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ZFIN ID:
ZDB-MRPHLNO-060928-3
CITATIONS
(11 total)
Morpholino Name:
MO1-hey2
Morpholino Symbol:
MO1-hey2
Chen, X., Gays, D., Milia, C., Santoro, M.M. (2017) Cilia Control Vascular Mural Cell Recruitment in Vertebrates. Cell Reports. 18:1033-1047
Chou, C.W., Hsu, H.C., Quek, S.I., Chan, W.K., and Liu, Y.W. (2010) Arterial and venous vessels are required for modulating developmental relocalization and laterality of the interrenal tissue in zebrafish. Developmental Dynamics : an official publication of the American Association of Anatomists. 239(7):1995-2004
Chun, C.Z., Remadevi, I., Schupp, M.O., Samant, G.V., Pramanik, K., Wilkinson, G.A., and Ramchandran, R. (2011) Fli+ etsrp+ Hemato-Vascular Progenitor Cells Proliferate at the Lateral Plate Mesoderm during Vasculogenesis in Zebrafish. PLoS One. 6(2):e14732
Esser, J.S., Steiner, R.E., Deckler, M., Schmitt, H., Engert, B., Link, S., Charlet, A., Patterson, C., Bode, C., Zhou, Q., Moser, M. (2018) Extracellular bone morphogenetic protein modulator BMPER and twisted gastrulation homolog 1 preserve arterial venous specification in zebrafish blood vessel development and regulate Notch signaling in endothelial cells. The FEBS journal. 285(8):1419-1436
Gibb, N., Lazic, S., Yuan, X., Deshwar, A.R., Leslie, M., Wilson, M.D., Scott, I.C. (2018) Hey2 regulates the size of the cardiac progenitor pool during vertebrate heart development. Development (Cambridge, England). 145(22):
Herbert, S.P., Huisken, J., Kim, T.N., Feldman, M.E., Houseman, B.T., Wang, R.A., Shokat, K.M., and Stainier, D.Y. (2009) Arterial-venous segregation by selective cell sprouting: an alternative mode of blood vessel formation. Science (New York, N.Y.). 326(5950):294-298
Hermkens, D.M., van Impel, A., Urasaki, A., Bussmann, J., Duckers, H.J., Schulte-Merker, S. (2015) Sox7 controls arterial specification in conjunction with hey2 and efnb2 function. Development (Cambridge, England). 142(9):1695-704
Karthik, S., Djukic, T., Kim, J.D., Zuber, B., Makanya, A., Odriozola, A., Hlushchuk, R., Filipovic, N., Jin, S.W., Djonov, V. (2018) Synergistic interaction of sprouting and intussusceptive angiogenesis during zebrafish caudal vein plexus development. Scientific Reports. 8:9840
Liu, Y.W., and Guo, L. (2006) Endothelium is required for the promotion of interrenal morphogenetic movement during early zebrafish development. Developmental Biology. 297(1):44-58
Rowlinson, J.M., and Gering, M. (2010) Hey2 acts upstream of Notch in hematopoietic stem cell specification in zebrafish embryos. Blood. 116(12):2046-2056
Zhong, T.P., Childs, S., Leu, J.P., and Fishman, M.C. (2001) Gridlock signalling pathway fashions the first embryonic artery. Nature. 414(6860):216-220
Esser, J.S., Steiner, R.E., Deckler, M., Schmitt, H., Engert, B., Link, S., Charlet, A., Patterson, C., Bode, C., Zhou, Q., Moser, M. (2018) Extracellular bone morphogenetic protein modulator BMPER and twisted gastrulation homolog 1 preserve arterial venous specification in zebrafish blood vessel development and regulate Notch signaling in endothelial cells. The FEBS journal. 285(8):1419-1436
Gibb, N., Lazic, S., Yuan, X., Deshwar, A.R., Leslie, M., Wilson, M.D., Scott, I.C. (2018) Hey2 regulates the size of the cardiac progenitor pool during vertebrate heart development. Development (Cambridge, England). 145(22):
Karthik, S., Djukic, T., Kim, J.D., Zuber, B., Makanya, A., Odriozola, A., Hlushchuk, R., Filipovic, N., Jin, S.W., Djonov, V. (2018) Synergistic interaction of sprouting and intussusceptive angiogenesis during zebrafish caudal vein plexus development. Scientific Reports. 8:9840
Chen, X., Gays, D., Milia, C., Santoro, M.M. (2017) Cilia Control Vascular Mural Cell Recruitment in Vertebrates. Cell Reports. 18:1033-1047
Hermkens, D.M., van Impel, A., Urasaki, A., Bussmann, J., Duckers, H.J., Schulte-Merker, S. (2015) Sox7 controls arterial specification in conjunction with hey2 and efnb2 function. Development (Cambridge, England). 142(9):1695-704
Chun, C.Z., Remadevi, I., Schupp, M.O., Samant, G.V., Pramanik, K., Wilkinson, G.A., and Ramchandran, R. (2011) Fli+ etsrp+ Hemato-Vascular Progenitor Cells Proliferate at the Lateral Plate Mesoderm during Vasculogenesis in Zebrafish. PLoS One. 6(2):e14732
Chou, C.W., Hsu, H.C., Quek, S.I., Chan, W.K., and Liu, Y.W. (2010) Arterial and venous vessels are required for modulating developmental relocalization and laterality of the interrenal tissue in zebrafish. Developmental Dynamics : an official publication of the American Association of Anatomists. 239(7):1995-2004
Rowlinson, J.M., and Gering, M. (2010) Hey2 acts upstream of Notch in hematopoietic stem cell specification in zebrafish embryos. Blood. 116(12):2046-2056
Herbert, S.P., Huisken, J., Kim, T.N., Feldman, M.E., Houseman, B.T., Wang, R.A., Shokat, K.M., and Stainier, D.Y. (2009) Arterial-venous segregation by selective cell sprouting: an alternative mode of blood vessel formation. Science (New York, N.Y.). 326(5950):294-298
Liu, Y.W., and Guo, L. (2006) Endothelium is required for the promotion of interrenal morphogenetic movement during early zebrafish development. Developmental Biology. 297(1):44-58
Zhong, T.P., Childs, S., Leu, J.P., and Fishman, M.C. (2001) Gridlock signalling pathway fashions the first embryonic artery. Nature. 414(6860):216-220
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