Хайлтын үр дүнгүүд - Elisabeth M. Zeisberg

Үр дүнг сайжруулах
  1. 1
    The role of promoter hypermethylation in fibroblast activation and fibrogenesis

    The role of promoter hypermethylation in fibroblast activation and fibrogenesis Elisabeth M. Zeisberg, Michael Zeisberg

    Хэвлэсэн 2012
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  2. 2
    Origins of Cardiac Fibroblasts

    Origins of Cardiac Fibroblasts Elisabeth M. Zeisberg, Raghu Kalluri

    Хэвлэсэн 2010
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  3. 3
    The role of endothelial-to-mesenchymal transition in cancer progression

    The role of endothelial-to-mesenchymal transition in cancer progression Scott Potenta, Elisabeth M. Zeisberg, Raghu Kalluri

    Хэвлэсэн 2008
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  4. 4
    The origin of fibroblasts and mechanism of cardiac fibrosis

    The origin of fibroblasts and mechanism of cardiac fibrosis Guido Krenning, Elisabeth M. Zeisberg, Raghu Kalluri

    Хэвлэсэн 2010
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  5. 5
    Epigenetic Regulation of Endothelial-to-Mesenchymal Transition in Chronic Heart Disease

    Epigenetic Regulation of Endothelial-to-Mesenchymal Transition in Chronic Heart Disease Melanie S. Hulshoff, Xingbo Xu, Guido Krenning, Elisabeth M. Zeisberg

    Хэвлэсэн 2018
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  6. 6
    β1 integrin expression on endothelial cells is required for angiogenesis but not for vasculogenesis

    β1 integrin expression on endothelial cells is required for angiogenesis but not for vasculogenesis Harikrishna Tanjore, Elisabeth M. Zeisberg, Behzad Gerami‐Naini, Raghu Kalluri

    Хэвлэсэн 2007
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    Artigo
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  7. 7
    Fibroblasts in Kidney Fibrosis Emerge via Endothelial-to-Mesenchymal Transition

    Fibroblasts in Kidney Fibrosis Emerge via Endothelial-to-Mesenchymal Transition Elisabeth M. Zeisberg, Scott Potenta, Hikaru Sugimoto, Michael Zeisberg, Raghu Kalluri

    Хэвлэсэн 2008
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    Artigo
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  8. 8
    Hypoxia-induced endothelial-mesenchymal transition is associated with RASAL1 promoter hypermethylation in human coronary endothelial cells

    Hypoxia-induced endothelial-mesenchymal transition is associated with RASAL1 promoter hypermethylation in human coronary endothelial cells Xingbo Xu, Xiao-Ying Tan, Melanie S. Hulshoff, Tim Wilhelmi, Michael Zeisberg, Elisabeth M. Zeisberg

    Хэвлэсэн 2016
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    Carta
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  9. 9
    Snail Is a Direct Target of Hypoxia-inducible Factor 1α (HIF1α) in Hypoxia-induced Endothelial to Mesenchymal Transition of Human Coronary Endothelial Cells

    Snail Is a Direct Target of Hypoxia-inducible Factor 1α (HIF1α) in Hypoxia-induced Endothelial to Mesenchymal Transition of Human Coronary Endothelial Cells Xingbo Xu, Xiao-Ying Tan, Björn Tampe, Elisa Sánchez, Michael Zeisberg, Elisabeth M. Zeisberg

    Хэвлэсэн 2015
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    Artigo
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  10. 10
    Morphogenesis of the right ventricle requires myocardial expression of Gata4

    Morphogenesis of the right ventricle requires myocardial expression of Gata4 Elisabeth M. Zeisberg, Qing Ma, Amy L. Juraszek, Kelvin A. Moses, Robert J. Schwartz, Seigo Izumo, William T. Pu

    Хэвлэсэн 2005
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    Artigo
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  11. 11
    Serelaxin alleviates cardiac fibrosis through inhibiting endothelial-to-mesenchymal transition via RXFP1

    Serelaxin alleviates cardiac fibrosis through inhibiting endothelial-to-mesenchymal transition via RXFP1 Tim Wilhelmi, Xingbo Xu, Xiao-Ying Tan, Melanie S. Hulshoff, Sabine Maamari, Samuel Sossalla, Michael Zeisberg, Elisabeth M. Zeisberg

    Хэвлэсэн 2020
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    Artigo
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  12. 12
    Induction of Tet3-dependent Epigenetic Remodeling by Low-dose Hydralazine Attenuates Progression of Chronic Kidney Disease

    Induction of Tet3-dependent Epigenetic Remodeling by Low-dose Hydralazine Attenuates Progression of Chronic Kidney Disease Björn Tampe, Désirée Tampe, Elisabeth M. Zeisberg, Gerhard A. Müller, Wibke Bechtel‐Walz, Michael Koziolek, Raghu Kalluri, Michael Zeisberg

    Хэвлэсэн 2014
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    Artigo
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  13. 13
    Low-dose hydralazine prevents fibrosis in a murine model of acute kidney injury–to–chronic kidney disease progression

    Low-dose hydralazine prevents fibrosis in a murine model of acute kidney injury–to–chronic kidney disease progression Björn Tampe, Ulrike Steinle, Désirée Tampe, Julienne L. Carstens, Peter Korsten, Elisabeth M. Zeisberg, Gerhard A. Müller, Raghu Kalluri, Michael Zeisberg

    Хэвлэсэн 2016
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    Artigo
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  14. 14
    Methylation determines fibroblast activation and fibrogenesis in the kidney

    Methylation determines fibroblast activation and fibrogenesis in the kidney Wibke Bechtel‐Walz, Scott McGoohan, Elisabeth M. Zeisberg, Gerhard A. Müller, Hubert Kalbacher, David J. Salant, Claudia Müller, Raghu Kalluri, Michael Zeisberg

    Хэвлэсэн 2010
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    Artigo
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  15. 15
    Tet3-Mediated Hydroxymethylation of Epigenetically Silenced Genes Contributes to Bone Morphogenic Protein 7-Induced Reversal of Kidney Fibrosis

    Tet3-Mediated Hydroxymethylation of Epigenetically Silenced Genes Contributes to Bone Morphogenic Protein 7-Induced Reversal of Kidney Fibrosis Björn Tampe, Désirée Tampe, Claudia Müller, Hikaru Sugimoto, Valerie S. LeBleu, Xingbo Xu, Gerhard A. Müller, Elisabeth M. Zeisberg, Raghu Kalluri, Michael Zeisberg

    Хэвлэсэн 2014
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    Artigo
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  16. 16
    Increased concentration of circulating angiogenesis and nitric oxide inhibitors induces endothelial to mesenchymal transition and myocardial fibrosis in patients with chronic kidney disease

    Increased concentration of circulating angiogenesis and nitric oxide inhibitors induces endothelial to mesenchymal transition and myocardial fibrosis in patients with chronic kidne... David M. Charytan, Robert F. Padera, Alexander M. Helfand, Michael Zeisberg, Xingbo Xu, Xiaopeng Liu, Jonathan Himmelfarb, Angeles Cinelli, Raghu Kalluri, Elisabeth M. Zeisberg

    Хэвлэсэн 2014
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    Artigo
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  17. 17
    Epigenetic balance of aberrant Rasal1 promoter methylation and hydroxymethylation regulates cardiac fibrosis

    Epigenetic balance of aberrant Rasal1 promoter methylation and hydroxymethylation regulates cardiac fibrosis Xingbo Xu, Xiao-Ying Tan, Björn Tampe, Gunsmaa Nyamsuren, Xiaopeng Liu, Lars S. Maier, Samuel Sossalla, Raghu Kalluri, Michael Zeisberg, Gerd Hasenfuß, Elisabeth M. Zeisberg

    Хэвлэсэн 2015
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    Artigo
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  18. 18
    Endothelial p53 Deletion Improves Angiogenesis and Prevents Cardiac Fibrosis and Heart Failure Induced by Pressure Overload in Mice

    Endothelial p53 Deletion Improves Angiogenesis and Prevents Cardiac Fibrosis and Heart Failure Induced by Pressure Overload in Mice Rajinikanth Gogiraju, Xingbo Xu, Magdalena L. Bochenek, Julia H. Steinbrecher, Stephan E. Lehnart, Philip Wenzel, Michael Kessel, Elisabeth M. Zeisberg, Matthias Dobbelstein, Katrin Schäfer

    Хэвлэсэн 2015
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    Artigo
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  19. 19
    High-fidelity CRISPR/Cas9- based gene-specific hydroxymethylation rescues gene expression and attenuates renal fibrosis

    High-fidelity CRISPR/Cas9- based gene-specific hydroxymethylation rescues gene expression and attenuates renal fibrosis Xingbo Xu, Xiao-Ying Tan, Björn Tampe, Tim Wilhelmi, Melanie S. Hulshoff, Shoji Saito, Tobias Moser, Raghu Kalluri, Gerd Hasenfuß, Elisabeth M. Zeisberg, Michael Zeisberg

    Хэвлэсэн 2018
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    Artigo
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  20. 20
    Endocardial Fibroelastosis Is Caused by Aberrant Endothelial to Mesenchymal Transition

    Endocardial Fibroelastosis Is Caused by Aberrant Endothelial to Mesenchymal Transition Xingbo Xu, Ingeborg Friehs, Tachi Zhong Hu, Ivan Melnychenko, Björn Tampe, Fouzi Alnour, Maria Iascone, Raghu Kalluri, Michael Zeisberg, Pedro J. del Nido, Elisabeth M. Zeisberg

    Хэвлэсэн 2015
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    Artigo
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