Non disponible en dehors du Royaume-Uni et de l'Irlande

Application

The OxyIHC Oxidative Stress Detection Kit contains the chemical & immunological reagents necessary to detect protein oxidation in various tissues from a variety of organs & animal species.

Research Sub CategoryNeurodegenerative DiseasesAging

Research CategoryApoptosis & CancerNeuroscience

Components

10X Wash Buffer, One 25 mL bottle10X Antigen Retrieval Buffer, One 1.25 mL bottle5X Blocking Buffer, One 2.5 mL bottlePrimary Antibody, One 125 mL vialDAB-A, One 500 mL vialDAB-B, One 12 mL bottleAntibody Diluent, One ready to use 12.5 mL bottleBiotinylated Secondary Antibody, One ready to use 12.5 mL bottleStreptavidin conjugated HRP, One ready to use 12.5 mL bottleHematoxylin, One ready to use 12.5 mL bottleDNPH Solution, One ready to use 12.5 mL bottleDerivatization Control Solution, One ready to use 12.5 mL bottle

Disclaimer

Unless otherwise stated in our catalog or other company documentation accompanying the product(s), our products are intended for research use only and are not to be used for any other purpose, which includes but is not limited to, unauthorized commercial uses, in vitro diagnostic uses, ex vivo or in vivo therapeutic uses or any type of consumption or application to humans or animals.

General description

The OxyIHC™ Oxidative Stress Detection Kit (S7450) contains the chemical and immunological reagents
necessary to detect protein oxidation in various tissues from a variety of organs and animal species. The
OxyIHC test method involves chemical derivatization of protein carbonyl groups with 2,4-
dinitrophenylhydrazine (DNPH). This chemical reaction results in proteins being covalently coupled to DNP
at their carbonyl sites. The DNP-derivatized proteins are then detected using an antibody that specifically
binds to the DNP moiety. Subsequent incubation with biotin conjugated secondary antibody, streptavidin
conjugated HRP, and development using a 3,3' diaminobenzidine (DAB) staining allows
immunohistochemical detection of protein oxidation.

Reactive oxygen species (ROS) have been implicated in pathological processes including cancer,
apoptosis, aging, neurodegenerative diseases, chronic inflammatory diseases, pulmonary diseases, and
cardiovascular diseases (for reviews, see ref. 1-4). Living organisms are continually exposed to potentially
harmful oxygen free radicals that are generated thru normal cellular functions as well as from environmental
factors (1, 5-7). Yet, these reactive molecules are mitigated by the presence of antioxidants and therefore
organisms exist with a delicate balance between oxidants and antioxidants (7-9). During times of oxidative
stress there is an imbalance in favor of the oxidants. The end result of which is that free radicals are able to
attack and modify sub-cellular components including nucleic acids, lipids and proteins (7, 10-12).
Proteins are one of the major targets of reactive species. Oxidation of proteins modifies the side chains of
methionine, histidine, and tyrosine and forms cysteine disulfide bonds (16-19). Metal catalyzed oxidation of
proteins introduces carbonyl groups (aldehydes and ketones) at lysine, arginine, proline or threonine
residues in a site-specific manner (16, 20-22). The oxidative modification of proteins can modulate
biochemical characteristics of proteins such as enzymatic activity (21-23), DNA binding activities of
transcription factors (24-26), and the susceptibility to proteolytic degradation (12, 25-28). While a
relationship between protein oxidation and aging has been suggested (29-31), little is known about the
importance of oxidative modification of individual proteins in the pathophysiology of free radical mediated
processes. Not surprisingly, carbonyl modification of proteins has become a key biomarker for the
identification of oxidative stress.

Storage and Stability

The OxyIHC kit components should be stored at 2-8°C. Kit components are stable for 6 months from the
date of receipt if stored and handled properly.