Coomassie

Template:Chembox new

WikiDoc Resources for Coomassie
Articles
Most recent articles on Coomassie Most cited articles on Coomassie Review articles on Coomassie Articles on Coomassie in N Eng J Med, Lancet, BMJ
Media
Powerpoint slides on Coomassie Images of Coomassie Photos of Coomassie Podcasts & MP3s on Coomassie Videos on Coomassie
Evidence Based Medicine
Cochrane Collaboration on Coomassie Bandolier on Coomassie TRIP on Coomassie
Clinical Trials
Ongoing Trials on Coomassie at Clinical Trials.gov Trial results on Coomassie Clinical Trials on Coomassie at Google
Guidelines / Policies / Govt
US National Guidelines Clearinghouse on Coomassie NICE Guidance on Coomassie NHS PRODIGY Guidance FDA on Coomassie CDC on Coomassie
Books
Books on Coomassie
News
Coomassie in the news Be alerted to news on Coomassie News trends on Coomassie
Commentary
Blogs on Coomassie
Definitions
Definitions of Coomassie
Patient Resources / Community
Patient resources on Coomassie Discussion groups on Coomassie Patient Handouts on Coomassie Directions to Hospitals Treating Coomassie Risk calculators and risk factors for Coomassie
Healthcare Provider Resources
Symptoms of Coomassie Causes & Risk Factors for Coomassie Diagnostic studies for Coomassie Treatment of Coomassie
Continuing Medical Education (CME)
CME Programs on Coomassie
International
Coomassie en Espanol Coomassie en Francais
Business
Coomassie in the Marketplace Patents on Coomassie
Experimental / Informatics
List of terms related to Coomassie

Editor-In-Chief: C. Michael Gibson, M.S., M.D. [1]

Coomassie (also known as Coomassie Blue, Brilliant Blue, Brilliant Blue G, Acid Blue 90, C.I. 42655, or Brilliant Blue G 250) is a blue dye commonly used in sodium dodecyl sulfate polyacrylamide gel electrophoresis (SDS-PAGE). The gel is soaked in dye for thirty minutes and then destained for thirty minutes or more. This treatment allows the visualization of bands indicating the protein content of the gel. The gel usually contains a set of molecular weight marker(proteins of pre-determined weight) so that protein molecular weight can be determined in an unknown solution during the visualization.

Variations

Shown at right is Coomassie G250. A similar but distinct dye, known as Coomassie R-250, also exists.

Laboratory usage

Coomassie dye is an integral component of the Bradford Method for determining protein concentration in a solution. The Coomassie dye binds to proteins via physisorptionto arginine, the aromatic amino acids, and histidine. When Coomassie Brilliant Blue G-250 binds to proteins in acid solution, it has an absorbance shift from 465 nm to 595 nm. The absorbance data can then be used in Beer's law to determine protein concentration and ultimately the actual amount of protein in a given solution.

Coomassie stain and destain solution formulas

For staining solution:

2.50 g Coomassie Brilliant Blue R-250,

455 mL ethanol,

455 mL deionized / distilled water,

90 mL glacial acetic acid

For destaining solution:

455 mL ethanol,

455 mL deionized / distilled water,

90 mL glacial acetic acid

(Can also be destained using only distilled water and heating, though at a much slower pace)

Common mix for Bradford reagent:

0.01% Coomassie Brilliant Blue G-250,

4.7% ethanol,

8.5% phosphoric acid, in deionized / distilled water.

Methanol has been used in the past and can be replaced by ethanol at all steps resulting in slightly safer reagents (methanol is a neurotoxin) while the efficiency of the procedure remains the same.

Name

Like many dyes, Coomassie blue dye is named after an African locale, in this case the city of Kumasi, now in Ghana. It was developed as an acid wool dye and was named to commemorate the 1896 British occupation of the Ashanti capital, then known as Coomassie.^[1]

References

External links

• Coomassie Blue Staining of SDS-PAGE - Recipes and Protocol
• Coomassie Blue: ingredients and procedure
• Coomassie Blue-commercial source

cs:Coomassie de:Coomassie-Brillant-Blau

Template:WikiDoc Sources