.

When running two protein gels, do I need to double the voltage?

If you are running the gels at constant voltage, you do not need to increase the voltage regardless of the number of gels. However, the resulting current and wattage observed will multiply linearly with the number of gels. Keep in mind that the expected total current for your gels should not exceed the current limit of the power supply, or else the current will plateau and the run will slow down. (For example: Recommended constant voltage for running a NuPAGE Bis-Tris gel with MES Buffer is 200 V, with a starting current of 110-125 mA/gel and end current of 70-80 mA/gel. If the power supply has a current limit of 500 mA, the maximum number of NuPAGE Bis-Tris gels that can be run at one time with full power is 500 mA/125 mA = 4 gels. Any additional gels will decrease the current per gel and increase the run time.

Which protein standard do you recommend using with gels run under native conditions?

We recommend using the NativeMark Unstained Protein Standard, Cat. No. LC0725.

Can I run reduced and non-reduced protein samples on the same gel?

We do not recommend running reduced and non-reduced protein samples on the same gel, especially in adjacent lanes, since the reducing agent may have a carry-over effect on the non-reduced samples if they are in close proximity.

Can I store my reduced protein samples for later use?

We do not recommend storing reduced protein samples for long periods of time even if they are frozen because reoxidation of the sample may happen during storage, causing inconsistent results.

What is the ratio of acrylamide:bisacrylamide and percentage of cross-linker in your Invitrogen precast gels?

*Tris-Glycine gels (except 4% Tris-Glycine gels) have a 34.5:1 Acrylamide:bisacrylamide and 2.6% Crosslinker.

*4% Tris-Glycine gels have a 76:1 ratio Acrylamide:bisacrylamide and 1.3% Crosslinker.

What is the percentage of the stacking gel in your Invitrogen precast protein gels?

The percentage of the stacking gel is 4% in most of our gels including the Bolt Bis-Tris Plus gels. The NuPAGE Tris-Acetate gels contain a 3.2% stacking gel.

Do your Invitrogen precast protein gels contain a stacking gel?

Our Invitrogen precast protein gels contain a stacking gel that is ~8 to 9 mm long (it ends right above the first ridge on the cassette). The manufacturing method used results in an interface between the stacking and resolving gels that is not visually detectable.

What are the recommended sample loading volumes and protein loading amounts for your precast protein gels?

*Tris-Glycine and Invitrogen Tricine Mini gels: see here (http://tools.thermofisher.com/content/sfs/manuals/electrophoresisguide_man.pdf), Page 8

*NuPAGE Tris-Acetate and NuPAGE Bis-Tris Mini gels: see here (http://tools.thermofisher.com/content/sfs/manuals/nupage_tech_man.pdf), Page 10

*Bolt Bis-Tris Plus Mini gels: see here (http://www.thermofisher.com/us/en/home/life-science/protein-biology/protein-gel-electrophoresis/protein-gels/bolt-bis-tris-gels.html)

*Thermo Scientific Precise Tris-HEPES gels: see here (https://tools.thermofisher.com/content/sfs/manuals/MAN0011499_Precise_Protein_Gels_UG.pdf), Page 1

*Midi gels (Invitrogen Tris-Glycine, NuPAGE Bis-Tris and NuPAGE Tris-Acetate): see here (https://assets.thermofisher.com/TFS-Assets/LSG/manuals/novex_midigel_man.pdf), Page 4

*Thermo Scientific Precise Tris-Glycine gels: see here (https://tools.thermofisher.com/content/sfs/manuals/D25MAN0011814_Precise_TrisGlycine_Gels_UG.pdf), Page 1

Do your precast protein gels contain SDS?

Our precast protein gels do not contain SDS but they can be run under denaturing conditions when used with the appropriate denaturing running buffer.
Note: NuPAGE Bis-Tris gels, Bolt Bis-Tris Plus gels, and Thermo Scientific Precise Tris-HEPES gels cannot be run under native conditions; they can only be run under denaturing conditions.

*Invitrogen Tris-Glycine gels: For Native electrophoresis, use Invitrogen Tris-Glycine Native Running Buffer. For Denaturing electrophoresis, use Invitrogen Tris-Glycine SDS Running Buffer

*NuPAGE Tris-Acetate gels: For Native electrophoresis, use Invitrogen Tris-Glycine Native Running Buffer. For Denaturing electrophoresis, use NuPAGE Tris-Acetate SDS Running Buffer

*NuPAGE Bis-Tris gels: For Denaturing electrophoresis, use NuPAGE MOPS-SDS Running Buffer or NuPAGE MES-SDS Running Buffer

*Bolt Bis-Tris Plus gels: For Denaturing electrophoresis, use Bolt MOPS SDS Running Buffer or Bolt MES SDS Running Buffer

*Thermo Scientific Precise Tris-Glycine gels: For Native electrophoresis, use Tris-Glycine SDS Running Buffer without SDS added. For Denaturing electrophoresis, use Tris-Glycine SDS Running Buffer.

*Thermo Scientific Precise Tris-HEPES gels: For Denaturing electrophoresis, use Tris-HEPES SDS Running Buffer.