Oregon Green™ 488 Cadaverine, 5-isomer

The primary aliphatic amine of the green fluorescent Oregon Green™ cadaverine can be reversibly coupled to aldehydes and ketones toRead more

Catalog Number	Quantity
O10465 also known as O-10465	5 mg

Catalog number O10465

also known as O-10465

Price (BRL)

Quantity:

The primary aliphatic amine of the green fluorescent Oregon Green™ cadaverine can be reversibly coupled to aldehydes and ketones to form a Schiff base - which can be reduced to a stable amine derivative by sodium borohydride (NaBH₄) or sodium cyanoborohydride (NaCNH₃) to form new biotinylated probes. Carboxylic acids of proteins and other water-soluble biopolymers can be coupled to this molecule in aqueous solution using water-soluble carbodiimides such as EDAC (E2247). This molecule can also be used as a water-soluble, fixable polar tracer.

For Research Use Only. Not for use in diagnostic procedures.

Specifications

Chemical ReactivityCarboxylic Acid, Ketone, Aldehyde

Label or DyeOregon Green™ 488

Product TypeCadaverine

Quantity5 mg

Reactive MoietyAmine, Cadaverine

Shipping ConditionRoom Temperature

Label TypeClassic Dyes

Product LineOregon Green

Unit SizeEach

Contents & Storage

Store in freezer (-5 to -30°C) and protect from light.

Citations & References (2)

Citations & References

Abstract

Optical properties and application of a reactive and bioreducible thiol-containing tetramethylrhodamine dimer.

Authors:Christie RJ, Tadiello CJ, Chamberlain LM, Grainger DW,

Journal:Bioconjug Chem

PubMed ID:19249862

'Thiolated dimeric tetramethylrhodamine (TAMRA) was synthesized in a straightforward procedure utilizing commercially available 5(6)-succinimidyl TAMRA and cystamine hydrochloride. The thiol-containing TAMRA dimer displayed distinct spectral properties in reduced and oxidized forms; covalent dimer formation produced greater effects on the spectral properties than previously reported for noncovalent TAMRA dimers or dimers ... More

A facile synthetic method to prepare fluorescently labeled ROMP polymers.

Authors:Roberts KS, Sampson NS

Journal:Org Lett

PubMed ID:15355025

'[structure: see text] To probe the activities of sperm ADAM protein (fertilinbeta), we devised a general synthetic strategy to generate fluorescently labeled fertilinbeta oligopeptide polymers. Immunofluorescence studies with these polymers demonstrated that fertilinbeta polymers bind specifically to a protein receptor on the mouse egg plasma membrane.' ... More