Novex™ Tricine Mini Protein Gels, 10%, 1.0 mm
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Novex™ Tricine Mini Protein Gels, 10%, 1.0 mm
引用資料與參考文獻 (4)
Invitrogen™

Novex™ Tricine Mini Protein Gels, 10%, 1.0 mm

Invitrogen Novex Tricine Gels provide separation of low molecular weight proteins and peptides. In this system tricine replaces glycine in the running buffer, resulting in more efficient stacking and destacking for low molecular weight proteins and higher resolution of smaller peptides.
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產品號碼Wells
EC66752BOX12-well
EC6675BOX10-well
產品號碼 EC66752BOX
價格 (TWD)
11,250.00
Online offer
Ends: 31-Dec-2025
12,500.00
您節省 1,250.00 (10%)
Each
新增至購物車
Wells:
12-well
價格 (TWD)
11,250.00
Online offer
Ends: 31-Dec-2025
12,500.00
您節省 1,250.00 (10%)
Each
新增至購物車
Invitrogen Novex Tricine Gels provide separation of low molecular weight proteins and peptides. The Tricine system is a modification of the tris-glycine discontinuous buffer system developed by Schaegger and von Jagow (Schaegger and von Jagow, 1987) specifically for resolving peptides and low molecular weight proteins. In this system the tricine replaces the glycine in the running buffer, resulting in more efficient stacking and destacking for low molecular weight proteins and higher resolution of smaller peptides.

Features of Novex Tricine protein gels:
• Increased resolution of proteins with molecular weights as low as 2 kDa
• Improved compatibility with direct sequencing of proteins after transferring to PVDF
• Minimized protein modification due to the lower pH of the tricine buffering system

Formulation
Invitrogen Tricine gels are made with high-purity, strictly quality-controlled reagents: Tris base, HCl, acrylamide, bisacrylamide, TEMED, APS, and highly purified water. Our Tricine gels have a 4% stacking gel and do not contain SDS. The Tricine system requires SDS in sample and running buffers for best results.

Choose the right Tricine gel for your protein separation
Invitrogen Tricine gels come in three polyacrylamide concentrations of 10%, 16%, and a gradient of 10–20%. Select from our many well formats, including 10-, 12-, and 15-well. Tricine gels are formulated for denaturing gel electrophoresis applications. For optimal sample preparation, we recommend Tricine SDS Sample Buffer (LC1676) and optimal separation use Tricine SDS Running Buffer (LC1675).

For transfer of proteins to a membrane, we recommend using the Novex Tris-Glycine Transfer Buffer (LC3675) if performing a traditional wet transfer using the XCell II Blot Module (EI9051) or the Mini Blot Module (B1000). Rapid semi-dry transfer can be performed using the Invitrogen Power Blotter or rapid dry transfer using the iBlot 2 Gel Transfer Device (IB21001).

For Research Use Only. Not for use in diagnostic procedures.
規格
Gel Thickness1.0 mm
Length (Metric)8 cm
Mode of SeparationMolecular Weight
Product LineNovex
Quantity10 Gels/Box
Recommended ApplicationsDenaturing
Sample Loading VolumeUp to 20 μL
Shelf Life16 Weeks
Shipping ConditionWet Ice
Storage RequirementsStore at 2°C to 8°C. Do not freeze.
Width (Metric)8 cm
For Use With (Equipment)Mini Gel Tank, XCell SureLock Mini-Cell
Gel Percentage10%
Gel SizeMini
Gel TypeTricine
Separation Range6 to 220 kDa
Separation TypeDenaturing
Wells12-well
Unit SizeEach

常見問答集 (常見問題)

What does it mean when bands appear to be getting narrower (or "funneling") as they progress down a protein gel?

There may be too much beta-mercaptoethanol (BME), sample buffer salts, or dithiothreitol (DTT) in your samples. If the proteins are over-reduced, they can be negatively charged and actually repel each other across the lanes causing the bands to get narrower as they progress down the gel.

Find additional tips, troubleshooting help, and resources within our Protein Electrophoresis and Western Blotting Support Center.

If a Tricine gel heats up to around 37°C during a run, should any precautions be taken?

A temperature increase to 35°C to 40°C during electrophoresis is not uncommon for Tricine gels. If you want to run the gels at a cooler temperature, the lower (outer) buffer chamber can be filled higher or they can be run at a lower voltage, for example 100 V.

Find additional tips, troubleshooting help, and resources within our Protein Electrophoresis and Western Blotting Support Center.

What type of transfer buffer should be used with Invitrogen Tricine gels?

For non-sequencing applications, any transfer buffer used with Tris-Glycine gels can be used with Tricine gels including Tris-Glycine transfer buffer. For sequencing applications, the buffer should be chemically compatible with sequencing protocols. Non-glycine based transfer buffers such as the NuPAGE Transfer buffer, 1/2X TBE Transfer buffer, or CAPS Buffer can be used for N-terminal sequencing . Generally, a pH which is close to neutral is desirable to maintain gel and protein stability. High current should be avoided because it can lead to heat generation and instability.

Find additional tips, troubleshooting help, and resources within our Protein Electrophoresis and Western Blotting Support Center.

If a Tricine gel is accidentally run with buffers used in the Tris-Glycine system, what will happen and why?

If the Tricine gel is run with Tris-Glycine sample buffer, the bands will behave abnormally and resolve poorly. If the Tricine gel is accidentally run with Tris-Glycine running buffer, the gel will take longer to run and the resolution, especially for smaller proteins, will be worse than when the proteins are run on a Tris-Glycine gel with Tris-Glycine buffers. This is due to a combination of increase in stack area size (glycine is a slower ion than Tricine) and the higher ionic strength of the Tricine gel.

Find additional tips, troubleshooting help, and resources within our Protein Electrophoresis and Western Blotting Support Center.

What is the cause of smeary artifacts down the lanes of a Tricine gel and how can this be prevented?

Protein samples are possibly reoxidizing before the run is complete in the Tricine gel system. Since Tricine is a glycine derivative, the running pH ranges of the two systems are different. As a consequence, reduced samples tend to oxidize more in the Tricine system. Adding more reducing agent will not solve the problem.

One option is to alkylate the sample by reducing with 20 mM DTT at 70°C for 30 min, followed by 50 mM iodoacetic acid to alkylate.

Another method which inhibits oxidation is the addition of thioglycolic acid (TGA) to the running buffer. The reference to this is described by Hunkapiller et al, Methods of Enzymology, (91), 399, 1983.

Caution should be taken when using this method since this compound is both toxic and expensive. In addition, the TGA must be fresh as it tends to become oxidized itself over time. Oxidized TGA will actually promote sample re-oxidation.

Find additional tips, troubleshooting help, and resources within our Protein Electrophoresis and Western Blotting Support Center.

View all Novex™ Tricine Mini Protein Gels, 10%, 1.0 mm FAQs

引用資料與參考文獻 (4)

引用資料與參考文獻
Abstract
Immune response to Yersinia outer proteins and other Yersinia pestis antigens after experimental plague infection in mice.
Authors:Benner GE, Andrews GP, Byrne WR, Strachan SD, Sample AK, Heath DG, Friedlander AM,
Journal:Infect Immun
PubMed ID:10085037
'There is limited information concerning the nature and extent of the immune response to the virulence determinants of Yersinia pestis during the course of plague infection. In this study, we evaluated the humoral immune response of mice that survived lethal Y. pestis aerosol challenge after antibiotic treatment. Such a model ... More
Aggregation of the Fc epsilon RI in mast cells induces the synthesis of Fos-interacting protein and increases its DNA binding-activity: the dependence on protein kinase C-beta.
Authors:Lewin I, Jacob-Hirsch J, Zang ZC, Kupershtein V, Szallasi Z, Rivera J, Razin E,
Journal:J Biol Chem
PubMed ID:8576146
The ability of c-Fos to dimerize with various proteins creates transcription complexes which can exert their regulatory function on a variety of genes. One of the transcription factors that binds to c-Fos is the newly discovered Fos-interacting protein (FIP). In this report we present evidence for the regulation of the ... More
Enzyme-substrate intermediate at a specific lysine residue is required for deoxyhypusine synthesis. The role of Lys329 in human deoxyhypusine synthase.
Authors:Joe YA, Wolff EC, Lee YB, Park MH,
Journal:J Biol Chem
PubMed ID:9405486
Deoxyhypusine synthase catalyzes the first step in the post-translational synthesis of hypusine [Nepsilon-(4-amino-2-hydroxybutyl)lysine] in eukaryotic translation initiation factor 5A. We recently reported biochemical evidence for a covalent enzyme-substrate intermediate involving a specific lysine residue (Lys329) in human deoxyhypusine synthase (Wolff, E. C., Folk, J. E., and Park, M. H. (1997) ... More
Anti-tumor antibody BR96 blocks cell migration and binds to a lysosomal membrane glycoprotein on cell surface microspikes and ruffled membranes.
Authors:Garrigues J, Anderson J, Hellström KE, Hellström I,
Journal:J Cell Biol
PubMed ID:7511141
BR 96 is an internalizing antibody that binds to Lewis Y (Le(y)), a carbohydrate determinant expressed at high levels on many human carcinomas (Hellström, I., H. J. Garrigues, U. Garrigues, and K. E. Hellström. 1990. Cancer Res. 50:2183-2190). Breast carcinoma cell lines grown to confluence bind less BR96 than subconfluent ... More