- Tel: 858.663.9055
-
Email: info@nsjbio.com
- Tel: 858.663.9055
- Email: info@nsjbio.com
AKR1B1 Antibody / Oxidative Stress Marker [clone CPTC-AKR1B1-2] (V3987)
Email: info@nsjbio.com
| Catalog No | Formulation | Size | Price (USD) | ||
|---|---|---|---|---|---|
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V3987-100UG | 0.2 mg/ml in 1X PBS with 0.1 mg/ml BSA (US sourced) and 0.05% sodium azide | 100 ug | 559 | |
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V3987-20UG | 0.2 mg/ml in 1X PBS with 0.1 mg/ml BSA (US sourced) and 0.05% sodium azide | 20 ug | 259 | |
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V3987SAF-100UG | 1 mg/ml in 1X PBS; sodium azide free | 100 ug | 559 | |
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V3987IHC-7ML | Prediluted in 1X PBS with 0.1 mg/ml BSA (US sourced) and 0.05% sodium azide; *For IHC use only* | 7 ml | 559 |
| Availability | 1-3 business days |
| Species Reactivity | Human |
| Format | Purified |
| Host | Mouse |
| Clonality | Monoclonal (mouse origin) |
| Isotype | Mouse IgG1 |
| Clone Name | CPTC-AKR1B1-2 |
| Purity | Protein G affinity chromatography |
| UniProt | P15121 |
| Localization | Cytoplasmic, nuclear |
| Applications | Western Blot : 0.5-1ug/ml Immunofluorescence : 1-2ug/ml Immunohistochemistry (FFPE) : 0.5-1ug/ml for 30 min at RT |
| Limitations | This AKR1B1 Antibody / Oxidative Stress Marker is available for research use only. |
|
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Aldose reductase (AKR1B1) is an aldo-keto reductase family enzyme involved in oxidative stress regulation, aldehyde detoxification, and glucose-responsive metabolic signaling pathways. AKR1B1 Antibody / Oxidative Stress Marker is suitable for investigations involving reactive oxygen species-associated signaling, cellular stress adaptation, inflammatory metabolic responses, and oxidative stress-associated disease biology. AKR1B1 functions as a cytoplasmic metabolic enzyme that contributes to detoxification of reactive aldehydes generated during lipid peroxidation and cellular stress-associated injury pathways.
AKR1B1 antibody, also referred to as Aldose reductase antibody, Aldo-keto reductase family 1 member B1 antibody, Oxidative stress response protein antibody, and Polyol pathway enzyme antibody in the literature, recognizes a metabolic regulatory enzyme associated with oxidative stress-responsive signaling pathways and cellular redox homeostasis. AKR1B1 expression has been linked to inflammatory signaling, chronic metabolic stress, diabetic tissue injury, and reactive oxygen species-associated cellular adaptation mechanisms. Through regulation of aldehyde metabolism and redox-associated pathways, AKR1B1 contributes to maintenance of intracellular stress-response homeostasis.
Oxidative stress-associated metabolic enzymes are central components of pathways controlling inflammation, cellular injury responses, glucose metabolism, and redox-associated signaling environments. AKR1B1 has been investigated in studies involving diabetic complications, cardiovascular injury, neurodegenerative disease-associated oxidative stress, and tumor-associated metabolic adaptation. Because oxidative stress pathways influence broader signaling networks, AKR1B1 remains relevant for investigations involving cellular stress signaling, inflammation-associated metabolic biology, and redox-responsive regulatory pathways.
Members of the aldo-keto reductase family additionally participate in detoxification pathways that protect cells from oxidative damage and accumulation of reactive aldehydes. AKR1B1 therefore contributes to broader cellular defense mechanisms linked to oxidative injury and metabolism-associated stress responses. Altered AKR1B1-associated signaling has been implicated in chronic inflammatory conditions and metabolic disease-associated tissue dysfunction.
Immunohistochemistry, immunofluorescence, and western blot analyses support detection of endogenous AKR1B1 expression in human tissue and cultured cells, consistent with the expected cytoplasmic localization of this oxidative stress-associated metabolic enzyme. HuProt(TM) protein microarray specificity validation with clone CPTC-AKR1B1-2 further supports selective recognition of AKR1B1 among thousands of human proteins. The combined validation profile supports use of this mouse monoclonal antibody for investigations involving oxidative stress signaling, glucose-responsive metabolism pathways, reactive oxygen species-associated biology, and cellular stress-response mechanisms.
An antibody targeting AKR1B1 can therefore support studies involving oxidative stress-associated signaling pathways, reactive aldehyde metabolism, glucose-responsive cellular regulation, inflammation-associated metabolic adaptation, and redox-associated cellular biology.
For broader validation data and polyol pathway-associated metabolic signaling research applications, explore our Aldose Reductase Antibody / Polyol Pathway Marker page.
The optimal dilution of the AKR1B1 Antibody / Oxidative Stress Marker for each application should be determined by the researcher.
1. The prediluted format is supplied in a dropper bottle and is optimized for use in IHC. After epitope retrieval step (if required), drip mAb solution onto the tissue section and incubate at RT for 30 min.
Recombinant protein was used as the immunogen for this AKR1B1 antibody.
Store the AKR1B1 antibody at 2-8oC (with azide) or aliquot and store at -20oC or colder (without azide).
AKR1B1 antibody, Aldose reductase antibody, Aldo-keto reductase family 1 member B1 antibody, Oxidative stress response protein antibody, Polyol pathway enzyme antibody
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