ZFIN ID: ZDB-PERS-030925-11
Burns, Geoff
Email: Geoff.Burns@childrens.harvard.edu
URL:
Affiliation: Burns Lab
and also: Geoff Burns Lab
Address: Department of Cardiology Boston Children's Hospital/Harvard Medical School 300 Longwood Avenue, BCH3109 Boston, MA. 02115
Country: United States
Phone:
Fax:
ORCID ID:


BIOGRAPHY AND RESEARCH INTERESTS


PUBLICATIONS
Shin, M., Yin, H.M., Shih, Y.H., Nozaki, T., Portman, D., Toles, B., Kolb, A., Luk, K., Isogai, S., Ishida, K., Hanasaka, T., Parsons, M.J., Wolfe, S.A., Burns, C.E., Burns, C.G., Lawson, N.D. (2023) Generation and application of endogenously floxed alleles for cell-specific knockout in zebrafish. Developmental Cell. 58(22):2614-2626.e7
Sharpe, M., González-Rosa, J.M., Wranitz, F., Jeffrey, S., Copenhaver, K., Burns, C.G., Burns, C.E. (2022) Ruvbl2 Suppresses Cardiomyocyte Proliferation During Zebrafish Heart Development and Regeneration. Frontiers in cell and developmental biology. 10:800594
Abrial, M., Basu, S., Huang, M., Butty, V., Schwertner, A., Jeffrey, S., Jordan, D., Burns, C.E., Burns, C.G. (2022) Latent TGFβ binding proteins 1 and 3 protect the larval zebrafish outflow tract from aneurysmal dilatation. Disease models & mechanisms. 15(3):
Zhao, L., Ben-Yair, R., Burns, C.E., Burns, C.G. (2019) Endocardial Notch Signaling Promotes Cardiomyocyte Proliferation in the Regenerating Zebrafish Heart through Wnt Pathway Antagonism. Cell Reports. 26:546-554.e5
Guner-Ataman, B., González-Rosa, J.M., Shah, H.N., Butty, V.L., Jeffrey, S., Abrial, M., Boyer, L.A., Burns, C.G., Burns, C.E. (2018) Failed Progenitor Specification Underlies the Cardiopharyngeal Phenotypes in a Zebrafish Model of 22q11.2 Deletion Syndrome. Cell Reports. 24:1342-1354.e5
González-Rosa, J.M., Sharpe, M., Field, D., Soonpaa, M.H., Field, L.J., Burns, C.E., Burns, C.G. (2018) Myocardial Polyploidization Creates a Barrier to Heart Regeneration in Zebrafish. Developmental Cell. 44:433-446.e7
Natarajan, N., Abbas, Y., Bryant, D.M., Gonzalez-Rosa, J.M., Sharpe, M., Uygur, A., Cocco-Delgado, L.H., Ho, N.N., Gerard, N.P., Gerard, C.J., Macrae, C.A., Burns, C.E., Burns, C.G., Whited, J.L., Lee, R.T. (2018) Complement Receptor C5aR1 Plays an Evolutionarily Conserved Role in Successful Cardiac Regeneration. Circulation. 137(20):2152-2165
Paffett-Lugassy, N., Novikov, N., Jeffrey, S., Abrial, M., Guner-Ataman, B., Sakthivel, S., Burns, C.E., Burns, C.G. (2017) Unique developmental trajectories and genetic regulation of ventricular and outflow tract progenitors in the zebrafish second heart field. Development (Cambridge, England). 144(24):4616-4624
González-Rosa, J.M., Burns, C.E., Burns, C.G. (2017) Zebrafish heart regeneration: 15 years of discoveries. Regeneration (Oxford, England). 4:105-123
Abrial, M., Paffett-Lugassy, N., Jeffrey, S., Jordan, D., O'Loughlin, E., Frederick, C.J., Burns, C.G., Burns, C.E. (2017) TGF-β Signaling Is Necessary and Sufficient for Pharyngeal Arch Artery Angioblast Formation. Cell Reports. 20:973-983
Manalo, T., May, A., Quinn, J., Lafontant, D.S., Shifatu, O., He, W., Gonzalez-Rosa, J.M., Burns, G.C., Burns, C.E., Burns, A.R., Lafontant, P.J. (2016) Differential Lectin Binding Patterns Identify Distinct Heart Regions in Giant Danio (Devario aequipinnatus) and Zebrafish (Danio rerio) Hearts. The journal of histochemistry and cytochemistry : official journal of the Histochemistry Society. 64(11):687-714
Han, P., Bloomekatz, J., Ren, J., Zhang, R., Grinstein, J.D., Zhao, L., Burns, C.G., Burns, C.E., Anderson, R.M., Chi, N.C. (2016) Coordinating cardiomyocyte interactions to direct ventricular chamber morphogenesis. Nature. 534:700-4
Jahangiri, L., Sharpe, M., Novikov, N., González-Rosa, J.M., Borikova, A., Nevis, K., Paffett-Lugassy, N., Zhao, L., Adams, M., Guner-Ataman, B., Burns, C.E., Burns, C.G. (2016) The AP-1 transcription factor component Fosl2 potentiates the rate of myocardial differentiation from the zebrafish second heart field. Development (Cambridge, England). 143:113-22
Mahmoud, A.I., O'Meara, C.C., Gemberling, M., Zhao, L., Bryant, D.M., Zheng, R., Gannon, J.B., Cai, L., Choi, W.Y., Egnaczyk, G.F., Burns, C.E., Burns, C.G., MacRae, C.A., Poss, K.D., Lee, R.T. (2015) Nerves Regulate Cardiomyocyte Proliferation and Heart Regeneration. Developmental Cell. 34(4):387-99
Harrison, M.R., Bussmann, J., Huang, Y., Zhao, L., Osorio, A., Burns, C.G., Burns, C.E., Sucov, H.M., Siekmann, A.F., Lien, C.L. (2015) Chemokine-guided angiogenesis directs coronary vasculature formation in zebrafish. Developmental Cell. 33:442-54
Zhao, L., Borikova, A.L., Ben-Yair, R., Guner-Ataman, B., MacRae, C.A., Lee, R.T., Burns, C.G., and Burns, C.E. (2014) Notch signaling regulates cardiomyocyte proliferation during zebrafish heart regeneration. Proceedings of the National Academy of Sciences of the United States of America. 111(4):1403-1408
Paffett-Lugassy, N., Singh, R., Nevis, K.R., Guner-Ataman, B., O'Loughlin, E., Jahangiri, L., Harvey, R.P., Burns, C.G., and Burns, C.E. (2013) Heart field origin of great vessel precursors relies on nkx2.5-mediated vasculogenesis. Nature cell biology. 15(11):1362-1369
Guner-Ataman, B., Paffett-Lugassy, N., Adams, M.S., Nevis, K.R., Jahangiri, L., Obregon, P., Kikuchi, K., Poss, K.D., Burns, C.E., and Burns, C.G. (2013) Zebrafish second heart field development relies on progenitor specification in anterior lateral plate mesoderm and nkx2.5 function. Development (Cambridge, England). 140(6):1353-1363
Deacon, D.C., Nevis, K.R., Cashman, T.J., Zhou, Y., Zhao, L., Washko, D., Guner-Ataman, B., Burns, C.G., and Burns, C.E. (2010) The miR-143-adducin3 pathway is essential for cardiac chamber morphogenesis. Development (Cambridge, England). 137(11):1887-1896
Peal, D.S., Burns, C.G., MacRae, C.A., and Milan, D. (2009) Chondroitin sulfate expression is required for cardiac atrioventricular canal formation. Developmental Dynamics : an official publication of the American Association of Anatomists. 238(12):3103-3110
Lepilina, A., Coon, A.N., Kikuchi, K., Holdway, J.E., Roberts, R.W., Burns, C.G., and Poss, K.D. (2006) A Dynamic Epicardial Injury Response Supports Progenitor Cell Activity during Zebrafish Heart Regeneration. Cell. 127(3):607-619
Rottbauer, W., Wessels, G., Dahme, T., Just, S., Trano, N., Hassel, D., Burns, C.G., Katus, H.A., and Fishman, M.C. (2006) Cardiac Myosin Light Chain-2. A Novel Essential Component of Thick-Myofilament Assembly and Contractility of the Heart. Circulation research. 99(3):323-331
Carney, S.A., Chen, J., Burns, C.G., Xiong, K.M., Peterson, R.E., and Heideman, W. (2006) Aryl hydrocarbon receptor activation produces heart-specific transcriptional and toxic responses in developing zebrafish. Molecular pharmacology. 70(2):549-561
Burns, C.G., Milan, D.J., Grande, E.J., Rottbauer, W., MacRae, C.A., and Fishman, M.C. (2005) High-throughput assay for small molecules that modulate zebrafish embryonic heart rate. Nature Chemical Biology. 1(5):263-264
Shin, J.T., Priest, J.R., Ovcharenko, I., Ronco, A., Moore, R.K., Burns, C.G., and MacRae, C.A. (2005) Human-zebrafish non-coding conserved elements act in vivo to regulate transcription. Nucleic acids research. 33(17):5437-45
Antkiewicz, D.S., Burns, C.G., Carney, S.A., Peterson, R.E., and Heideman, W. (2005) Heart Malformation is an Early Response to TCDD in Embryonic Zebrafish. Toxicological sciences : an official journal of the Society of Toxicology. 84(2):368-377
Mably, J.D., Mohideen, M.A.P.K., Burns, C.G., Chen, J.-N., and Fishman, M.C. (2003) heart of glass regulates the concentric growth of the heart in zebrafish. Current biology : CB. 13(24):2138-2147

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