Myocardial Polyploidization Creates a Barrier to Heart Regeneration in Zebrafish von González-Rosa, Juan Manuel, Sharpe, Michka, Field, Dorothy, Soonpaa, Mark H., Field, Loren J., Burns, Caroline E., Burns, C. Geoffrey

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Endocardial Notch Signaling Promotes Cardiomyocyte Proliferation in the Regenerating Zebrafish Heart through Wnt Pathway Antagonism von Zhao, Long, Ben-Yair, Raz, Burns, Caroline E., Burns, C. Geoffrey

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Nerves Regulate Cardiomyocyte Proliferation and Heart Regeneration von Mahmoud, Ahmed I., O’Meara, Caitlin C., Gemberling, Matthew, Zhao, Long, Bryant, Donald M., Zheng, Ruimao, Gannon, Joseph B., Cai, Lei, Choi, Wen-Yee, Egnaczyk, Gregory F., Burns, Caroline E., Burns, C. Geoffrey, MacRae, Calum A., Poss, Kenneth D., Lee, Richard T.

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Notch signaling regulates cardiomyocyte proliferation during zebrafish heart regeneration von Zhao, Long, Borikova, Asya L., Ben-Yair, Raz, Guner-Ataman, Burcu, MacRae, Calum A., Lee, Richard T., Burns, C. Geoffrey, Burns, Caroline E.

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H3K27me3-mediated silencing of structural genes is required for zebrafish heart regeneration von Ben-Yair, Raz, Butty, Vincent L, Busby, Michele, Qiu, Yutong, Levine, Stuart S, Goren, Alon, Boyer, Laurie A, Burns, C Geoffrey, Burns, Caroline E

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Coordinating cardiomyocyte interactions to direct ventricular chamber morphogenesis von Han, Peidong, Bloomekatz, Joshua, Ren, Jie, Zhang, Ruilin, Grinstein, Jonathan D., Zhao, Long, Burns, C. Geoffrey, Burns, Caroline E., Anderson, Ryan M., Chi, Neil C.

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RBPMS2 Is a Myocardial-Enriched Splicing Regulator Required for Cardiac Function von Akerberg, Alexander A., Trembley, Michael, Butty, Vincent, Schwertner, Asya, Zhao, Long, Beerens, Manu, Liu, Xujie, Mahamdeh, Mohammed, Yuan, Shiaulou, Boyer, Laurie, MacRae, Calum, Nguyen, Christopher, Pu, William T., Burns, Caroline E., Burns, C. Geoffrey

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Complement Receptor C5aR1 Plays an Evolutionarily Conserved Role in Successful Cardiac Regeneration von Natarajan, Niranjana, Abbas, Yamen, Bryant, Donald M, Gonzalez-Rosa, Juan Manuel, Sharpe, Michka, Uygur, Aysu, Cocco-Delgado, Lucas H, Ho, Nhi Ngoc, Gerard, Norma P, Gerard, Craig J, MacRae, Calum A, Burns, Caroline E, Burns, C Geoffrey, Whited, Jessica L, Lee, Richard T

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Intrinsic myocardial defects underlie an Rbfox-deficient zebrafish model of hypoplastic left heart syndrome von Huang, Mengmeng, Akerberg, Alexander A., Zhang, Xiaoran, Yoon, Haejin, Joshi, Shakchhi, Hallinan, Celia, Nguyen, Christopher, Pu, William T., Haigis, Marcia C., Burns, C. Geoffrey, Burns, Caroline E.

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Unique developmental trajectories and genetic regulation of ventricular and outflow tract progenitors in the zebrafish second heart field von Paffett-Lugassy, Noelle, Novikov, Natasha, Jeffrey, Spencer, Abrial, Maryline, Guner-Ataman, Burcu, Sakthivel, Srinivasan, Burns, Caroline E, Burns, C Geoffrey

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Deep learning enables automated volumetric assessments of cardiac function in zebrafish von Akerberg, Alexander A, Burns, Caroline E, Burns, C Geoffrey, Nguyen, Christopher

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Chamber identity programs drive early functional partitioning of the heart von Mosimann, Christian, Panáková, Daniela, Werdich, Andreas A., Musso, Gabriel, Burger, Alexa, Lawson, Katy L., Carr, Logan A., Nevis, Kathleen R., Sabeh, M. Khaled, Zhou, Yi, Davidson, Alan J., DiBiase, Anthony, Burns, Caroline E., Burns, C. Geoffrey, MacRae, Calum A., Zon, Leonard I.

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Zebrafish second heart field development relies on progenitor specification in anterior lateral plate mesoderm and nkx2.5 function von Guner-Ataman, Burcu, Paffett-Lugassy, Noelle, Adams, Meghan S, Nevis, Kathleen R, Jahangiri, Leila, Obregon, Pablo, Kikuchi, Kazu, Poss, Kenneth D, Burns, Caroline E, Burns, C Geoffrey

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Latent TGFβ-binding proteins 1 and 3 protect the larval zebrafish outflow tract from aneurysmal dilatation von Abrial, Maryline, Basu, Sandeep, Huang, Mengmeng, Butty, Vincent, Schwertner, Asya, Jeffrey, Spencer, Jordan, Daniel, Burns, Caroline E, Burns, C Geoffrey

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Hemodynamic-mediated endocardial signaling controls in vivo myocardial reprogramming von Gálvez-Santisteban, Manuel, Chen, Danni, Zhang, Ruilin, Serrano, Ricardo, Nguyen, Cathleen, Zhao, Long, Nerb, Laura, Masutani, Evan M, Vermot, Julien, Burns, Charles Geoffrey, Burns, Caroline E, Del Álamo, Juan C, Chi, Neil C

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Tbx1 is required for second heart field proliferation in zebrafish von Nevis, Kathleen, Obregon, Pablo, Walsh, Conor, Guner‐Ataman, Burcu, Burns, C. Geoffrey, Burns, Caroline E.

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The miR-143-adducin3 pathway is essential for cardiac chamber morphogenesis von Deacon, Dekker C, Nevis, Kathleen R, Cashman, Timothy J, Zhou, Yong, Zhao, Long, Washko, Daniel, Guner-Ataman, Burcu, Burns, C Geoffrey, Burns, Caroline E

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TGF-β Signaling Is Necessary and Sufficient for Pharyngeal Arch Artery Angioblast Formation von Abrial, Maryline, Paffett-Lugassy, Noëlle, Jeffrey, Spencer, Jordan, Daniel, O’Loughlin, Evan, Frederick, Charles J., Burns, C. Geoffrey, Burns, Caroline E.

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Chemokine-Guided Angiogenesis Directs Coronary Vasculature Formation in Zebrafish von Harrison, Michael R.M., Bussmann, Jeroen, Huang, Ying, Zhao, Long, Osorio, Arthela, Burns, C. Geoffrey, Burns, Caroline E., Sucov, Henry M., Siekmann, Arndt F., Lien, Ching-Ling

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Notch1 acts via Foxc2 to promote definitive hematopoiesis via effects on hemogenic endothelium von Jang, Il Ho, Lu, Yi-Fen, Zhao, Long, Wenzel, Pamela L., Kume, Tsutomu, Datta, Sumon M., Arora, Natasha, Guiu, Jordi, Lagha, Mounia, Kim, Peter G., Do, Eun Kyoung, Kim, Jae Ho, Schlaeger, Thorsten M., Zon, Leonard I., Bigas, Anna, Burns, Caroline E., Daley, George Q.

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