Category: Scientific Advances
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Molecular Research Builds New Understanding of Skin Regeneration
A new study published in Nature Communications has found evidence deep within the skin about the mechanisms controlling skin repair and renewal.
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2020: A Year of Groundbreaking Discoveries During a Pandemic
Take a look back at a handful of groundbreaking research discoveries that marked one of, if not the most, unprecedented and transformative years for Feinberg.
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New Insights into Synaptic Plasticity
Calcium channels commonly found in immune cells are also present in the brain and regulate synaptic plasticity, according to a recently published study.
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Streamlining Chemical-Genetic Screening
Northwestern Medicine scientists have developed a new high-throughput sequencing tool to test how drugs interact with genetically modified cells.
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Free Northwestern-Developed Tools for Network Data Collection Released
Investigators at the Northwestern University Institute for Sexual and Gender Minority Health and Wellbeing have released Network Canvas, a powerful network data collection tool developed specifically to simplify network data capture.
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Discovering New Mechanisms in Epigenetics
A series of recent discoveries by Northwestern Medicine scientists point to a more nuanced understanding of how epigenetic regulators function.
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Identifying Oncogenes through Epigenetic Markers
Northwestern Medicine investigators have discovered that oncogenes contain specific epigenetic markers called broad genic repression domains, which could help identify potential therapeutic targets for cancer treatment.
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Rethinking Cardiac Repair After Injury
A signaling molecule produced by the lymphatic vasculature could be used to promote cardiac repair after heart attack, according to a Northwestern Medicine study published in Nature.
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Novel “Gate Latch” Mechanism Essential for Activation of Immune System
Northwestern Medicine investigators have identified a novel “gate latch” mechanism within the Orai1 ion channel that is essential for proper activation of the immune system.
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Mitochondria-Targeted Antioxidants Inhibit Tumor Growth
Northwestern Medicine investigators have discovered that inserting dietary antioxidants into the mitochondria of cancer cells may inhibit overall tumor growth.
