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ZFIN ID:
ZDB-MRPHLNO-060112-2
CITATIONS
(12 total)
Morpholino Name:
MO2-spaw
Morpholino Symbol:
MO2-spaw
Facchin, L., Burgess, H.A., Siddiqi, M., Granato, M., and Halpern, M.E. (2009) Determining the function of zebrafish epithalamic asymmetry. Philosophical transactions of the Royal Society of London. Series B, Biological sciences. 364(1519):1021-1032
Gamse, J.T., Kuan, Y.S., Macurak, M., Brosamle, C., Thisse, B., Thisse, C., and Halpern, M.E. (2005) Directional asymmetry of the zebrafish epithalamus guides dorsoventral innervation of the midbrain target. Development (Cambridge, England). 132(21):4869-4881
Gourronc, F., Ahmad, N., Nedza, N., Eggleston, T., and Rebagliati, M. (2007) Nodal activity around Kupffer's vesicle depends on the T-box transcription factors notail and spadetail and on notch signaling. Developmental Dynamics : an official publication of the American Association of Anatomists. 236(8):2131-2146
Kidokoro, H., Saijoh, Y., Schoenwolf, G.C. (2022) Nodal signaling regulates asymmetric cellular behaviors, driving clockwise rotation of the heart tube in zebrafish. Communications biology. 5:996
Kuan, Y.S., Gamse, J.T., Schreiber, A.M., and Halpern, M.E. (2007) Selective asymmetry in a conserved forebrain to midbrain projection. Journal of experimental zoology. Part B, Molecular and developmental evolution. 308(5):669-678
Kuan, Y.S., Yu, H.H., Moens, C.B., and Halpern, M.E. (2007) Neuropilin asymmetry mediates a left-right difference in habenular connectivity. Development (Cambridge, England). 134(5):857-865
Long, S., Ahmad, N., and Rebagliati, M. (2003) The zebrafish nodal-related gene southpaw is required for visceral and diencephalic left-right asymmetry. Development (Cambridge, England). 130(11):2303-2316
Noël, E.S., Verhoeven, M., Lagendijk, A.K., Tessadori, F., Smith, K., Choorapoikayil, S., den Hertog, J., and Bakkers, J. (2013) A Nodal-independent and tissue-intrinsic mechanism controls heart-looping chirality. Nature communications. 4:2754
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
Rago, L., Castroviejo, N., Fazilaty, H., Garcia-Asencio, F., Ocaña, O.H., Galcerán, J., Nieto, M.A. (2019) MicroRNAs Establish the Right-Handed Dominance of the Heart Laterality Pathway in Vertebrates. Developmental Cell. 51:446-459.e5
Rohr, S., Otten, C., and Abdelilah-Seyfried, S. (2008) Asymmetric involution of the myocardial field drives heart tube formation in zebrafish. Circulation research. 102(2):e12-19
Smith, K.A., Chocron, S., von der Hardt, S., de Pater, E., Soufan, A., Bussmann, J., Schulte-Merker, S., Hammerschmidt, M., and Bakkers, J. (2008) Rotation and asymmetric development of the zebrafish heart requires directed migration of cardiac progenitor cells. Developmental Cell. 14(2):287-297
Kidokoro, H., Saijoh, Y., Schoenwolf, G.C. (2022) Nodal signaling regulates asymmetric cellular behaviors, driving clockwise rotation of the heart tube in zebrafish. Communications biology. 5:996
Rago, L., Castroviejo, N., Fazilaty, H., Garcia-Asencio, F., Ocaña, O.H., Galcerán, J., Nieto, M.A. (2019) MicroRNAs Establish the Right-Handed Dominance of the Heart Laterality Pathway in Vertebrates. Developmental Cell. 51:446-459.e5
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
Noël, E.S., Verhoeven, M., Lagendijk, A.K., Tessadori, F., Smith, K., Choorapoikayil, S., den Hertog, J., and Bakkers, J. (2013) A Nodal-independent and tissue-intrinsic mechanism controls heart-looping chirality. Nature communications. 4:2754
Facchin, L., Burgess, H.A., Siddiqi, M., Granato, M., and Halpern, M.E. (2009) Determining the function of zebrafish epithalamic asymmetry. Philosophical transactions of the Royal Society of London. Series B, Biological sciences. 364(1519):1021-1032
Rohr, S., Otten, C., and Abdelilah-Seyfried, S. (2008) Asymmetric involution of the myocardial field drives heart tube formation in zebrafish. Circulation research. 102(2):e12-19
Smith, K.A., Chocron, S., von der Hardt, S., de Pater, E., Soufan, A., Bussmann, J., Schulte-Merker, S., Hammerschmidt, M., and Bakkers, J. (2008) Rotation and asymmetric development of the zebrafish heart requires directed migration of cardiac progenitor cells. Developmental Cell. 14(2):287-297
Gourronc, F., Ahmad, N., Nedza, N., Eggleston, T., and Rebagliati, M. (2007) Nodal activity around Kupffer's vesicle depends on the T-box transcription factors notail and spadetail and on notch signaling. Developmental Dynamics : an official publication of the American Association of Anatomists. 236(8):2131-2146
Kuan, Y.S., Gamse, J.T., Schreiber, A.M., and Halpern, M.E. (2007) Selective asymmetry in a conserved forebrain to midbrain projection. Journal of experimental zoology. Part B, Molecular and developmental evolution. 308(5):669-678
Kuan, Y.S., Yu, H.H., Moens, C.B., and Halpern, M.E. (2007) Neuropilin asymmetry mediates a left-right difference in habenular connectivity. Development (Cambridge, England). 134(5):857-865
Gamse, J.T., Kuan, Y.S., Macurak, M., Brosamle, C., Thisse, B., Thisse, C., and Halpern, M.E. (2005) Directional asymmetry of the zebrafish epithalamus guides dorsoventral innervation of the midbrain target. Development (Cambridge, England). 132(21):4869-4881
Long, S., Ahmad, N., and Rebagliati, M. (2003) The zebrafish nodal-related gene southpaw is required for visceral and diencephalic left-right asymmetry. Development (Cambridge, England). 130(11):2303-2316
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