| Field | Specification |
|---|---|
| Mfr No | |
| Alternative Names | Fibroblast growth factor 2; FGF-2; Basic fibroblast growth factor; bFGF; Heparin-binding growth factor 2; HBGF-2; FGF2; FGFB |
| Assay Time | |
| Assay Type | |
| Detection Range | |
| Expression System | |
| Gene ID | |
| Immunogen | Expression system for standard: E.coli; Immunogen sequence: P143-S288 |
| Product Type | |
| Reactivity | |
| Sample Type(s) | cell culture supernatants, serum and plasma (heparin, EDTA). |
| Sensitivity | |
| Storage | |
| Target | |
| UniProt # |
Background
Also known as: Fibroblast growth factor 2, FGF-2, Basic fibroblast growth factor, bFGF, Heparin-binding growth factor 2, HBGF-2, FGF2, FGFB.
Human FGF2 (FGF2) is a commonly measured biological analyte that can provide insight into cellular state and tissue physiology. This target is frequently investigated in Molecular & Cellular Biology research contexts. Growth factors and morphogens regulate cell proliferation, differentiation, survival, and tissue remodeling by engaging surface receptors and activating downstream signaling cascades. Their activity is often context-dependent, shaped by receptor availability, extracellular matrix binding, and feedback regulation.
Biological function and mechanism
In many systems, growth-factor signaling integrates environmental cues with developmental or repair programs. Downstream pathways frequently include kinase signaling modules and transcriptional responses that alter cell-cycle control, migration, or lineage specification. Because these signals can be transient, quantitative measurements are useful for understanding timing and dose dependence.
Why it matters in research
- Pathway engagement: Concentration changes can indicate activation of growth, survival, or differentiation programs.
- Tissue remodeling: Levels may relate to repair, fibrosis, angiogenesis, or developmental patterning in model systems.
- Mechanistic studies: Tracking abundance alongside downstream markers helps connect ligand availability to signaling output.
Disease and translational relevance
Altered growth-factor signaling has been reported across diverse conditions, including cancer biology, cardiovascular remodeling, wound repair, and metabolic dysfunction. For research interpretation, consider whether the measured form represents active ligand, bound complexes, or processed fragments, as these can influence apparent levels.
Sample data
| Concentration (pg/ml) | 0 | 62.5 | 125 | 250 | 500 | 1000 | 2000 | 4000 |
| O.D. | 0.057 | 0.117 | 0.169 | 0.26 | 0.51 | 0.87 | 1.427 | 1.838 |
Intra/inter assay consistency
| Intra-Assay Precision | Inter-Assay Precision | |||||
|---|---|---|---|---|---|---|
| Sample | 1 | 2 | 3 | 1 | 2 | 3 |
| n | 16 | 16 | 16 | 24 | 24 | 24 |
| Mean (pg/ml) | 150 | 752 | 1076 | 135 | 781 | 1071 |
| Standard deviation | 10.95 | 54.89 | 79.62 | 10.8 | 62.48 | 92.1 |
| CV (%) | 7.3% | 7.3% | 7.4% | 8% | 8% | 8.6% |
Kit components
Description|Quantity Pre-coated 96-well strip microplate|1 Standard|2 vials Biotinylated antibody (100x)|100ul Avidin-Biotin-Peroxidase Complex (100x)|100ul Sample Diluent|30ml Antibody Diluent|12ml Avidin-Biotin-Peroxidase Diluent|12ml Color Developing Reagent (TMB)|10ml Stop Solution|10ml Wash Buffer (25x)|20ml Adhesive plate sealers|4Materials required but not provided
- Microplate Reader capable of reading absorbance at 450nm.
- Incubator.
- Automated plate washer (optional).
- Pipettes and pipette tips capable of precisely dispensing 0.5 µl through 1 ml volumes of aqueous solutions.
- Multichannel pipettes are recommended for large amount of samples.
- Deionized or distilled water.
- 500ml graduated cylinders.
- Test tubes for dilution.
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►What positive and negative controls should I include?
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