ZFIN ID: ZDB-ATB-081002-54
CITATIONS (126 total)
Antibody Name: Ab-S46
   
Auman, H.J., Fernandes, I.H., Berríos-Otero, C.A., Colombo, S., Yelon, D. (2023) Zebrafish smarcc1a mutants reveal requirements for BAF chromatin remodeling complexes in distinguishing the atrioventricular canal from the cardiac chambers. Developmental Dynamics : an official publication of the American Association of Anatomists. 253(1):157-172
Gafranek, J.T., D'Aniello, E., Ravisankar, P., Thakkar, K., Vagnozzi, R.J., Lim, H.W., Salomonis, N., Waxman, J.S. (2023) Sinus venosus adaptation models prolonged cardiovascular disease and reveals insights into evolutionary transitions of the vertebrate heart. Nature communications. 14:55095509
Hofeichner, J., Gahr, B.M., Huber, M., Boos, A., Rottbauer, W., Just, S. (2023) CRISPR/Cas9-mediated nexilin deficiency interferes with cardiac contractile function in zebrafish in vivo. Scientific Reports. 13:2267922679
Martin, K.E., Ravisankar, P., Beerens, M., MacRae, C.A., Waxman, J.S. (2023) Nr2f1a maintains atrial nkx2.5 expression to repress pacemaker identity within venous atrial cardiomyocytes of zebrafish. eLIFE. 12:
Paolini, A., Sharipova, D., Lange, T., Abdelilah-Seyfried, S. (2023) Wnt9 directs zebrafish heart tube assembly via a combination of canonical and non-canonical pathway signaling. Development (Cambridge, England). 150(18):
Halabi, R., Cechmanek, P.B., Hehr, C.L., McFarlane, S. (2022) Semaphorin3f as a cardiomyocyte derived regulator of heart chamber development. Cell communication and signaling : CCS. 20:126
Huang, M., Akerberg, A.A., Zhang, X., Yoon, H., Joshi, S., Hallinan, C., Nguyen, C., Pu, W.T., Haigis, M.C., Burns, C.G., Burns, C.E. (2022) Intrinsic myocardial defects underlie an Rbfox-deficient zebrafish model of hypoplastic left heart syndrome. Nature communications. 13:5877
Perl, E., Ravisankar, P., Beerens, M.E., Mulahasanovic, L., Smallwood, K., Sasso, M.B., Wenzel, C., Ryan, T.D., Komár, M., Bove, K.E., MacRae, C.A., Weaver, K.N., Prada, C.E., Waxman, J.S. (2022) Stx4 is required to regulate cardiomyocyte Ca2+ handling during vertebrate cardiac development. HGG advances. 3:100115
Voisard, P., Diofano, F., Glazier, A.A., Rottbauer, W., Just, S. (2022) CRISPR/Cas9-Mediated Constitutive Loss of VCP (Valosin-Containing Protein) Impairs Proteostasis and Leads to Defective Striated Muscle Structure and Function In Vivo. International Journal of Molecular Sciences. 23(12)
Zink, M., Seewald, A., Rohrbach, M., Brodehl, A., Liedtke, D., Williams, T., Childs, S.J., Gerull, B. (2022) Altered Expression of TMEM43 Causes Abnormal Cardiac Structure and Function in Zebrafish. International Journal of Molecular Sciences. 23(17)
Bühler, A., Gahr, B.M., Park, D.D., Bertozzi, A., Boos, A., Dalvoy, M., Pott, A., Oswald, F., Kovall, R.A., Kühn, B., Weidinger, G., Rottbauer, W., Just, S. (2021) Histone deacetylase 1 controls cardiomyocyte proliferation during embryonic heart development and cardiac regeneration in zebrafish. PLoS Genetics. 17:e1009890
Duong, T.B., Holowiecki, A., Waxman, J.S. (2021) Retinoic acid signaling restricts the size of the first heart field within the anterior lateral plate mesoderm. Developmental Biology. 473:119-129
Park, D.D., Gahr, B.M., Krause, J., Rottbauer, W., Zeller, T., Just, S. (2021) Long-Chain Acyl-Carnitines Interfere with Mitochondrial ATP Production Leading to Cardiac Dysfunction in Zebrafish. International Journal of Molecular Sciences. 22(16):
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:
Budine, T.E., de Sena-Tomás, C., Williams, M.L.K., Sepich, D.S., Targoff, K.L., Solnica-Kreze, L. (2020) Gon4l/Udu Regulates Cardiomyocyte Proliferation and Maintenance of Ventricular Chamber Identity During Zebrafish Development. Developmental Biology. 462(2):223-234
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):
Lee, S.H., Hadipour-Lakmehsari, S., Murthy, H.R., Gibb, N., Miyake, T., Teng, A.C.T., Cosme, J., Yu, J.C., Moon, M., Lim, S., Wong, V., Liu, P., Billia, F., Fernandez-Gonzalez, R., Stagljar, I., Sharma, P., Kislinger, T., Scott, I.C., Gramolini, A.O. (2020) REEP5 depletion causes sarco-endoplasmic reticulum vacuolization and cardiac functional defects. Nature communications. 11:965
Li, S., Wen, H., Du, S. (2020) Defective sarcomere organization and reduced larval locomotion and fish survival in slow muscle heavy chain 1 (smyhc1) mutants. FASEB journal : official publication of the Federation of American Societies for Experimental Biology. 34:1378-1397
Sam, J., Mercer, E.J., Torregroza, I., Banks, K.M., Evans, T. (2020) Specificity, redundancy and dosage thresholds among gata4/5/6 genes during zebrafish cardiogenesis. Biology Open. 9(6):
Santos-Ledo, A., Washer, S., Dhanaseelan, T., Eley, L., Alqatani, A., Chrystal, P.W., Papoutsi, T., Henderson, D.J., Chaudhry, B. (2020) Alternative splicing of jnk1a in zebrafish determines first heart field ventricular cardiomyocyte numbers through modulation of hand2 expression. PLoS Genetics. 16:e1008782
Bornhorst, D., Xia, P., Nakajima, H., Dingare, C., Herzog, W., Lecaudey, V., Mochizuki, N., Heisenberg, C.P., Yelon, D., Abdelilah-Seyfried, S. (2019) Biomechanical signaling within the developing zebrafish heart attunes endocardial growth to myocardial chamber dimensions. Nature communications. 10:4113
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):
Dohn, T.E., Ravisankar, P., Tirera, F.T., Martin, K.E., Gafranek, J.T., Duong, T.B., VanDyke, T.L., Touvron, M., Barske, L.A., Crump, J.G., Waxman, J.S. (2019) Nr2f-dependent allocation of ventricular cardiomyocyte and pharyngeal muscle progenitors. PLoS Genetics. 15:e1007962
Ghazizadeh, Z., Kiviniemi, T.O., Olafsson, S., Plotnick, D., Beerens, M., Zhang, K., Gillon, L., Steinbaugh, M., Barrera, V., Ho Sui, S., Werdich, A.A., Kapur, S., Eranti, A., Gunn, J., Jalkanen, J., Airaksinen, J., Kleber, A.G., Hollmén, M., MacRae, C.A. (2019) A Metastable Atrial State Underlies The Primary Genetic Substrate for MYL4 Mutation-Associated Atrial Fibrillation. Circulation. 141(4):301-312
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
Seebacher, F., Simmonds, A.I.M. (2019) Histone deacetylase activity mediates thermal plasticity in zebrafish (Danio rerio). Scientific Reports. 9:8216
Song, Y.C., Dohn, T.E., Rydeen, A.B., Nechiporuk, A.V., Waxman, J.S. (2019) HDAC1-mediated repression of the retinoic acid-responsive gene ripply3 promotes second heart field development. PLoS Genetics. 15:e1008165
Castillo-Robles, J., Ramírez, L., Spaink, H.P., Lomelí, H. (2018) smarce1 mutants have a defective endocardium and an increased expression of cardiac transcription factors in zebrafish. Scientific Reports. 8:15369
Donat, S., Lourenço, M., Paolini, A., Otten, C., Renz, M., Abdelilah-Seyfried, S. (2018) Heg1 and Ccm1/2 proteins control endocardial mechanosensitivity during zebrafish valvulogenesis. eLIFE. 7:e28939
Huang, M., Jiao, J., Wang, J., Xia, Z., Zhang, Y. (2018) Characterization of acrylamide-induced oxidative stress and cardiovascular toxicity in zebrafish embryos. Journal of hazardous materials. 347:451-460
Mishra, S., Wu, S.Y., Fuller, A.W., Wang, Z., Rose, K.L., Schey, K.L., Mchaourab, H.S. (2018) Loss of αB-crystallin function in zebrafish reveals critical roles in the development of the lens and stress resistance of the heart. The Journal of biological chemistry. 293(2):740-753
Paone, C., Rudeck, S., Etard, C., Strähle, U., Rottbauer, W., Just, S. (2018) Loss of zebrafish Smyd1a interferes with myofibrillar integrity without triggering the misfolded myosin response. Biochemical and Biophysical Research Communications. 496(2):339-345
Perna, A.F., Anishchenko, E., Vigorito, C., Zacchia, M., Trepiccione, F., D'Aniello, S., Ingrosso, D. (2018) Zebrafish, a Novel Model System to Study Uremic Toxins: The Case for the Sulfur Amino Acid Lanthionine. International Journal of Molecular Sciences. 19(5)
Pott, A., Bock, S., Berger, I.M., Frese, K., Dahme, T., Kessler, M., Rinné, S., Decher, N., Just, S., Rottbauer, W. (2018) Mutation of the Na+/K+-ATPase Atp1a1a.1 causes QT interval prolongation and bradycardia in zebrafish.. Journal of Molecular and Cellular Cardiology. 120:42-52
Segert, J., Schneider, I., Berger, I.M., Rottbauer, W., Just, S. (2018) Mediator complex subunit Med12 regulates cardiac jelly development and AV valve formation in zebrafish. Progress in Biophysics and Molecular Biology. 138:20-31
Abu-Taha, I.H., Heijman, J., Hippe, H.J., Wolf, N.M., El-Armouche, A., Nikolaev, V.O., Schäfer, M., Würtz, C., Neef, S., Voigt, N., Baczkó, I., Varró, A., Müller, M., Meder, B., Katus, H.A., Spiger, K., Vettel, C., Lehmann, L.H., Backs, J., Skolnik, E.Y., Lutz, S., Dobrev, D., Wieland, T. (2017) Nucleoside Diphosphate Kinase-C Suppresses cAMP Formation in Human Heart Failure. Circulation. 135(9):881-897
Akerberg, A.A., Henner, A., Stewart, S., Stankunas, K. (2017) Histone demethylases Kdm6ba and Kdm6bb redundantly promote cardiomyocyte proliferation during zebrafish heart ventricle maturation. Developmental Biology. 426(1):84-96
Colombo, S., de Sena-Tomás, C., George, V., Werdich, A.A., Kapur, S., MacRae, C.A., Targoff, K.L. (2017) nkx genes establish SHF cardiomyocyte progenitors at the arterial pole and pattern the venous pole through Isl1 repression. Development (Cambridge, England). 145(3)
Duong, T.B., Ravisankar, P., Song, Y.C., Gafranek, J.T., Rydeen, A.B., Dohn, T.E., Barske, L.A., Crump, J.G., Waxman, J.S. (2017) Nr2f1a balances atrial chamber and atrioventricular canal size via BMP signaling-independent and -dependent mechanisms. Developmental Biology. 434(1):7-14
Ocaña, O.H., Coskun, H., Minguillón, C., Murawala, P., Tanaka, E.M., Galcerán, J., Muñoz-Chápuli, R., Nieto, M.A. (2017) A right-handed signalling pathway drives heart looping in vertebrates. Nature. 549:86-90
Pradhan, A., Zeng, X.I., Sidhwani, P., Marques, S.R., George, V., Targoff, K.L., Chi, N.C., Yelon, D. (2017) FGF signaling enforces cardiac chamber identity in the developing ventricle. Development (Cambridge, England). 144(7):1328-1338
Witzel, H.R., Cheedipudi, S., Gao, R., Stainier, D.Y., Dobreva, G.D. (2017) Isl2b regulates anterior second heart field development in zebrafish. Scientific Reports. 7:41043
Zhu, D., Fang, Y., Gao, K., Shen, J., Zhong, T.P., Li, F. (2017) Vegfa Impacts Early Myocardium Development in Zebrafish. International Journal of Molecular Sciences. 18(2)
Eden, M., Meder, B., Völkers, M., Poomvanicha, M., Domes, K., Branchereau, M., Marck, P., Will, R., Bernt, A., Rangrez, A., Busch, M., German Mouse Clinic Consortium, Hrabě de Angelis, M., Heymes, C., Rottbauer, W., Most, P., Hofmann, F., Frey, N. (2016) Myoscape controls cardiac calcium cycling and contractility via regulation of L-type calcium channel surface expression. Nature communications. 7:11317
Foglia, M.J., Cao, J., Tornini, V.A., Poss, K.D. (2016) Multicolor mapping of the cardiomyocyte proliferation dynamics that construct the atrium. Development (Cambridge, England). 143(10):1688-96
Just, S., Hirth, S., Berger, I.M., Fishman, M.C., Rottbauer, W. (2016) The mediator complex subunit Med10 regulates heart valve formation in zebrafish by controlling Tbx2b-mediated Has2 expression and cardiac jelly formation. Biochemical and Biophysical Research Communications. 477(4):581-8
Just, S., Raphel, L., Berger, I.M., Bühler, A., Keßler, M., Rottbauer, W. (2016) Tbx20 Is an Essential Regulator of Embryonic Heart Growth in Zebrafish. PLoS One. 11:e0167306
Roy, N.M., Ochs, J., Zambrzycka, E., Anderson, A. (2016) Glyphosate induces cardiovascular toxicity in Danio rerio. Environmental Toxicology and Pharmacology. 46:292-300
Rydeen, A.B., Waxman, J.S. (2016) Cyp26 Enzymes Facilitate Second Heart Field Progenitor Addition and Maintenance of Ventricular Integrity. PLoS Biology. 14:e2000504
Wu, T.S., Yang, J.J., Wang, Y.W., Yu, F.Y., Liu, B.H. (2016) Mycotoxin ochratoxin A disrupts renal development via a miR-731/prolactin receptor axis in zebrafish.. Toxicology research. 5:519-529
Xie, H., Ye, D., Sepich, D., Lin, F. (2016) S1pr2/Gα13 signaling regulates the migration of endocardial precursors by controlling endoderm convergence. Developmental Biology. 414:228-43
Frese, K.S., Meder, B., Keller, A., Just, S., Haas, J., Vogel, B., Fischer, S., Backes, C., Matzas, M., Köhler, D., Benes, V., Katus, H.A., Rottbauer, W. (2015) RNA splicing regulated by RBFOX1 is essential for cardiac function in zebrafish. Journal of Cell Science. 128(16):3030-40
George, V., Colombo, S., Targoff, K.L. (2015) An early requirement for nkx2.5 Ensures first and Second heart field ventricular identity and cardiac function into adulthood. Developmental Biology. 400(1):10-22
Zhao, X., Jiang, B., Hu, H., Mao, F., Mi, J., Li, Z., Liu, Q., Shao, C., Gong, Y. (2015) Zebrafish cul4a, but not cul4b, modulates cardiac and forelimb development by upregulating tbx5a expression. Human molecular genetics. 24(3):853-64
Dietrich, A.C., Lombardo, V.A., Abdelilah-Seyfried, S. (2014) Blood Flow and Bmp Signaling Control Endocardial Chamber Morphogenesis. Developmental Cell. 30:367-377
Kalogirou, S., Malissovas, N., Moro, E., Argenton, F., Stainier, D.Y., Beis, D. (2014) Intracardiac Flow Dynamics Regulate Atrioventricular Valve Morphogenesis. Cardiovascular research. 104(1):49-60
Kelly, M.L., Astsaturov, A., Rhodes, J., Chernoff, J. (2014) A Pak1/Erk Signaling Module Acts through Gata6 to Regulate Cardiovascular Development in Zebrafish. Developmental Cell. 29:350-9
Peralta, M., González-Rosa, J.M., Marques, I.J., Mercader, N. (2014) The Epicardium in the Embryonic and Adult Zebrafish. Journal of developmental biology. 2:101-116
Rydeen, A.B., Waxman, J.S. (2014) Cyp26 enzymes are required to balance the cardiac and vascular lineages within the anterior lateral plate mesoderm. Development (Cambridge, England). 141:1638-48
Schindler, Y.L., Garske, K.M., Wang, J., Firulli, B.A., Firulli, A.B., Poss, K.D., Yelon, D. (2014) Hand2 elevates cardiomyocyte production during zebrafish heart development and regeneration. Development (Cambridge, England). 141(16):3112-22
Superina, S., Borovina, A., and Ciruna, B. (2014) Analysis of maternal-zygotic ugdh mutants reveals divergent roles for HSPGs in vertebrate embryogenesis and provides new insight into the initiation of left-right asymmetry. Developmental Biology. 387(2):154-166
Zeng, X.X., Yelon, D. (2014) Cadm4 Restricts the Production of Cardiac Outflow Tract Progenitor Cells. Cell Reports. 7(4):951-60
Chen, Y.H., Pai, C.W., Huang, S.W., Chang, S.N., Lin, L.Y., Chiang, F.T., Lin, J.L., Hwang, J.J., and Tsai, C.T. (2013) Inactivation of Myosin binding protein C homolog in zebrafish as a model for human cardiac hypertrophy and diastolic dysfunction. Journal of the American Heart Association. 2(5):e000231
Haas, J., Frese, K.S., Park, Y.J., Keller, A., Vogel, B., Lindroth, A.M., Weichenhan, D., Franke, J., Fischer, S., Bauer, A., Marquart, S., Sedaghat-Hamedani, F., Kayvanpour, E., Kohler, D., Wolf, N.M., Hassel, S., Nietsch, R., Wieland, T., Ehlermann, P., Schultz, J.H., Dosch, A., Mereles, D., Hardt, S., Backs, J., Hoheisel, J.D., Plass, C., Katus, H.A., and Meder, B. (2013) Alterations in cardiac DNA methylation in human dilated cardiomyopathy. EMBO Molecular Medicine. 5(3):413-429
Li, H., Zhong, Y., Wang, Z., Gao, J., Xu, J., Chu, W., Zhang, J., Fang, S., and Du, S.J. (2013) Smyd1b is required for skeletal and cardiac muscle function in zebrafish. Molecular biology of the cell. 24(22):3511-21
Müller, I.I., Melville, D.B., Tanwar, V., Rybski, W.M., Mukherjee, A., Shoemaker, B.M., Wang, W.D., Schoenhard, J.A., Roden, D.M., Darbar, D., Knapik, E.W., and Hatzopoulos, A.K. (2013) Functional modeling in zebrafish demonstrates that the atrial-fibrillation-associated gene GREM2 regulates cardiac laterality, cardiomyocyte differentiation and atrial rhythm. Disease models & mechanisms. 6(2):332-341
Novikov, N., and Evans, T. (2013) Tmem88a mediates GATA-dependent specification of cardiomyocyte progenitors by restricting WNT signaling. Development (Cambridge, England). 140(18):3787-98
Rosenfeld, G.E., Mercer, E.J., Mason, C.E., and Evans, T. (2013) Small heat shock proteins Hspb7 and Hspb12 regulate early steps of cardiac morphogenesis. Developmental Biology. 381(2):389-400
Sorrell, M.R., Dohn, T.E., D'Aniello, E., and Waxman, J.S. (2013) Tcf7l1 proteins cell autonomously restrict cardiomyocyte and promote endothelial specification in zebrafish. Developmental Biology. 380(2):199-210
Targoff, K.L., Colombo, S., George, V., Schell, T., Kim, S.H., Solnica-Krezel, L., and Yelon, D. (2013) Nkx genes are essential for maintenance of ventricular identity. Development (Cambridge, England). 140(20):4203-4213
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
Wu, T.S., Yang, J.J., Yu, F.Y., and Liu, B.H. (2013) Cardiotoxicity of mycotoxin citrinin and involvement of microRNA-138 in zebrafish embryos. Toxicological sciences : an official journal of the Society of Toxicology. 136(2):402-12
Yan, L., Zhou, Y., Yu, S., Ji, G., Wang, L., Liu, W., and Gu, A. (2013) 8-Oxoguanine DNA glycosylase 1 (ogg1) maintains the function of cardiac progenitor cells during heart formation in zebrafish. Experimental cell research. 319(19):2954-63
Zhang, R., Han, P., Yang, H., Ouyang, K., Lee, D., Lin, Y.F., Ocorr, K., Kang, G., Chen, J., Stainier, D.Y., Yelon, D., and Chi, N.C. (2013) In vivo cardiac reprogramming contributes to zebrafish heart regeneration. Nature. 498(7455):497-501
de Pater, E., Ciampricotti, M., Priller, F., Veerkamp, J., Strate, I., Smith, K., Lagendijk, A.K., Schilling, T.F., Herzog, W., Abdelilah-Seyfried, S., Hammerschmidt, M., and Bakkers, J. (2012) Bmp Signaling Exerts Opposite Effects on Cardiac Differentiation. Circulation research. 110(4):578-587
Dohn, T.E., and Waxman, J.S. (2012) Distinct phases of Wnt/β-catenin signaling direct cardiomyocyte formation in zebrafish. Developmental Biology. 361(2):364-76
Dong, W., Yang, Z., Yang, F., Wang, J., Zhuang, Y., Xu, C., Zhang, B., Tian, X.L., and Liu, D. (2012) Suppression of rap1 impairs cardiac myofibrils and conduction system in zebrafish. PLoS One. 7(11):e50960
Ma, Y., Wu, M., Li, D., Li, X.Q., Li, P., Zhao, J., Luo, M.N., Guo, C.L., Lu, C.L., and Ma, X. (2012) Embryonic development toxicity of selenite in zebrafish (Danio rerio) and prevention with folic acid. Food and chemical toxicology : an international journal published for the British Industrial Biological Research Association. 508:2854-2863
Otten, C., van der Ven, P.F., Lewrenz, I., Paul, S., Steinhagen, A., Busch-Nentwich, E., Eichhorst, J., Wiesner, B., Stemple, D., Strähle, U., Fürst, D.O., and Abdelilah-Seyfried, S. (2012) Xirp proteins mark injured skeletal muscle in zebrafish. PLoS One. 7(2):e31041
Singleman, C., and Holtzman, N.G. (2012) Analysis of post-embryonic heart development and maturation in the zebrafish, Danio rerio. Developmental Dynamics : an official publication of the American Association of Anatomists. 241(12):1993-2004
Völkers, M., Dolatabadi, N., Gude, N., Most, P., Sussman, M.A., and Hassel, D. (2012) Orai1 deficiency leads to heart failure and skeletal myopathy in zebrafish. Journal of Cell Science. 125(2):287-294
Hami, D., Grimes, A.C., Tsai, H.J., and Kirby, M.L. (2011) Zebrafish cardiac development requires a conserved secondary heart field. Development (Cambridge, England). 138(11):2389-2398
Just, S., Berger, I.M., Meder, B., Backs, J., Keller, A., Marquart, S., Frese, K., Patzel, E., Rauch, G.J., Tübingen 2000 Screen Consortium, Katus, H.A., and Rottbauer, W. (2011) Protein Kinase D2 Controls Cardiac Valve Formation in Zebrafish by Regulating Histone Deacetylase 5 Activity. Circulation. 124(3):324-34
Just, S., Meder, B., Berger, I.M., Etard, C., Trano, N., Patzel, E., Hassel, D., Marquart, S., Dahme, T., Vogel, B., Fishman, M.C., Katus, H.A., Strähle, U., and Rottbauer, W. (2011) The myosin-interacting protein SMYD1 is essential for sarcomere organization. Journal of Cell Science. 124(Pt 18):3127-36
Kawahara, G., Serafini, P.R., Myers, J.A., Alexander, M.S., and Kunkel, L.M. (2011) Characterization of zebrafish dysferlin by morpholino knockdown. Biochemical and Biophysical Research Communications. 413(2):358-63
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
Scott, J.A., Incardona, J.P., Pelkki, K., Shepardson, S., and Hodson, P.V. (2011) AhR2-mediated, CYP1A-independent cardiovascular toxicity in zebrafish (Danio rerio) embryos exposed to retene. Aquatic toxicology (Amsterdam, Netherlands). 101(1):165-174
Sedletcaia, A., and Evans, T. (2011) Heart chamber size in zebrafish is regulated redundantly by duplicated tbx2 genes. Developmental Dynamics : an official publication of the American Association of Anatomists. 240(6):1548-1557
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
Wythe, J.D., Jurynec, M.J., Urness, L.D., Jones, C.A., Sabeh, M.K., Werdich, A.A., Sato, M., Yost, H.J., Grunwald, D.J., MacRae, C.A., and Li, D.Y. (2011) Hadp1, a newly identified pleckstrin homology domain protein, is required for cardiac contractility in zebrafish. Disease models & mechanisms. 4(5):607-21
Zhou, Y., Cashman, T.J., Nevis, K.R., Obregon, P., Carney, S.A., Liu, Y., Gu, A., Mosimann, C., Sondalle, S., Peterson, R.E., Heideman, W., Burns, C.E., and Burns, C.G. (2011) Latent TGF-β binding protein 3 identifies a second heart field in zebrafish. Nature. 474(7353):645-8
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
Clemen, C.S., Tangavelou, K., Strucksberg, K.H., Just, S., Gaertner, L., Regus-Leidig, H., Stumpf, M., Reimann, J., Coras, R., Morgan, R.O., Fernandez, M.P., Hofmann, A., Müller, S., Schoser, B., Hanisch, F.G., Rottbauer, W., Blümcke, I., von Hörsten, S., Eichinger, L., and Schröder, R. (2010) Strumpellin is a novel valosin-containing protein binding partner linking hereditary spastic paraplegia to protein aggregation diseases. Brain : a journal of neurology. 133(10):2920-2941
Meder, B., Just, S., Vogel, B., Rudloff, J., Gärtner, L., Dahme, T., Huttner, I., Zankl, A., Katus, H.A., and Rottbauer, W. (2010) JunB-CBF{beta} signaling is essential to maintain sarcomeric Z-disc structure and when defective leads to heart failure. Journal of Cell Science. 123(Pt 15):2613-2620
Murata, K., Nunomura, W., Takakuwa, Y., and Cherr, G.N. (2010) Two different unique cardiac isoforms of protein 4.1R in zebrafish, Danio rerio, and insights into their cardiac functions as related to their unique structures. Development, growth & differentiation. 52(7):591-602
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