Trypsin-EDTA (0.05 %) in HBSS (1x), with phenol red Reference: TRY-4B Trypsin solution is obtained from porcine pancreas and suitable for cell detachment and dissociation of various cell types. A variety of available formulations suit many applications.
DIVERSA Small Molecule Delivery Nanoparticles Reference: DIV010 Our Nanoparticle Reagent for Small Molecule Delivery revolutionizes drug delivery systems, increasing solubility of hydrophobic compounds and catering amphiphilic and hydrophilic drugs. This lipid nanoparticles ensure protection against degradation and can enhance biodistribution, crucial for improved pharmacokinetics and drug efficacy. Its application spans across therapeutic fields, with precise in vivo and in vitro uses, including oncology, neurology, and personalized medicine, offering an efficient pathway for intracellular delivery with minimal cytotoxicity. For surface-decorated nanoparticles with specific ligands against biomarkers and targeted delivery, please ask for a customized solution. DIVERSA’s nanoparticles are highly biocompatible and can transport a higher amount of cargo in comparison to liposomes and polymeric nanoparticles.
TRIFic CD63 Exosome Assay Reference: EX102 The TRIFic™ exosome detection assay delivers clear and consistent data quickly by providing quantitative data from purified or unpurified samples, including direct measurement of exosomes in plasma in a convenient 96-well format. It is similar to an ELISA assay, but the target is detected directly with a Europium label without any enzymatic reaction. TRIFic™ exosome detection assays are being made available for widely used exosome markers, allowing for identification of CD9+/CD81+/CD63+ - EVs.
Bovine Serum Albumin, Standard Grade, pH 7.0, Origin USA Reference: BSA-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.
DIVERSA FluoGreen Small Molecule Delivery Nanoparticles Reference: DIV010F1 The Fluorescent Nanoparticle Reagent for Small Molecule Delivery is a groundbreaking tool in molecular biology and pharmacology. Its utilization of lipid nanoemulsions allows for high fluorescence and non-toxic cellular uptake, enabling precise tracking of drug internalization. In addition to its pharmaceutical nanotechnology applications, this reagent provides essential insights into drug-cell interactions, making it invaluable for targeted therapy, drug development, and bioimaging. These fluorescent nanoparticles are specially designed for in vitro studies, and can also be of application for cell tracking, DIVERSA can customized them with alternative fluorophores as Cy3, Cy5, Cy7, This can make possible to label specific cell populations and understand cell to cell interactions, the relation with the immune system, and in vivo fate, among other applications.
TRIFic CD81 Exosome Assay Reference: EX103 The TRIFic™ exosome detection assay delivers clear and consistent data quickly by providing quantitative data from purified or unpurified samples, including direct measurement of exosomes in plasma in a convenient 96-well format. It is similar to an ELISA assay, but the target is detected directly with a Europium label without any enzymatic reaction. TRIFic™ exosome detection assays are being made available for widely used exosome markers, allowing for identification of CD9+/CD81+/CD63+ - EVs.
Bovine Serum Albumin, Standard Grade, pH 7.0, Origin USA Reference: BSA-1T 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.
DIVERSA Anionic Peptide Delivery Nanoparticles Reference: DIV042 Our Nanoparticle Reagent for Peptide Delivery, based on biocompatible lipids that ensure an efficient interaction with anionic peptides, is essential for advanced peptide therapeutics and for the development of targeted therapies and advanced therapies. It's optimized for peptides with a negative net charge, playing a crucial role in research areas like proteomics, peptide drug development, and targeted therapy. This reagent supports efficient cellular delivery, maintaining peptide integrity and activity, ideal for innovative peptide-based treatments. These lipid nanoparticle formulations can be adapted to various administration routes, facilitating seamless translation from in vitro to in vivo settings, achieved through the development of customized solutions. Nanoparticle reagents for cationic peptides and hydrohobic peptides can be requested as a customized solution.