Novex™ Tris-Glycine Mini Protein Gel, 4 to 20%, 1.0 mm, 1-well
Novex™ Tris-Glycine Mini Protein Gel, 4 to 20%, 1.0 mm, 1-well
Citations & References (3)
Invitrogen™

Novex™ Tris-Glycine Mini Protein Gel, 4 to 20%, 1.0 mm, 1-well

Novex™ 4–20% Tris-Glycine Mini Gels are polyacrylamide gels based on traditional Laemmli protein electrophoresis. Novex™ Tris-Glycine gels provide reproducible separationRead more
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Catalog NumberQuantity
EC6021BOX10 gels (1 box)
Catalog number EC6021BOX
Price (INR)
10,640.00
Online offer
Ends: 31-Dec-2025
19,332.00
Save 8,692.00 (45%)
Each
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Quantity:
10 gels (1 box)
Price (INR)
10,640.00
Online offer
Ends: 31-Dec-2025
19,332.00
Save 8,692.00 (45%)
Each
Add to cart
Novex™ 4–20% Tris-Glycine Mini Gels are polyacrylamide gels based on traditional Laemmli protein electrophoresis. Novex™ Tris-Glycine gels provide reproducible separation of a wide range of proteins into well-resolved bands. Each box contains 10 gels. Features of these gels:

•   Individually packaged gels for optimal experiment design
•   Compatible with most protein standards
•   Usable for native and denaturing protein assays

Choose the right gel format for your experiments
Novex™ Tris-Glycine gels come in a variety of fixed concentrations from 4% to 18%, as well as gradients with ranges of 4–12%, 4–20%, 8–16%, and 10–20%. You can also select between our mini (8 cm x 8 cm) and our midi (8 cm x 13 cm) sizes, as well as multiple well-formats from 1 well to 26 wells.

For best results, most Novex™ Tris-Glycine gels should be stored at 4°C and used within 8 weeks of purchase. Novex™ 16% and 18% Tris-Glycine gels should be used within 4 weeks of purchase.

Run your proteins in native or denatured form
Novex™ Tris-Glycine gels 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 and Novex™ Tris-Glycine SDS Running Buffer. For native proteins, we recommend using Novex™ Tris-Glycine Native Sample Buffer and Novex™ Tris-Glycine Native Running Buffer.

For transferring your proteins to membrane, use Novex™ Tris-Glycine Transfer Buffer. Transfers can be done using the Xcell II™ Blot Module or using the iBlot™ Gel Transfer Device.

Related Links
•   Use our search tool to find the Novex™ Tris-Glycine gel that is right for you.
•   See protein migration ranges on Novex™ Tris-Glycine gels.
For Research Use Only. Not for use in diagnostic procedures.
Specifications
Gel Thickness1.0 mm
Length (Metric)8 cm
Length (Metric) Gel8 cm
Mode of SeparationMolecular Weight
Product LineNovex
Product TypeGradient Page
Quantity10 gels (1 box)
Sample Loading Volume700 μL
Shelf Life8 Weeks
Shipping ConditionWet Ice
System TypeNovex™
Thickness1.0 mm
Well Design1D Well
Width (Metric)8 cm
Width (Metric) Gel8 cm
For Use With (Equipment)Mini Gel Tank, XCell SureLock Mini-Cell
Gel Percentage4 to 20%
Gel SizeMini
Gel TypeTris-Glycine
Separation Range20 to 200 kDa
Separation TypeDenaturing, Native
Separation ofProtein
Wells1-well
Unit SizeEach
Contents & Storage
One box contains 10 gels. Store in refrigerator (2–8°C). Do not freeze. Shelf life is 8 weeks.

Frequently asked questions (FAQs)

What is the length of the well in the 1-well gels?

The length of the well in the Invitrogen 1-well gels is 7.6 cm or 2.956 inches.

Find additional tips, troubleshooting help, and resources within our Nucleic Acid Purification and Analysis Support Center.

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.

What is meant by the terms "Straightness" and "Curvature" on the Certificate of Analysis for a Invitrogen protein gel?

Gel straightness is defined as the straightness across all lanes of the gel, measured at the bottom, expressed relative to the total length of the gel. For example, a gel with straightness of 0.020 Rf is flat to within 2% of the length of the gel (1.6 mm) across. Band curvature is defined as the curvature of the bands in the outer lanes of the gel, expressed relative to the total length of the gel. For example, bands with curvature of 0.010 Rf are straight to within 1% of the length of the gel (0.8 mm).

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

What procedures are carried out for QC of Invitrogen gels?

The QC of our gels includes several processes:

1) Each gel is checked by eye for visible anomalies.

2) Under defined conditions, gels retained from each lot are tested as follows:

--When gels are run at a defined voltage, the resulting current and power of the electrophoresis are measured.

--Protein samples are electrophoresed on test gels to determine the gel run time and the protein band quality after electrophoresis. Bands are examined for: straightness within bands, curvature of bands across the gel ("smiling" or "frowning"), and reproducibility of the Rf values for protein molecular weight markers. According to these results, a Certificate of Analysis is created, which is available upon request.

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

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.

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

View all Novex™ Tris-Glycine Mini Protein Gel, 4 to 20%, 1.0 mm, 1-well FAQs

Citations & References (3)

Citations & References
Abstract
Kaposi's Sarcoma-Associated Herpesvirus/Human Herpesvirus 8 Transcriptional Activator Rta Is an Oligomeric DNA-Binding Protein That Interacts with Tandem Arrays of Phased A/T-Trinucleotide Motifs.
Authors:Liao W, Tang Y, Kuo YL, Liu BY, Xu CJ, Giam CZ,
Journal:J Virol
PubMed ID:12915555
'Kaposi''s sarcoma associated herpesvirus (KSHV)/human herpesvirus 8 (HHV-8) encodes an immediate early transcriptional activator, Rta, which mediates viral reactivation from latency and lytic viral replication. Here we report the purification and characterizations of HHV-8 Rta and its interaction with Rta-responsive DNA elements. The Rta response element (RtaRE) in the promoter ... More
Activation of beta -catenin signaling in differentiated mammary secretory cells induces transdifferentiation into epidermis and squamous metaplasias.
Authors: Miyoshi Keiko; Shillingford Jonathan M; Le Provost Fabienne; Gounari Fotini; Bronson Roderick; von Boehmer Harald; Taketo Makoto M; Cardiff Robert D; Hennighausen Lothar; Khazaie Khashayarsha;
Journal:Proc Natl Acad Sci U S A
PubMed ID:11773619
'Mammary anlagen are formed in the embryo as a derivative of the epidermis, a process that is controlled by Lef-1 and therefore possibly by beta-catenin. To investigate the role of beta-catenin signaling in mammary alveolar epithelium, we have stabilized endogenous beta-catenin in differentiating alveolar epithelium through the deletion of exon ... More
Anti-apoptotic Signaling of Pleiotrophin through Its Receptor, Anaplastic Lymphoma Kinase.
Authors: Bowden Emma T; Stoica Gerald E; Wellstein Anton;
Journal:J Biol Chem
PubMed ID:12107166
The secreted growth factor pleiotrophin (PTN) can induce mitogenesis in cells that express the receptor for this growth factor, anaplastic lymphoma kinase (ALK). Here we examine the ability of PTN to produce anti-apoptotic signals. We demonstrate that PTN is a survival factor for SW-13 epithelial cells and show that ribozyme-mediated ... More