Industrial & Scientific Lab Recombinant Proteins Overview
Lab recombinant proteins represent a significant advancement in biochemical research, offering researchers consistent and high-purity biomolecules essential for experimental success. These proteins, produced through recombinant DNA technology, allow for the reproduction of specific protein sequences, facilitating precise scientific investigations. The application spectrum of lab recombinant proteins is vast, including enzyme assays, therapeutic development, and biochemical analysis, making them indispensable in modern life science laboratories.
When selecting lab recombinant proteins, several factors warrant attention to ensure optimal performance in research applications. Consider the purity level, with high-grade proteins ensuring minimal contaminants which could skew results. The source organism, whether bacterial, yeast, or mammalian, informs the protein's functionality and compatibility with host systems. Proper storage conditions, typically at low temperatures, can extend the proteins' usability. Additional factors include sensitivity and specificity relevant to the intended assay, endotoxin levels to prevent unwanted cellular responses, and the importance of batch consistency for reproducible results. Familiarity with the recombinant expression system can also aid in selecting proteins aligned with experiment requirements. Awareness of these considerations can streamline the purchasing process and enhance experimental reliability.
Purchasing Considerations
- Purity Level: High purity levels are essential for accurate experimentation and results, minimizing contamination risks.
- Source Organism: Understanding the source organism helps gauge functionality and compatibility with various experimental setups.
- Storage Conditions: Proper storage conditions are crucial for maintaining protein stability and activity over time.
- Sensitivity and Specificity: These parameters determine the effectiveness of the recombinant proteins in assays and applications.
- Endotoxin Levels: Low endotoxin levels are vital for applications involving cell cultures or sensitive assays.
- Batch Consistency: Consistent protein quality across batches ensures reliable experimental outcomes.
- Recombinant Expression System: Different expression systems can impact protein quality and yield; alignment with desired applications is necessary.
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Recombinant Enzymes
Recombinant enzymes provide a variety of biochemical functionalities, facilitating complex reactions in research and manufacturing.
Recombinant Antibodies
Recombinant antibodies are tailored for specific targets, ensuring high specificity and reliability in various assays.
Recombinant Hormones
These recombinant proteins play critical roles in regulating physiological processes and are crucial for drug development.
Recombinant Growth Factors
Recombinant growth factors promote cell proliferation and differentiation, widely used in cellular and molecular biology.
Recombinant Cytokines
These proteins are essential for manipulating immune responses and are vital in therapeutic applications.