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ZFIN ID:
ZDB-MRPHLNO-050927-1
CITATIONS
(18 total)
Morpholino Name:
MO1-gata6
Morpholino Symbol:
MO1-gata6
Chan, T.M., Chao, C.H., Wang, H.D., Yu, Y.J., and Yuh, C.H. (2009) Functional analysis of the evolutionarily conserved Cis-regulatory elements on the Sox17 gene in zebrafish. Developmental Biology. 326(2):456-470
Gupta, V., Gemberling, M., Karra, R., Rosenfeld, G.E., Evans, T., and Poss, K.D. (2013) An Injury-Responsive Gata4 Program Shapes the Zebrafish Cardiac Ventricle. Current biology : CB. 23(13):1221-7
Holtzinger, A., and Evans, T. (2007) Gata5 and Gata6 are functionally redundant in zebrafish for specification of cardiomyocytes. Developmental Biology. 312(2):613-622
Holtzinger, A., and Evans, T. (2005) Gata4 regulates the formation of multiple organs. Development (Cambridge, England). 132(17):4005-4014
Jia, W., Liang, D., Li, N., Liu, M., Dong, Z., Li, J., Dong, X., Yue, Y., Hu, P., Yao, J., Zhao, Q. (2018) Zebrafish microRNA miR-210-5p inhibits primitive myelopoiesis by silencing
foxj1b
and
slc3a2a
mRNAs downstream of
gata4/5/6
transcription factor genes. The Journal of biological chemistry. 294(8):2732-2743
Liang, D., Jia, W., Li, J., Li, K., and Zhao, Q. (2012) Retinoic Acid signaling plays a restrictive role in zebrafish primitive myelopoiesis. PLoS One. 7(2):e30865
Miyagi, H., Nag, K., Sultana, N., Munakata, K., Hirose, S., Nakamura, N. (2016) Characterization of the zebrafish cx36.7 gene promoter: Its regulation of cardiac-specific expression and skeletal muscle-specific repression. Gene. 577(2):265-74
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
Park, J.S., Kim, H.S., Kim, J.D., Seo, J., Chung, K.S., Lee, H.S., Huh, T.L., Jo, I., and Kim, Y.O. (2009) Isolation of a ventricle-specific promoter for the zebrafish ventricular myosin heavy chain (vmhc) gene and its regulation by GATA factors during embryonic heart development. Developmental Dynamics : an official publication of the American Association of Anatomists. 238(6):1574-1581
Peterkin, T., Gibson, A., and Patient, R. (2009) Common genetic control of haemangioblast and cardiac development in zebrafish. Development (Cambridge, England). 136(9):1465-1474
Peterkin, T., Gibson, A., and Patient, R. (2007) Redundancy and evolution of GATA factor requirements in development of the myocardium. Developmental Biology. 311(2):623-635
Peterkin, T., Gibson, A., and Patient, R. (2003) GATA-6 maintains BMP-4 and Nkx2 expression during cardiomyocyte precursor maturation. The EMBO journal. 22(16):4260-4273
Shin, D., Shin, C.H., Tucker, J., Ober, E.A., Rentzsch, F., Poss, K.D., Hammerschmidt, M., Mullins, M.C., and Stainier, D.Y. (2007) Bmp and Fgf signaling are essential for liver specification in zebrafish. Development (Cambridge, England). 134(11):2041-2050
Song, M., Yuan, X., Racioppi, C., Leslie, M., Stutt, N., Aleksandrova, A., Christiaen, L., Wilson, M.D., Scott, I.C. (2022) GATA4/5/6 family transcription factors are conserved determinants of cardiac versus pharyngeal mesoderm fate. Science advances. 8:eabg0834
Tseng, W.F., Jang, T.H., Huang, C.B., and Yuh, C.H. (2011) An evolutionarily conserved kernel of gata5, gata6, otx2 and prdm1a operates in the formation of endoderm in zebrafish. Developmental Biology. 357(2):541-57
Yuan, X., Song, M., Devine, P., Bruneau, B.G., Scott, I.C., Wilson, M.D. (2018) Heart enhancers with deeply conserved regulatory activity are established early in zebrafish development. Nature communications. 9:4977
Zeng, L., and Childs, S.J. (2012) The smooth muscle microRNA miR-145 regulates gut epithelial development via a paracrine mechanism. Developmental Biology. 367(2):178-186
Zeng, L., Carter, A.D., and Childs, S.J. (2009) miR-145 directs intestinal maturation in zebrafish. Proceedings of the National Academy of Sciences of the United States of America. 106(42):17793-17798
Song, M., Yuan, X., Racioppi, C., Leslie, M., Stutt, N., Aleksandrova, A., Christiaen, L., Wilson, M.D., Scott, I.C. (2022) GATA4/5/6 family transcription factors are conserved determinants of cardiac versus pharyngeal mesoderm fate. Science advances. 8:eabg0834
Jia, W., Liang, D., Li, N., Liu, M., Dong, Z., Li, J., Dong, X., Yue, Y., Hu, P., Yao, J., Zhao, Q. (2018) Zebrafish microRNA miR-210-5p inhibits primitive myelopoiesis by silencing
foxj1b
and
slc3a2a
mRNAs downstream of
gata4/5/6
transcription factor genes. The Journal of biological chemistry. 294(8):2732-2743
Yuan, X., Song, M., Devine, P., Bruneau, B.G., Scott, I.C., Wilson, M.D. (2018) Heart enhancers with deeply conserved regulatory activity are established early in zebrafish development. Nature communications. 9:4977
Miyagi, H., Nag, K., Sultana, N., Munakata, K., Hirose, S., Nakamura, N. (2016) Characterization of the zebrafish cx36.7 gene promoter: Its regulation of cardiac-specific expression and skeletal muscle-specific repression. Gene. 577(2):265-74
Gupta, V., Gemberling, M., Karra, R., Rosenfeld, G.E., Evans, T., and Poss, K.D. (2013) An Injury-Responsive Gata4 Program Shapes the Zebrafish Cardiac Ventricle. Current biology : CB. 23(13):1221-7
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
Liang, D., Jia, W., Li, J., Li, K., and Zhao, Q. (2012) Retinoic Acid signaling plays a restrictive role in zebrafish primitive myelopoiesis. PLoS One. 7(2):e30865
Zeng, L., and Childs, S.J. (2012) The smooth muscle microRNA miR-145 regulates gut epithelial development via a paracrine mechanism. Developmental Biology. 367(2):178-186
Tseng, W.F., Jang, T.H., Huang, C.B., and Yuh, C.H. (2011) An evolutionarily conserved kernel of gata5, gata6, otx2 and prdm1a operates in the formation of endoderm in zebrafish. Developmental Biology. 357(2):541-57
Chan, T.M., Chao, C.H., Wang, H.D., Yu, Y.J., and Yuh, C.H. (2009) Functional analysis of the evolutionarily conserved Cis-regulatory elements on the Sox17 gene in zebrafish. Developmental Biology. 326(2):456-470
Park, J.S., Kim, H.S., Kim, J.D., Seo, J., Chung, K.S., Lee, H.S., Huh, T.L., Jo, I., and Kim, Y.O. (2009) Isolation of a ventricle-specific promoter for the zebrafish ventricular myosin heavy chain (vmhc) gene and its regulation by GATA factors during embryonic heart development. Developmental Dynamics : an official publication of the American Association of Anatomists. 238(6):1574-1581
Peterkin, T., Gibson, A., and Patient, R. (2009) Common genetic control of haemangioblast and cardiac development in zebrafish. Development (Cambridge, England). 136(9):1465-1474
Zeng, L., Carter, A.D., and Childs, S.J. (2009) miR-145 directs intestinal maturation in zebrafish. Proceedings of the National Academy of Sciences of the United States of America. 106(42):17793-17798
Holtzinger, A., and Evans, T. (2007) Gata5 and Gata6 are functionally redundant in zebrafish for specification of cardiomyocytes. Developmental Biology. 312(2):613-622
Peterkin, T., Gibson, A., and Patient, R. (2007) Redundancy and evolution of GATA factor requirements in development of the myocardium. Developmental Biology. 311(2):623-635
Shin, D., Shin, C.H., Tucker, J., Ober, E.A., Rentzsch, F., Poss, K.D., Hammerschmidt, M., Mullins, M.C., and Stainier, D.Y. (2007) Bmp and Fgf signaling are essential for liver specification in zebrafish. Development (Cambridge, England). 134(11):2041-2050
Holtzinger, A., and Evans, T. (2005) Gata4 regulates the formation of multiple organs. Development (Cambridge, England). 132(17):4005-4014
Peterkin, T., Gibson, A., and Patient, R. (2003) GATA-6 maintains BMP-4 and Nkx2 expression during cardiomyocyte precursor maturation. The EMBO journal. 22(16):4260-4273
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