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    32303 research outputs found

    Enhancing Organizational Resilience Through Fatality Prevention at Vulcan Materials Company

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    2025 ASEM 620 Capstone Projecthttps://digitalcommons.library.uab.edu/asem/1001/thumbnail.jp

    February 7, 2025 eReporter

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    June 17, 2025 eReporter

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    Serum Analysis for HIV-1 Envelope Specific and Autoantigen Reactive IgG and IgM antibody response in HVTN 702 Trial Participants

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    2025 Summer Expo Poster Presentation Physical & Applied Scienceshttps://digitalcommons.library.uab.edu/sp-expo/1128/thumbnail.jp

    HOCAs Pocus: Identifying the Source of Protective Properties in the CSF

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    2025 Summer Expo Poster Presentation Works in Progresshttps://digitalcommons.library.uab.edu/sp-expo/1132/thumbnail.jp

    July 11, 2025 eReporter

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    Celebrating Black Women

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    Patent coloring bookhttps://digitalcommons.library.uab.edu/patentcb/1002/thumbnail.jp

    August 29, 2025 eReporter

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    August 27, 2025 Blazer Weekly

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    Chromatin Structural Gene Expression Stratifies Cardiac Cell Populations in Health and Disease

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    Chromatin structure plays a central role in regulating gene expression and maintaining cellular identity, yet the structural factors driving these processes in cardiac disease remain poorly defined. To investigate whether these factors can distinguish healthy from diseased cardiac cell populations, we generated a comprehensive list of chromatin structural genes based on an extensive literature review. Applying this list to a published single-nuclei RNA sequencing (snRNA-seq) dataset from human hearts with and without dilated cardiomyopathy (DCM), we found that chromatin structural gene expression effectively stratified cardiomyocyte and fibroblast populations by disease status. Diseased cardiomyocytes exhibited reduced expression of contractile genes and increased expression of cardiomyopathy markers, while fibroblasts showed enhanced activation signatures. Among these factors, HMGN3 emerged as a candidate of interest, showing consistent downregulation in cardiomyocytes from human patients, as well as in mouse (pressure overload) and pig (myocardial infarction) models of heart failure. Functional studies in AC16 cells revealed that HMGN3 depletion promoted apoptosis, induced significant changes in gene expression, and reorganized chromatin structure by altering the distribution of the H3K27ac histone mark. These findings identify HMGN3 as a potential regulator of chromatin architecture in diseased cardiomyocytes, highlight the utility of chromatin structural changes in distinguishing pathological cardiac states, and reinforce the role of chromatin organization in shaping the cardiac phenotype.

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    UAB Digital Commons (Univ. of Alabama at Birmingham)
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