- Tel: 858.663.9055
Email: info@nsjbio.com
- Tel: 858.663.9055
- Email: info@nsjbio.com
Email: info@nsjbio.com
Zebrafish antibodies are widely used for protein detection in Danio rerio, a well-established model organism in developmental biology, genetics, and disease research. Primary antibodies enable analysis of protein expression, localization, and function in zebrafish tissues and embryos, supporting studies of organ development, cellular differentiation, and signaling pathways. These approaches are commonly applied to investigate key developmental regulators such as GFAP glial cell marker antibody, which marks early neural progenitor populations during embryogenesis.
Zebrafish (Danio rerio) is a powerful vertebrate model due to its genetic similarity to humans, optical transparency during early development, and rapid embryogenesis. Zebrafish antibodies are used to investigate protein expression patterns across tissues, enabling researchers to study developmental processes, tissue organization, and disease-associated changes in vivo.
Zebrafish antibodies are extensively used to study embryonic development, where protein expression patterns define cell fate, tissue formation, and organogenesis. These antibodies enable detection of signaling molecules, transcription factors, and structural proteins involved in early developmental stages. In addition to Pax6, proteins such as PAX2 developmental marker antibody are frequently used to investigate lineage specification and tissue differentiation during embryogenesis.
Zebrafish is widely used to model human diseases including cancer, neurological disorders, and cardiovascular conditions. Zebrafish antibodies support these studies by enabling visualization of protein expression changes associated with disease progression and therapeutic response. Common targets include regulators of cell growth and stress response such as p53 tumor suppressor antibody, which is frequently studied in zebrafish cancer models.
Zebrafish antibody reagents enable analysis of protein localization within Danio rerio cells and tissues, supporting studies of subcellular distribution and signaling pathways. These approaches are commonly used in imaging-based applications to investigate protein dynamics during development and disease.
Zebrafish antibodies support a wide range of research applications including protein detection, tissue analysis, and imaging-based studies in the zebrafish model. These tools enable investigation of gene function, developmental pathways, and disease-associated protein expression in Danio rerio.
Zebrafish antibody reagents are also commonly used in imaging-based applications such as immunofluorescence and whole-mount staining, enabling visualization of protein expression during embryogenesis and tissue development. These approaches support detailed analysis of spatial and temporal protein localization in the zebrafish model.
This Zebrafish antibody page is part of a broader antibody panel offered by NSJ Bioreagents.
A selection of zebrafish antibody products is shown below to support a range of research applications.
Zebrafish Pax6 Antibody Immunofluorescence (IF). Immunofluorescence analysis of Pax6 expression in Danio rerio embryo tissue using zebrafish Pax6 antibody. FFPE zebrafish embryo sections show nuclear localization of Pax6-positive cells (green) within developing eye and neural structures, consistent with the role of Paired box protein Pax6 in early vertebrate development. DAPI nuclear counterstain (blue) highlights overall tissue architecture. This image demonstrates the use of zebrafish antibodies for protein localization, embryonic development studies, and imaging-based analysis in the zebrafish model.
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