DEPDC5 Antibody / DEP domain-containing protein 5

Overview

DEPDC5 Antibody / DEP domain-containing protein 5 is an antibody targeting DEP, raised in Rabbit for protein detection and localization studies where these specifications are required.

Key elements and design rationale

• Target: DEP.
• Antibody identity: Polyclonal (rabbit origin); Rabbit Ig.
• Conjugate/label: Unconjugated (affects detection chemistry and multiplex compatibility).
• Format: Purified.
• Species reactivity: Human.
• Listed applications: WB, FACS (refer to on-page specifications for application-specific guidance).

Biological background

The DEPDC5 gene encodes DEP domain-containing protein 5, a protein which contains a DEP (disheveled, EGL-10, pleckstrin) domain. This domain is known for its involvement in signal transduction and cellular communication, highlighting the importance of DEPDC5 in coordinating crucial cellular processes. DEP domain-containing protein 5 has been implicated in the regulation of cellular signaling pathways, including the mechanistic target of rapamycin complex 1 (mTORC1) pathway. By interacting with key proteins in this pathway, DEPDC5 plays a critical role in maintaining cellular homeostasis and growth. Mutations in the DEPDC5 gene have been linked to various neurological disorders, including familial focal epilepsy.

Research relevance and current trends

• Comparative expression profiling across cell types, tissues, or perturbations (e.g., drug treatment, genetic editing, or differentiation).
• Subcellular localization and trafficking studies, including co-localization with pathway markers in microscopy-based assays.
• Integration of protein-level measurements with transcriptomics or proteomics to relate abundance to regulation and phenotype.

Common research applications

• Western blotting: researchers commonly compare relative signal levels across conditions and use appropriate negative/positive controls for interpretation.
• Flow cytometry: researchers commonly compare relative signal levels across conditions and use appropriate negative/positive controls for interpretation.

Interpretation should account for antibody-dependent factors such as epitope accessibility, isoforms, and sample preparation differences across workflows.

Notes for experimental interpretation

• Isoforms and PTMs: many targets have multiple isoforms and post-translational modifications that can shift apparent signal or localization; interpret bands/signals accordingly.
• Epitope context: binding can depend on protein conformation and sample processing; region information in the title/immunogen can help anticipate what may be detected.
• Species differences: predicted or validated reactivity may vary by ortholog sequence and sample context; confirm in your model system.
• Control concepts: include negative controls (no-primary/isotype), and where possible genetic controls (KO/KD) or independent antibodies to strengthen conclusions.

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.