| Field | Specification |
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| Mfr No | |
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| Host | |
| Immunogen | A synthesized peptide derived from human SNX4 was used as the immunogen for the SNX4 antibody. |
| Isotype | |
| Product Type | |
| Purity | |
| Reactivity | |
| Storage | |
| Target | |
| UniProt # |
Overview
SNX4 Antibody / Sorting nexin 4 is a anti-SNX4 Rabbit antibody Recombinant Rabbit Monoclonal clone 30S54 supplied in Liquid format. Recommended for workflows such as Western blot (WB), Immunoprecipitation (IP) with listed reactivity in Human, Mouse, Rat.
Key elements and design rationale
- Target: SNX4
- Antibody details: Rabbit, Recombinant Rabbit Monoclonal, clone 30S54, isotype Rabbit IgG
- Format: Liquid
- Applications (as listed): WB, IP
Biological background
SNX4 antibody is widely applied in studies of membrane trafficking, endocytosis, and signal transduction. Sorting nexin 4 is part of the retromer independent recycling pathway and contributes to the trafficking of proteins such as the transferrin receptor. Disruption of SNX4 function impairs endosomal sorting and alters nutrient uptake, receptor turnover, and intracellular signaling dynamics. By detecting SNX4, researchers can explore how sorting nexins control endosomal recycling and cell surface composition.
In western blot assays, SNX4 antibody detects protein bands of the expected size in cell and tissue extracts. Immunohistochemistry highlights expression in epithelial and neuronal tissues, while immunofluorescence maps SNX4 distribution on endosomal membranes. These methods support detailed analysis of endosomal dynamics.
SNX4 has been implicated in neurodegenerative disease and cancer. Altered expression affects autophagy, mitochondrial function, and neuronal survival. In oncology, abnormal SNX4 activity influences growth factor receptor trafficking and signaling, potentially affecting tumor progression. By applying SNX4 antibody, scientists can investigate how sorting nexin mediated trafficking pathways contribute to both normal physiology and disease.
SNX4 antibody from
Research relevance and current trends
- Connecting protein-level changes to phenotype using orthogonal readouts (genetic perturbation, transcriptomics, imaging).
- Considering isoforms and post-translational regulation when interpreting protein-level changes.
- Comparing results across species and model systems with matched controls.
Common research applications
- Western blotting: compare relative abundance and activation-state changes across conditions.
Interpret changes in signal alongside appropriate controls and, when relevant, in parallel with total-protein or pathway readouts.
Notes for experimental interpretation
- Signal can reflect expression level, isoform composition, and post-translational state; interpret results in the context of your model system and stimuli.
- Species differences and sample matrices can influence epitope recognition; prioritize matched controls and orthogonal confirmation when feasible.
Antibody notes: Monoclonal antibodies provide a defined epitope recognition profile that can support consistent comparisons across experiments.
Customization & Add-ons: Can’t find the antibody you need—or require a custom format for your assay? We can help you source the best match or support custom antibody solutions for diverse research needs, including species and isotype selection, conjugations and labeling (e.g., HRP/AP, biotin, fluorophores), purification grade options (Protein A/G, affinity purified), formulation preferences (buffer selection, carrier-free, glycerol-free), custom concentrations and aliquoting, low-endotoxin options for cell-based work, and application-focused QC/validation support (project dependent). Click Talk to a Scientist to submit a request, email us at support@biohippo.com, or explore our Research Services for additional support—our team will follow up with feasibility details and next steps.
