Bovine Serum Albumin, Standard Grade, pH 7.0, Origin USA Reference: BSA-1U Bovine Serum Albumin (also BSA) is a protein derived from bovine blood. It is used in fields like cell culture, molecular biology, protein biochemistry, and detection techniques.
Fetal Bovine Serum, Collected in South America, Exosome Depleted Reference: FBS-ED-12F Fetal Bovine Serum (FBS) is the most frequently used growth supplement for cell culture media. Exosome depleted FBS is suitable for exosome secretion research.
DIVERSA FluoGreen Anionic Peptide Delivery Nanoparticles Reference: DIV042F1 The Fluorescent Nanoparticle Reagent for Peptide Delivery (anionic and negatively charged) utilizing lipid nanoemulsions, emerges as a key asset in biomolecular engineering and peptide therapeutics. With its high fluorescence and non-toxic cellular uptake, it facilitates real-time tracking of peptide-loaded nanoparticles in live cells, providing critical insights into cellular dynamics, drug delivery, and therapeutic peptides. Researchers in fields like oncology, immunotherapy, and personalized medicine rely on this reagent for precision and efficiency. If other fluorescent labels were of preference, please ask DIVERSA for a customized solution. Fluorescent reagents for cationic peptides and hydrohobic peptides can be requested as a customized solution.
Bovine Serum Albumin, Fatty Acid Free, Origin USA Reference: BSA-FAF-1S Bovine Serum Albumin (also BSA) is a protein derived from bovine blood. It is used in fields like cell culture, molecular biology, protein biochemistry, and detection techniques.
Fetal Bovine Serum, Collected in South America, Low Endotoxin Reference: FBS-LE-12A Fetal Bovine Serum (FBS) is the most frequently used growth supplement for cell culture media. Low endotoxin FBS is suitable for sensitive cells, primary cell culture, and hybridoma cloning.
DIVERSA Protein Delivery Nanoparticles Reference: DIV031 Our Nanoparticle Reagent for Protein Targeted Delivery, leveraging lipid nanoemulsions, is a cornerstone in protein cell internalization. Designed for precision biomedicine and therapeutic evaluation, it facilitates protein delivery with minimal cytotoxicity, ensuring the preservation of protein structure and function. Researchers in protein engineering, targeted therapies, and regenerative medicine benefit from this reagent's efficiency in cellular and molecular biology. DIVERSA’S lipid nanoparticles can avoid tedious cell transfection experiments, ensuring constant intracellular levels of the associated and delivered proteins upon simply addition of the formulation into the cell culture medium. DIVERSA can offer customized solutions with a bioluminescent luciferase for cell tracking. DIVERSA’s lipid nanoparticles can be adapted to various administration routes, facilitating seamless translation from in vitro to in vivo settings, achieved through the development of customized solutions.