What is the Difference Between Biochemical and Cell Based Assays?
🆚 Go to Comparative Table 🆚The main difference between biochemical and cell-based assays lies in their structure, complexity, and the type of information they provide. Here are some key differences:
- Structure and Complexity: Biochemical assays detect, quantify, and/or study the binding or activity of biological molecules, such as enzymes. They are less complex than cell-based assays, which provide a more biologically relevant and physiologically accurate representation of a system.
- Type of Results: Biochemical assays offer quick and simple data analysis, while cell-based assays provide more comprehensive information on how a system behaves in its natural surroundings. This makes cell-based assays particularly useful for examining intricate biological pathways and identifying potential drug targets.
- Applications: Biochemical assays are often used in high-throughput screening (HTS) for hit identification, target validation, and characterization of compounds. Cell-based assays, on the other hand, are widely used in drug development, particularly in lead candidate selection, determining therapeutic mechanism of action, drug efficacy, safety, and toxicity.
- Cost and Development Time: Biochemical assays are generally less expensive and have a shorter development period compared to cell-based assays. However, due to their increased complexity and physiological relevance, cell-based assays often require specialized equipment and expertise.
In summary, the choice of assay depends on the nature of the research and the researcher's available resources. Biochemical assays are faster and simpler, while cell-based assays offer more detailed and biologically relevant information. Scientists should carefully consider all options to select the best experiment for their lab work.
Comparative Table: Biochemical vs Cell Based Assays
Here is a table comparing the differences between biochemical and cell-based assays:
| Feature | Biochemical Assays | Cell-Based Assays |
|---|---|---|
| Type of process and measurement | Target-based | Physiology-based |
| Complexity | Simpler | More complex |
| Biological relevance | Less biologically relevant | More biologically relevant |
| Application | Often used as the first type of assay in drug discovery | Often used after biochemical assays to examine compound activity via a functional read-out |
| Examples | ADP Hunter Assay for Kinase Activity Amplified Luminescent Proximity Homogenous Assay (AlphaScreen Technology) for Protein-Protein Interaction Assay for Protease Cleavage Activity |
Cell Proliferation Assays Viability Assays Migration Assays |
Biochemical assays are target-based and simpler than cell-based assays, making them often used as the first type of assay in drug discovery. On the other hand, cell-based assays are more complex, biologically relevant, and typically used after biochemical assays to examine compound activity via a functional read-out.
- Bioassay vs Chemical Assay
- Chemical vs Biochemical Reactions
- Chemistry vs Biochemistry
- Cell Biology vs Molecular Biology
- Biological Control vs Chemical Control
- Colorimetric vs Fluorometric Assay
- Concentration Cell vs Chemical Cell
- Cell Immobilization vs Enzyme Immobilization
- Thermochemical vs Biochemical Conversion of Biomass
- Quantum Biology vs Chemistry
- Mammalian vs Microbial Cell Culture
- Small Molecules vs Biologics
- Microbiology vs Molecular Biology
- Bioinformatics vs Computational Biology
- Physical vs Biological Science
- Elisa vs Western Blot
- Continuous Assay vs Stopped Assay
- Proteomics vs Metabolomics
- Cell Determination vs Cell Differentiation