|
|
|
|
Banjo, T., Grajcarek, J., Yoshino, D., Osada, H., Miyasaka, K.Y., Kida, Y.S., Ueki, Y., Nagayama, K., Kawakami, K., Matsumoto, T., Sato, M., and Ogura, T. (2013) Haemodynamically dependent valvulogenesis of zebrafish heart is mediated by flow-dependent expression of miR-21. Nature communications. 4:1978
|
Bhakta, M., Padanad, M.S., Harris, J.P., Lubczyk, C., Amatruda, J.F., Munshi, N.V. (2018) pouC regulates expression of bmp4 during atrioventricular canal formation in zebrafish. Developmental Dynamics : an official publication of the American Association of Anatomists. 248(2):173-188
|
Burczyk, M.S., Burkhalter, M.D., Tena, T.C., Grisanti, L.A., Kauk, M., Matysik, S., Donow, C., Kustermann, M., Rothe, M., Cui, Y., Raad, F., Laue, S., Moretti, A., Zimmermann, W.H., Wess, J., Kühl, M., Hoffmann, C., Tilley, D.G., Philipp, M. (2019) Muscarinic receptors promote pacemaker fate at the expense of secondary conduction system tissue in zebrafish. JCI insight. 4(20):
|
|
|
Cai, C., Sang, C., Du, J., Jia, H., Tu, J., Wan, Q., Bao, B., Xie, S., Huang, Y., Li, A., Li, J., Yang, K., Wang, S., Lu, Q. (2018) Knockout of tnni1b in zebrafish causes defects in atrioventricular valve development via the inhibition of the myocardial wnt signaling pathway. FASEB journal : official publication of the Federation of American Societies for Experimental Biology. 33(1):696-710
|
Camarata, T., Krcmery, J., Snyder, D., Park, S., Topczewski, J., and Simon, H.G. (2010) Pdlim7 (LMP4) regulation of Tbx5 specifies zebrafish heart atrio-ventricular boundary and valve formation. Developmental Biology. 337(2):233-245
|
Camarata, T., Snyder, D., Schwend, T., Klosowiak, J., Holtrup, B., and Simon, H.G. (2010) Pdlim7 is required for maintenance of the mesenchymal/epidermal Fgf signaling feedback loop during zebrafish pectoral fin development. BMC Developmental Biology. 10:104
|
Capon, S.J., Baillie, G.J., Bower, N.I., da Silva, J.A., Paterson, S., Hogan, B.M., Simons, C., Smith, K.A. (2017) Utilising polymorphisms to achieve allele-specific genome editing in zebrafish. Biology Open. 6(1):125-131
|
Casey, M.A., Hill, J.T., Hoshijima, K., Bryan, C.D., Gribble, S.L., Brown, J.T., Chien, C.B., Yost, H.J., Kwan, K.M. (2021) Shutdown corner, a large deletion mutant isolated from a haploid mutagenesis screen in zebrafish. G3 (Bethesda). 12(3):
|
|
|
Chen, Y.H., Hsu, R.J., Chen, T.Y., Huang, Y.K., Lee, H.C., Hu, S.C., Harn, H.J., Jeng, J.R., Sun, C.K., Lin, S.Z., and Tsai, H.J. (2012) The toxic effect of Amiodarone on valve formation in the developing heart of zebrafish embryos. Reproductive toxicology (Elmsford, N.Y.). 33(2):233-244
|
Cheng, L., Guo, X.F., Yang, X.Y., Chong, M., Cheng, J., Li, G., Gui, Y.H., and Lu, D.R. (2006) delta-sarcoglycan is necessary for early heart and muscle development in zebrafish. Biochemical and Biophysical Research Communications. 344(4):1290-1299
|
Chi, N.C., Shaw, R.M., De Val, S., Kang, G., Jan, L.Y., Black, B.L., and Stainier, D.Y. (2008) Foxn4 directly regulates tbx2b expression and atrioventricular canal formation. Genes & Development. 22(6):734-739
|
|
|
Fang, Y., Lai, K.S., She, P., Sun, J., Tao, W., Zhong, T.P. (2020) Tbx20 Induction Promotes Zebrafish Heart Regeneration by Inducing Cardiomyocyte Dedifferentiation and Endocardial Expansion. Frontiers in cell and developmental biology. 8:738
|
|
|
Geng, F.S., Abbas, L., Baxendale, S., Holdsworth, C.J., Swanson, A.G., Slanchev, K., Hammerschmidt, M., Topczewski, J., and Whitfield, T.T. (2013) Semicircular canal morphogenesis in the zebrafish inner ear requires the function of gpr126 (lauscher), an adhesion class G protein-coupled receptor gene. Development (Cambridge, England). 40(21):4362-4374
|
Glenn, N.O., McKane, M., Kohli, V., Wen, K.K., Rubenstein, P.A., Bartmanm, T., and Sumanas, S. (2012) The W-Loop of Alpha-Cardiac Actin Is Critical for Heart Function and Endocardial Cushion Morphogenesis in Zebrafish. Molecular and cellular biology. 32(17):3527-3540
|
Gou, D., Zhou, J., Song, Q., Wang, Z., Bai, X., Zhang, Y., Zuo, M., Wang, F., Chen, A., Yousaf, M., Yang, Z., Peng, H., Li, K., Xie, W., Tang, J., Yao, Y., Han, M., Ke, T., Chen, Q., Xu, C., Wang, Q. (2020) Mog1 knockout causes cardiac hypertrophy and heart failure by downregulating tbx5-cryab-hspb2 signaling in zebrafish. Acta physiologica (Oxford, England). 231(3):e13567
|
Grassini, D.R., Lagendijk, A.K., De Angelis, J.E., Da Silva, J., Jeanes, A., Zettler, N., Bower, N.I., Hogan, B.M., Smith, K.A. (2018) Nppa and Nppb act redundantly during zebrafish cardiac development to confine AVC marker expression and reduce cardiac jelly volume. Development (Cambridge, England). 145(12)
|
Holowiecki, A., Linstrum, K., Ravisankar, P., Chetal, K., Salomonis, N., Waxman, J.S. (2020) Pbx4 limits heart size and fosters arch artery formation through partitioning second heart field progenitors and restricting proliferation. Development (Cambridge, England). 147(5):
|
Huang, H., Jin, T., He, J., Ding, Q., Xu, D., Wang, L., Zhang, Y., Pan, Y., Wang, Z., and Chen, Y. (2012) Progesterone and AdipoQ Receptor 11 Links Ras Signaling to Cardiac Development in Zebrafish. Arterioscler. Thromb. Vasc. Biol.. 32(9):2158-2170
|
|
|
Hurlstone, A.F., Haramis, A.P., Wienholds, E., Begthel, H., Korving, J., van Eeden, F., Cuppen, E., Zivkovic, D., Plasterk, R.H., and Clevers, H. (2003) The Wnt/beta-catenin pathway regulates cardiac valve formation. Nature. 425(6958):633-637
|
|
|
Kang, J., Hu, J., Karra, R., Dickson, A.L., Tornini, V.A., Nachtrab, G., Gemberling, M., Goldman, J.A., Black, B.L., Poss, K.D. (2016) Modulation of tissue repair by regeneration enhancer elements. Nature. 532(7598):201-6
|
Kang, J.S., Oohashi, T., Kawakami, Y., Bekku, Y., Izpisua, B.J.C., and Ninomiya, Y. (2004) Characterization of dermacan, a novel zebrafish lectican gene, expressed in dermal bones. Mechanisms of Development. 121(3):301-312
|
Kim, J.D., Kim, H.J., Koun, S., Ham, H.J., Kim, M.J., Rhee, M., Huh, T.L. (2014) Zebrafish Crip2 Plays a Critical Role in Atrioventricular Valve Development by Downregulating the Expression of ECM Genes in the Endocardial Cushion. Molecules and cells. 37(5):406-11
|
Kim, Y.S., Kim, M.J., Koo, T.H., Kim, J.D., Koun, S., Ham, H.J., Lee, Y.M., Rhee, M., Yeo, S.Y., and Huh, T.L. (2012) Histone deacetylase is required for the activation of Wnt/β-catenin signaling crucial for heart valve formation in zebrafish embryos. Biochemical and Biophysical Research Communications. 423(1):140-146
|
Kolpa, H.J., Peal, D.S., Lynch, S.N., Giokas, A.C., Ghatak, S., Misra, S., Norris, R.A., MacRae, C.A., Markwald, R.R., Ellinor, P., Bischoff, J., and Milan, D.J. (2013) miR-21 represses Pdcd4 during cardiac valvulogenesis. Development (Cambridge, England). 140(10):2172-80
|
Kröll-Hermi, A., Ebstein, F., Stoetzel, C., Geoffroy, V., Schaefer, E., Scheidecker, S., Bär, S., Takamiya, M., Kawakami, K., Zieba, B.A., Studer, F., Pelletier, V., Eyermann, C., Speeg-Schatz, C., Laugel, V., Lipsker, D., Sandron, F., McGinn, S., Boland, A., Deleuze, J.F., Kuhn, L., Chicher, J., Hammann, P., Friant, S., Etard, C., Krüger, E., Muller, J., Strähle, U., Dollfus, H. (2020) Proteasome subunit PSMC3 variants cause neurosensory syndrome combining deafness and cataract due to proteotoxic stress. EMBO Molecular Medicine. 12(7):e11861
|
Lan, Y., Pan, H., Li, C., Banks, K.M., Sam, J., Ding, B., Elemento, O., Goll, M.G., Evans, T. (2019) TETs Regulate Proepicardial Cell Migration through Extracellular Matrix Organization during Zebrafish Cardiogenesis. Cell Reports. 26:720-732.e4
|
Langenbacher, A.D., Dong, Y., Shu, X., Choi, J., Nicoll, D.A., Goldhaber, J.I., Philipson, K.D., and Chen, J.N. (2005) Mutation in sodium-calcium exchanger 1 (NCX1) causes cardiac fibrillation in zebrafish. Proceedings of the National Academy of Sciences of the United States of America. 102(49):17699-17704
|
Lee, E., Koo, Y., Ng, A., Wei, Y., Luby-Phelps, K., Juraszek, A., Xavier, R.J., Cleaver, O., Levine, B., and Amatruda, J.F. (2014) Autophagy is essential for cardiac morphogenesis during vertebrate development. Autophagy. 10(4):572-87
|
Lee, H.C., Lo, H.C., Lo, D.M., Su, M.Y., Hu, J.R., Wu, C.C., Chang, S.N., Dai, M.S., Tsai, C.T., Tsai, H.J. (2015) Amiodarone Induces Overexpression of Similar to Versican b to Repress the EGFR/Gsk3b/Snail Signaling Axis during Cardiac Valve Formation of Zebrafish Embryos. PLoS One. 10:e0144751
|
Lee, H.C., Su, M.Y., Lo, H.C., Wu, C.C., Hu, J.R., Lo, D.M., Chao, T.Y., Tsai, H.J., Dai, M.S. (2015) Cancer metastasis and EGFR signaling is suppressed by Amiodarone-induced Versican V2. Oncotarget. 6(40):42976-87
|
Lee, H.C., Tsai, J.N., Liao, P.Y., Tsai, W.Y., Lin, K.Y., Chuang, C.C., Sun, C.K., Chang, W.C., and Tsai, H.J. (2007) Glycogen synthase kinase 3alpha and 3beta have distinct functions during cardiogenesis of zebrafish embryo. BMC Developmental Biology. 7(1):93
|
Mackowetzky, K., Dicipulo, R., Fox, S.C., Philibert, D.A., Todesco, H., Doshi, J.D., Kawakami, K., Tierney, K., Waskiewicz, A.J. (2022) Retinoic Acid Signaling Regulates Late Stages of Semicircular Canal Morphogenesis and Otolith Maintenance in the Zebrafish Inner Ear. Developmental Dynamics : an official publication of the American Association of Anatomists. 251(11):1798-1815
|
Maerz, L.D., Burkhalter, M.D., Schilpp, C., Wittekindt, O.H., Frick, M., Philipp, M. (2019) Pharmacological cholesterol depletion disturbs ciliogenesis and ciliary function in developing zebrafish. Communications biology. 2:31
|
Mahony, C.B., Cacialli, P., Pasche, C., Monteiro, R., Savvides, S.N., Bertrand, J.Y. (2021) Hapln1b, a central organizer of the extracellular matrix, modulates kit signalling to control developmental haematopoiesis. Blood advances. 5(23):4935-4948
|
Monte, E., Mouillesseaux, K., Chen, H., Kimball, T., Ren, S., Wang, Y., Chen, J.N., Vondriska, T.M., and Franklin, S. (2013) Systems Proteomics of Cardiac Chromatin Identifies Nucleolin as a Regulator of Growth and Cellular Plasticity in Cardiomyocytes. American journal of physiology. Heart and circulatory physiology. 305(11):H1624-38
|
Morton, S.U., Scherz, P.J., Cordes, K.R., Ivey, K.N., Stainier, D.Y., and Srivastava, D. (2008) microRNA-138 modulates cardiac patterning during embryonic development. Proceedings of the National Academy of Sciences of the United States of America. 105(46):17830-17835
|
Müller-Deile, J., Gellrich, F., Schenk, H., Schroder, P., Nyström, J., Lorenzen, J., Haller, H., Schiffer, M. (2016) Overexpression of TGF-β Inducible microRNA-143 in Zebrafish Leads to Impairment of the Glomerular Filtration Barrier by Targeting Proteoglycans. Cellular physiology and biochemistry : international journal of experimental cellular physiology, biochemistry, and pharmacology. 40:819-830
|
|
|
Ouyang, X., Panetta, N.J., Talbott, M.D., Payumo, A.Y., Halluin, C., Longaker, M.T., Chen, J.K. (2017) Hyaluronic acid synthesis is required for zebrafish tail fin regeneration. PLoS One. 12:e0171898
|
|
|
Patra, C., Diehl, F., Ferrazzi, F., van Amerongen, M.J., Novoyatleva, T., Schaefer, L., Mühlfeld, C., Jungblut, B., and Engel, F.B. (2011) Nephronectin regulates atrioventricular canal differentiation via Bmp4-Has2 signaling in zebrafish. Development (Cambridge, England). 138(20):4499-4509
|
|
|
|
|
Qu, X., Jia, H., Garrity, D.M., Tompkins, K., Batts, L., Appel, B., Zhong, T.P., and Baldwin, H.S. (2008) ndrg4 is required for normal myocyte proliferation during early cardiac development in zebrafish. Developmental Biology. 317(2):486-496
|
Rasouli, S.J., El-Brolosy, M., Tsedeke, A.T., Bensimon-Brito, A., Ghanbari, P., Maischein, H.M., Kuenne, C., Stainier, D.Y. (2018) The flow responsive transcription factor Klf2 is required for myocardial wall integrity by modulating Fgf signaling. eLIFE. 7:
|
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
|
|
|
|
|
Shu, X., Cheng, K., Patel, N., Chen, F., Joseph, E., Tsai, H.-J., and Chen, J.-N. (2003) Na,K-ATPase is essential for embryonic heart development in the zebrafish. Development (Cambridge, England). 130:6165-6173
|
Tessadori, F., Tsingos, E., Colizzi, E.S., Kruse, F., van den Brink, S.C., van den Boogaard, M., Christoffels, V.M., Merks, R.M., Bakkers, J. (2021) Twisting of the zebrafish heart tube during cardiac looping is a tbx5-dependent and tissue-intrinsic process. eLIFE. 10:
|
|
|
Totong, R., Schell, T., Lescroart, F., Ryckebüsch, L., Lin, Y.F., Zygmunt, T., Herwig, L., Krudewig, A., Gershoony, D., Belting, H.G., Affolter, M., Torres-Vazquez, J., and Yelon, D. (2011) The novel transmembrane protein Tmem2 is essential for coordination of myocardial and endocardial morphogenesis. Development (Cambridge, England). 138(19):4199-4205
|
|
|
|
|
Veerkamp, J., Rudolph, F., Cseresnyes, Z., Priller, F., Otten, C., Renz, M., Schaefer, L., and Abdelilah-Seyfried, S. (2013) Unilateral dampening of bmp activity by nodal generates cardiac left-right asymmetry. Developmental Cell. 24(6):660-667
|
|
|
Woods, I.G., Wilson, C., Friedlander, B., Chang, P., Reyes, D.K., Nix, R., Kelly, P.D., Chu, F., Postlethwait, J.H., and Talbot, W.S. (2005) The zebrafish gene map defines ancestral vertebrate chromosomes. Genome research. 15(9):1307-1314
|
|
|
Xu, D.J., Bu, J.W., Gu, S.Y., Xia, Y.M., Du, J.L., and Wang, Y.W. (2011) Celecoxib Impairs Heart Development via Inhibiting Cyclooxygenase-2 Activity in Zebrafish Embryos. Anesthesiology. 114(2):391-400
|
Yue, Y., Jiang, M., He, L., Zhang, Z., Zhang, Q., Gu, C., Liu, M., Li, N., Zhao, Q. (2017) The transcription factor Foxc1a in zebrafish directly regulates expression of nkx2.5, encoding a transcriptional regulator of cardiac progenitor cells.. The Journal of biological chemistry. 293(2):638-650
|
