LaboShop | Products | Invitrogen™ Aldehyde/Sulfate Latex Beads, 4% W/v, 5 µm
Surface Phosphatidylserine Is Responsible for the Internalization on Microvesicles Derived from Hypoxia-Induced Human Bone Marrow Mesenchymal Stem Cells into Human Endothelial Cells | PLOS ONE
Distribution of MMP14 on exosomes and in vitro proteolysis of exosomes... | Download Scientific Diagram
Aldehyde/Sulfate Latex Beads for Exosome Flow Cytometry | Biocompare.com Kit/Reagent Review
Attachment of bacterial Ags to the surface of aldehyde/sulfate latex... | Download Scientific Diagram
Differences between ADAM10/ADAM17 Exosomes Are Present in Plasma of CSs... | Download Scientific Diagram
Micromachines | Free Full-Text | Cytochalasin-B-Inducible Nanovesicle Mimics of Natural Extracellular Vesicles That Are Capable of Nucleic Acid Transfer
Bead Enhancement of EV Analysis
Frontiers | Exosomes Isolated from Ascites of T-Cell Lymphoma-Bearing Mice Expressing Surface CD24 and HSP-90 Induce a Tumor-Specific Immune Response
Biosensors | Free Full-Text | Progress in Isolation and Molecular Profiling of Small Extracellular Vesicles via Bead-Assisted Platforms
The binding affinity of Sgc8 derivatives to albumin. (A) Binding... | Download Scientific Diagram
Characterization of MSC-exo by nanosight and bead-coated flow... | Download Scientific Diagram
Frontiers | Proteomics Analysis of Exosomes From Patients With Active Tuberculosis Reveals Infection Profiles and Potential Biomarkers
Bead-based flow-cytometry for semi-quantitative analysis of complex membrane vesicle populations released by bacteria and host cells - ScienceDirect
Aldehyde Sulfate Latex Beads (Thermo Fisher) | Bioz | Ratings For Life-Science Research
Fluid nanoporous microinterface enables multiscale-enhanced affinity interaction for tumor-derived extracellular vesicle detection | PNAS
LKB1 Polyclonal Antibody (PA5-14074)
A bead-assisted flow cytometry method for the semi-quantitative analysis of Extracellular Vesicles | Scientific Reports
Flow Cytometric Analysis of Extracellular Vesicles from Cell-conditioned Media | Protocol
Micromachines | Free Full-Text | Cytochalasin-B-Inducible Nanovesicle Mimics of Natural Extracellular Vesicles That Are Capable of Nucleic Acid Transfer
