Anti-Human CD338/ABCG2 Antibody (5D3), APC

What it means: Target is the antigen (protein) this antibody is designed to recognize. The target on this page is CD338.

How to interpret here: Use CD338 to confirm you’re buying an antibody against the correct biomarker/antigen—especially when targets have close family members, isoforms, or similar subunits that can cross-react. Species fit: Reactivity is listed as Human. Choose a reactivity that matches your sample species; cross-species use should be treated as unvalidated unless specifically supported. Application fit: Listed applications include FCM. Use this as a short-list filter—an antibody that works well in one application may not perform the same in another. Clonality: Monoclonal means a single clone/epitope dominates the signal, which can improve specificity and lot-to-lot consistency. The clone number is 5D3, which is useful when matching literature, validating replacements, or keeping results consistent over time. Host: Raised in Mouse. This matters for choosing the correct secondary antibody (anti-Mouse), and for avoiding background when your sample contains endogenous immunoglobulins from the same host species. Isotype: IgG1, kappa can affect Fc-specific secondaries, Protein A/G binding, and multiplex design when pairing antibodies from different hosts/isotypes. Conjugate: APC indicates the antibody is supplied with a detection tag/label. Confirm compatibility with your detection platform and multiplex plan.

Why it matters for buying:

• Correct biology: The target defines what you are measuring/staining—mistargeting wastes samples and time, and can produce misleading conclusions.
• Specificity risk management: Targets in the same family (or processed/isoform forms) can look similar; using target + immunogen/construct context helps reduce cross-reactivity surprises.
• Workflow success: Reactivity, applications, and clonality determine whether the antibody is likely to work in your exact sample type and readout.
• Reproducibility: Clone number (for monoclonals), isotype, and purification details help you maintain consistency across lots and over long projects.

Practical guidance:

• Confirm the exact target identity: If your study distinguishes subunits/isoforms, validate that this target name matches the specific protein form you intend to detect.
• Plan specificity controls: Use orthogonal controls (e.g., positive/negative samples, knockdown/knockout where feasible, or peptide competition when appropriate) to confirm target-specific signal.
• Match detection reagents: Choose secondaries that match the host/isotype and avoid cross-reactivity in multiplex panels.
• Start with application-backed use: Prioritize antibodies with explicit support for your intended application(s) and sample species to reduce optimization burden.

What to watch out for:

• Family-member cross-reactivity: Closely related proteins can produce off-target bands or staining; interpret signals cautiously if multiple family members are expressed in your sample.
• Isoforms and processing: Alternative splicing, cleavage, and PTMs can shift apparent size or localization—multiple bands or unexpected patterns may still be target-related.
• Species mismatch: A target from one species may not be recognized in another; treat cross-species use as a separate validation task.
• Matrix effects: Fixation, lysis conditions, and epitope accessibility can change performance across WB/IHC/IF/ELISA—even for the same antibody.