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ZFIN ID:
ZDB-MRPHLNO-061110-1
CITATIONS
(14 total)
Morpholino Name:
MO1-myh6
Morpholino Symbol:
MO1-myh6
Berdougo, E., Coleman, H., Lee, D.H., Stainier, D.Y., and Yelon, D. (2003) Mutation of weak atrium/atrial myosin heavy chain disrupts atrial function and influences ventricular morphogenesis in zebrafish. Development (Cambridge, England). 130(24):6121-6129
Fukuda, R., Gunawan, F., Ramadass, R., Beisaw, A., Konzer, A., Mullapudi, S.T., Gentile, A., Maischein, H.M., Graumann, J., Stainier, D.Y.R. (2019) Mechanical Forces Regulate Cardiomyocyte Myofilament Maturation via the VCL-SSH1-CFL Axis. Developmental Cell. 51(1):62-77.e5
Fukui, H., Chow, R.W., Xie, J., Foo, Y.Y., Yap, C.H., Minc, N., Mochizuki, N., Vermot, J. (2021) Bioelectric signaling and the control of cardiac cell identity in response to mechanical forces. Science (New York, N.Y.). 374:351-354
Hayashi, K., Teramoto, R., Nomura, A., Asano, Y., Beerens, M., Kurata, Y., Kobayashi, I., Fujino, N., Furusho, H., Sakata, K., Onoue, K., Chiang, D.Y., Kiviniemi, T.O., Buys, E., Sips, P., Burch, M.L., Zhao, Y., Kelly, A.E., Namura, M., Kita, Y., Tsuchiya, T., Kaku, B., Oe, K., Takeda, Y., Konno, T., Inoue, M., Fujita, T., Kato, T., Funada, A., Tada, H., Hodatsu, A., Nakanishi, C., Sakamoto, Y., Tsuda, T., Nagata, Y., Tanaka, Y., Okada, H., Usuda, K., Cui, S., Saito, Y., MacRae, C.A., Takashima, S., Yamagishi, M., Kawashiri, M.A., Takamura, M. (2020) Impact of functional studies on exome sequence variant interpretation in early-onset cardiac conduction system diseases. Cardiovascular research. 116(13):2116-2130
Ishikawa, T., Jou, C.J., Nogami, A., Kowase, S., Arrington, C.B., Barnett, S.M., Harrell, D.T., Arimura, T., Tsuji, Y., Kimura, A., Makita, N. (2015) Novel Mutation in the α-Myosin Heavy Chain Gene Is Associated With Sick Sinus Syndrome. Circulation. Arrhythmia and electrophysiology. 8(2):400-8
Lai, J.K.H., Collins, M.M., Uribe, V., Jiménez-Amilburu, V., Günther, S., Maischein, H.M., Stainier, D.Y.R. (2018) The Hippo pathway effector Wwtr1 regulates cardiac wall maturation in zebrafish. Development (Cambridge, England). 145(10)
Lin, Y.F., Swinburne, I., and Yelon, D. (2012) Multiple influences of blood flow on cardiomyocyte hypertrophy in the embryonic zebrafish heart. Developmental Biology. 362(2):242-253
Peralta, M., Steed, E., Harlepp, S., González-Rosa, J.M., Monduc, F., Ariza-Cosano, A., Cortés, A., Rayón, T., Gómez-Skarmeta, J.L., Zapata, A., Vermot, J., and Mercader, N. (2013) Heartbeat-Driven Pericardiac Fluid Forces Contribute to Epicardium Morphogenesis. Current biology : CB. 23(18):1726-35
Priya, R., Allanki, S., Gentile, A., Mansingh, S., Uribe, V., Maischein, H.M., Stainier, D.Y.R. (2020) Tension heterogeneity directs form and fate to pattern the myocardial wall. Nature. 588(7836):130-134
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:
Sidhwani, P., Leerberg, D.M., Boezio, G.L.M., Capasso, T.L., Yang, H., Chi, N.C., Roman, B.L., Stainier, D.Y.R., Yelon, D. (2020) Cardiac function modulates endocardial cell dynamics to shape the cardiac outflow tract. Development (Cambridge, England). 147(12):
Staudt, D.W., Liu, J., Thorn, K.S., Stuurman, N., Liebling, M., and Stainier, D.Y. (2014) High-resolution imaging of cardiomyocyte behavior reveals two distinct steps in ventricular trabeculation. Development (Cambridge, England). 141(3):585-593
Steed, E., Faggianelli, N., Roth, S., Ramspacher, C., Concordet, J.P., Vermot, J. (2016) klf2a couples mechanotransduction and zebrafish valve morphogenesis through fibronectin synthesis. Nature communications. 7:11646
Vermot, J., Forouhar, A.S., Liebling, M., Wu, D., Plummer, D., Gharib, M., and Fraser, S.E. (2009) Reversing blood flows act through klf2a to ensure normal valvulogenesis in the developing heart. PLoS Biology. 7(11):e1000246
Fukui, H., Chow, R.W., Xie, J., Foo, Y.Y., Yap, C.H., Minc, N., Mochizuki, N., Vermot, J. (2021) Bioelectric signaling and the control of cardiac cell identity in response to mechanical forces. Science (New York, N.Y.). 374:351-354
Hayashi, K., Teramoto, R., Nomura, A., Asano, Y., Beerens, M., Kurata, Y., Kobayashi, I., Fujino, N., Furusho, H., Sakata, K., Onoue, K., Chiang, D.Y., Kiviniemi, T.O., Buys, E., Sips, P., Burch, M.L., Zhao, Y., Kelly, A.E., Namura, M., Kita, Y., Tsuchiya, T., Kaku, B., Oe, K., Takeda, Y., Konno, T., Inoue, M., Fujita, T., Kato, T., Funada, A., Tada, H., Hodatsu, A., Nakanishi, C., Sakamoto, Y., Tsuda, T., Nagata, Y., Tanaka, Y., Okada, H., Usuda, K., Cui, S., Saito, Y., MacRae, C.A., Takashima, S., Yamagishi, M., Kawashiri, M.A., Takamura, M. (2020) Impact of functional studies on exome sequence variant interpretation in early-onset cardiac conduction system diseases. Cardiovascular research. 116(13):2116-2130
Priya, R., Allanki, S., Gentile, A., Mansingh, S., Uribe, V., Maischein, H.M., Stainier, D.Y.R. (2020) Tension heterogeneity directs form and fate to pattern the myocardial wall. Nature. 588(7836):130-134
Sidhwani, P., Leerberg, D.M., Boezio, G.L.M., Capasso, T.L., Yang, H., Chi, N.C., Roman, B.L., Stainier, D.Y.R., Yelon, D. (2020) Cardiac function modulates endocardial cell dynamics to shape the cardiac outflow tract. Development (Cambridge, England). 147(12):
Fukuda, R., Gunawan, F., Ramadass, R., Beisaw, A., Konzer, A., Mullapudi, S.T., Gentile, A., Maischein, H.M., Graumann, J., Stainier, D.Y.R. (2019) Mechanical Forces Regulate Cardiomyocyte Myofilament Maturation via the VCL-SSH1-CFL Axis. Developmental Cell. 51(1):62-77.e5
Lai, J.K.H., Collins, M.M., Uribe, V., Jiménez-Amilburu, V., Günther, S., Maischein, H.M., Stainier, D.Y.R. (2018) The Hippo pathway effector Wwtr1 regulates cardiac wall maturation in zebrafish. Development (Cambridge, England). 145(10)
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:
Steed, E., Faggianelli, N., Roth, S., Ramspacher, C., Concordet, J.P., Vermot, J. (2016) klf2a couples mechanotransduction and zebrafish valve morphogenesis through fibronectin synthesis. Nature communications. 7:11646
Ishikawa, T., Jou, C.J., Nogami, A., Kowase, S., Arrington, C.B., Barnett, S.M., Harrell, D.T., Arimura, T., Tsuji, Y., Kimura, A., Makita, N. (2015) Novel Mutation in the α-Myosin Heavy Chain Gene Is Associated With Sick Sinus Syndrome. Circulation. Arrhythmia and electrophysiology. 8(2):400-8
Staudt, D.W., Liu, J., Thorn, K.S., Stuurman, N., Liebling, M., and Stainier, D.Y. (2014) High-resolution imaging of cardiomyocyte behavior reveals two distinct steps in ventricular trabeculation. Development (Cambridge, England). 141(3):585-593
Peralta, M., Steed, E., Harlepp, S., González-Rosa, J.M., Monduc, F., Ariza-Cosano, A., Cortés, A., Rayón, T., Gómez-Skarmeta, J.L., Zapata, A., Vermot, J., and Mercader, N. (2013) Heartbeat-Driven Pericardiac Fluid Forces Contribute to Epicardium Morphogenesis. Current biology : CB. 23(18):1726-35
Lin, Y.F., Swinburne, I., and Yelon, D. (2012) Multiple influences of blood flow on cardiomyocyte hypertrophy in the embryonic zebrafish heart. Developmental Biology. 362(2):242-253
Vermot, J., Forouhar, A.S., Liebling, M., Wu, D., Plummer, D., Gharib, M., and Fraser, S.E. (2009) Reversing blood flows act through klf2a to ensure normal valvulogenesis in the developing heart. PLoS Biology. 7(11):e1000246
Berdougo, E., Coleman, H., Lee, D.H., Stainier, D.Y., and Yelon, D. (2003) Mutation of weak atrium/atrial myosin heavy chain disrupts atrial function and influences ventricular morphogenesis in zebrafish. Development (Cambridge, England). 130(24):6121-6129
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