EVOS Cell Imaging Systems

Article Collection: Insight from Imaging: The EVOS Cell Imaging Systems




Imaging is an integral tool for scientist across a range of research subjects, from analyzing the expression of individual proteins or genes in single cells to the screening of drugs in multiwell plates. For the last decade and a half, the family of EVOS Cell Imaging Systems has been a leader in microscopy technology utilized by scientists around the world. Providing self-contained and easy to maintain systems, the EVOS family of systems produce high quality brightfield, phase contrast and multichannel fluorescence images.

In celebration of the 15th anniversary, we present this article collection highlighting the many research applications of the EVOS Cell Imaging Systems. The selected research articles demonstrate the contribution of the EVOS Cell Imaging Systems to the fields of cell biology, immunology, drug discovery and biomaterials.

By introducing readers to the EVOS Cell Imaging System, we hope to empower users to investigate how microscopy technology can be used to gain insights into their specific research goals.

What you will learn:

  • The versatility of the EVOS Cell Imaging Systems
  • Application of microscopy techniques to different research areas
  • Examples of microscopy analysis tools

Articles contained in the collection:

  • Li, J. et al. (2021). The Coiled-Coil Forming Peptide (KVSALKE)5 Is a Cell Penetrating Peptide that Enhances the Intracellular Delivery of Proteins. Advanced Healthcare Materials
  • Hansell, C.A. et al. (2020). Analysis of lung stromal expression of the atypical chemokine receptor ACKR2 reveals unanticipated expression in murine blood endothelial cells. European Journal of Immunology
  • Maitz, J. et al. (2020). The effects of cross-linking a collagen-elastin dermal template on scaffold bio-stability and degradation. Journal of Tissue Engineering and Regenerative Medicine
  • Jin, Y. et al. (2020). Expression profiles of miRNAs in giant cell tumor of bone showed miR-187-5p and miR-1323 can regulate biological functions through inhibiting FRS2. Cancer Medicine
Current Prorocols

Cytometry

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