IMAGE: Lung squamous cell carcinoma

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DNA Damage

DNA Damage
DNA damage (red) in cells submitted to replicative stress, similar to those observed during cell reprogramming.

Contact: Nuria Noriega
comunicacion@cnio.es
Centro Nacional de Investigaciones Oncologicas (CNIO)

Comparison

Comparison
Lean vs. obese tissue is shown.

Contact: Melissa Osgood
mmo59@cornell.edu
607-255-2059
Cornell University

Advanced Materials

Advanced Materials
A confocal micrograph showing HCT 116 cancer cells containing drug delivery nanoparticles.

Contact: Lindsay Brooke
lindsay.brooke@nottingham.ac.uk
44-115-951-5751
University of Nottingham

Comparison of Stained and Unstained Images in Breast Cancer Diagnosis

Comparison of Stained and Unstained Images in Breast Cancer Diagnosis
Figure 3 from a new article in the Journal of Biomedical Optics compares stained bright-field microscopy (top row) and SLIM (bottom row) images in their respective abilities to show malignant ...

Contact: Amy Nelson
amy@spie.org
360-685-5478
SPIE--International Society for Optics and Photonics

Salk Institute Shows How DNA Repair Proteins Distinguish DNA Breaks at Cellular and And Viral Genome

Salk Institute Shows How DNA Repair Proteins Distinguish DNA Breaks at Cellular and And Viral Genome
DNA breaks and DNA viruses are ancient and persistent threats to cellular viability. A universal difference between cellular genomes is that they are far larger and have far more proteins called ...

Contact: Salk Communications
press@salk.edu
Salk Institute

The DNA Damage Response Goes Viral: A Way in for New Cancer Treatments

The DNA Damage Response Goes Viral: A Way in for New Cancer Treatments
Salk researchers show how DNA repair proteins sound the alarm to threats, pointing to a novel cancer therapy.

Contact: Salk Communications
press@salk.edu
Salk Institute

Chin-Yo Lin and Sridevi Addanki, University of Houston

Chin-Yo Lin and Sridevi Addanki, University of Houston
Professor Chin-Yo Lin works with Ph.D. student Sridevi Addanki in his lab at the Center for Nuclear Receptors and Cell Signaling in the College of Natural Sciences and Mathematics at the University of...

Contact: Lisa Merkl
lkmerkl@uh.edu
713-743-8192
University of Houston

Cancer Cells Embedded in Cryogel

Cancer Cells Embedded in Cryogel
Cancerous melanoma cells shown with their cell bodies (green) and nuclei (blue) are nestled in tiny hollow lumens within the polymeric cryogel (red) structure.

Contact: Kat McAlpine
katherine.mcalpine@wyss.harvard.edu
617-432-8266
Wyss Institute for Biologically Inspired Engineering at Harvard

Injectable Cryogel-Based Whole-Cell Cancer Vaccines SEM

Injectable Cryogel-Based Whole-Cell Cancer Vaccines SEM
This scanning electron microscopy image shows the thawed cryogel with its well-organized interconnected porous architecture ready to be infused with cancer cells and immune factors.

Contact: Kat McAlpine
katherine.mcalpine@wyss.harvard.edu
617-432-8266
Wyss Institute for Biologically Inspired Engineering at Harvard

3-D Model of a Tumor

3-D Model of a Tumor
This is a three-dimensional model of a tumor showing cell types in varying colors.

Contact: Catriona Kelly
Catriona.Kelly@ed.ac.uk
44-131-651-4401
University of Edinburgh

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