2025/01/24
Total Results: 131
Catalog #
TM0009
Description
The Protein MultiColor Marker consists of nine prestained proteins. Each of them are stained red, blue, purple, green or orange, ranging in apparent molecular weight from approximately 8 kDa to 230 kDa. Protein MultiColor Marker is suitable for visualizing proteins during electrophoresis without staining and for monitoring electrophoretic transfer onto membranes. The protein concentrations are optimized to give uniform band intensities.
Electrophoresis
Catalog #
TM0010
Description
The Protein MultiColor Marker, low M.W. range consists of seven prestained protein standards, Blue, Red, Green and Purple, ranging in appropriate molecular weight from 2 kDa to 46 kDa. The marker is suitable for monitoring gel electrophoresis and electrophoretic transfer onto membranes. The protein concentrations are optimized to give uniform band intensities.
Electrophoresis
Catalog #
U0161
Description
Fluorescent dye derived from Cyanine. Water soluble and reacts toward activated carboxylic acid at pH 7-9 inserting a negative charge in the labeled molecule.
Conjugation
Catalog #
U0196
Description
Cyanine 3.5 dyes have enhanced fluorescence upon binding to proteins. C3.5 Amine reacts with carbonyl groups.
Conjugation, IVI
Catalog #
U0197
Description
Cyanine 3 dyes have enhanced fluorescence upon binding to proteins.
Conjugation, IVI
Catalog #
U0198
Description
Cyanine 3 dyes have enhanced fluorescence upon binding to proteins. C3 NHS Ester reacts with amino groups.
Conjugation, IVI
Catalog #
U0199
Description
Cyanine 3 dyes have enhanced fluorescence upon binding to proteins. C3 Maleimide reacts with thiol groups.
Conjugation, IVI
Catalog #
U0200
Description
Cyanine 3 dyes have enhanced fluorescence upon binding to proteins. C3 Azide reacts with alkyne groups.
Conjugation, IVI
Catalog #
U0201
Description
Cyanine 3 dyes have enhanced fluorescence upon binding to proteins. C3 Alkyne reacts with azide groups.
Conjugation, IVI
Catalog #
U0202
Description
Cyanine 3 dyes have enhanced fluorescence upon binding to proteins. C3 Amine reacts with carbonyl groups.
Conjugation, IVI