The Role of Iron Metabolism in Cancer Progression
Iron metabolism plays a role in cancer development and progression, and modulates the immune response. Understanding how iron influences cancer and the immune system can aid the development of new…
Dig Deeper Into the Complexities of Pancreatic Cancer with Multiplex Imaging
Cell DIVE is an iterative staining workflow for multiplexed imaging that unveils biological pathways to dig deeper into the complexities of pancreatic cancer.
Complex Made Simple: Antibodies in Multiplexed Imaging
Build panels, plan studies, and get the most from precious reagents using this antibody multiplexing guide from Leica Microsystems
Multiplexed Imaging Types, Benefits and Applications
Multiplexed imaging is an emerging and exciting way to extract information from human tissue samples by visualizing many more biomarkers than traditional microscopy. By observing many biomarkers…
The Potential of Coherent Raman Scattering Microscopy at a Glance
Coherent Raman scattering microscopy (CRS) is a powerful approach for label-free, chemically specific imaging. It is based on the characteristic intrinsic vibrational contrast of molecules in the…
Imaging of Anti-Cancer Drug Uptake in Spheroids using DLS
Spheroid 3D cell culture models mimic the physiology and functions of living tissues making them a useful tool to study tumor morphology and screen anti-cancer drugs. The drug AZD2014 is a recognized…
Be Confident in your Results with Cell DIVE Validated Antibodies
The Cell DIVE System includes a carefully curated list of hundreds of commercially available antibodies validated to offer optimal specificity and sensitivity in multiplexed imaging. That validation…
Regulators of Actin Cytoskeletal Regulation and Cell Migration in Human NK Cells
Dr. Mace will describe new advances in our understanding of the regulation of human NK cell actin cytoskeletal remodeling in cell migration and immune synapse formation derived from confocal and…
がん研究
がんは、成長調節における欠損細胞によって引き起こされる複雑な異質性疾患です。 細胞または細胞群内の遺伝的および後成的変化が通常の機能を妨げ、自律的、非制御の細胞成長と増殖を引き起こします。
