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1-10 of 359 results
  • TechSheet - Cardiac Fibroblast Cell Systems
    Technical Use and Product Information for CC-2903
  • TechSheet – Calcium SingleQuots™ (CC-4202)
    Technical information sheet for Clonetics™ Calcium SingleQuots™
  • Assessment of the Anti-angiogenic Effect of VEGFR2 siRNA in HUVEC
    Scientific poster for AACR 2015
  • A Quantitative, High-throughput, Real-time Angiogenic Tube Formation Assay
    Angiogenic Assay - Human Umbilical Vein Endothelial Cells and Human Dermal Fibroblasts in Co-culture
  • Assessment of the Anti-Angiogenic Effect of VEGFR2 siRNA in HUVEC Using the Nucleofector® Technology
    In the White Paper we show the use of our Nucleofector® Technology to transfect single-donor Clonetics® HUVEC with siRNA directed against Vascular Endothelial Growth Factor Receptor 2 (VEGFR2). .
  • Transfection Protocol for NHDF-Neo - 96-well Shuttle™ Device
    Instructions of use for transfection of normal human dermal fibroblasts (neonatal) with the P2 Primary Cell 96-well Nucleofector™ Kit
  • Transfection Protocol for NHDF-Neo - HT Nucleofector™ Device
    Instructions of use for transfection of normal human dermal fibroblasts (neonatal) with the P2 Primary Cell HT-Nucleofector™ Kit
  • Non-Viral Methods for Ex vivo Cell and Gene Therapy – Is the Future Non-viral?
    Learn from this interview about the types and benefits of non-viral methods for ex vivo cell and gene therapy as well as the readiness of electroporation-based technologies for use in GMP manufacturing.
  • Diabetes-related Differential Gene Expression in HAECs and ADSCs
    With the prevalence of diabetes growing worldwide, the availability of primary human cells from diabetic donors is critical to increase research and knowledge about the disease at a cellular level. In this study, we sought to identify genes differentially regulated in diabetic type 1 and type 2 adipose-derived stem cells (ADSCs) and human aortic endothelial cells (HAECs).
  • Primary Human Umbilical Vein Endothelial Cells
    Tech note demonstrating the successful development of tube formation assay using primary HUVECs that can be used to visualize angiogenesis in real-time.