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Kron, Stephen
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overview The Kron laboratory is a diverse and collaborative group of cell biologists, geneticists, biochemists, chemists and computer scientists. Our current basic research and technology efforts include 1) defining roles for chromatin dynamics and cell cycle regulation in DNA damage checkpoint response and cellular senescence, 2) dissecting cross-talk between metabolism and DNA damage response, 3) developing novel molecular assays to interrogate cell signaling in cancer, and 4) implementing novel mass spectrometry approaches to enable quantitative proteomics. We also pursue translational projects directed at 1) discovering inhibitors of cellular response to DNA double strand breaks as an approach to radiosensitization, 2) examining DNA damage and repair in tissues and tumors, and 3) exploiting DNA damage responses to induce anti-tumor immune responses.
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Concept DNA Damage
Academic Article NuA4 subunit Yng2 function in intra-S-phase DNA damage response.
Academic Article Robust G1 checkpoint arrest in budding yeast: dependence on DNA damage signaling and repair.
Academic Article Cellular response to DNA damage.
Academic Article Role of Dot1-dependent histone H3 methylation in G1 and S phase DNA damage checkpoint functions of Rad9.
Academic Article CDK Pho85 targets CDK inhibitor Sic1 to relieve yeast G1 checkpoint arrest after DNA damage.
Academic Article Relevance and irrelevance of DNA damage response to radiotherapy.
Academic Article Binding of chromatin-modifying activities to phosphorylated histone H2A at DNA damage sites.
Academic Article Dissection of Rad9 BRCT domain function in the mitotic checkpoint response to telomere uncapping.
Academic Article Response of human prostate cancer cells and tumors to combining PARP inhibition with ionizing radiation.
Academic Article Non-catalytic function for ATR in the checkpoint response.
Academic Article Epigenetic modifications in double-strand break DNA damage signaling and repair.
Academic Article Yeast cell death during DNA damage arrest is independent of caspase or reactive oxygen species.
Academic Article gamma-H2AX as a therapeutic target for improving the efficacy of radiation therapy.
Academic Article Yeast G1 DNA damage checkpoint regulation by H2A phosphorylation is independent of chromatin remodeling.
Academic Article DNA resection proteins Sgs1 and Exo1 are required for G1 checkpoint activation in budding yeast.
Academic Article Quantitative proteomics of the yeast Hsp70/Hsp90 interactomes during DNA damage reveal chaperone-dependent regulation of ribonucleotide reductase.
Academic Article The quantitative changes in the yeast Hsp70 and Hsp90 interactomes upon DNA damage.
Academic Article Lipid-derived reactive aldehydes link oxidative stress to cell senescence.
Academic Article Repurposing cephalosporin antibiotics as pro-senescent radiosensitizers.
Academic Article Targeted Covalent Inhibition of Telomerase.
Academic Article Small-molecule drug repurposing to target DNA damage repair and response pathways.
Academic Article TdT-dUTP DSB End Labeling (TUDEL), for Specific, Direct In Situ Labeling of DNA Double Strand Breaks.
Academic Article Targeting telomerase reverse transcriptase with the covalent inhibitor NU-1 confers immunogenic radiation sensitization.
Academic Article Noncanonical inhibition of topoisomerase II alpha by oxidative stress metabolites.
Grant Imaging DNA damage dynamics for diagnostics, screening and target discovery
Grant Tag-ChIP-MS for analysis of chromatin-level regulation of DNA repair
Grant Radiation-Induced G1 Checkpoint Arrest in Yeast
Grant Radiation response within the tumor microenvironment
Grant Targets of Reactive Lipid Species regulating DNA damage response and cell senescence
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  • DNA damage