Morpholino
MO4-fgf3
Target Location
Genomic Features
No data available
Expression
Gene expression in Wild Types + MO4-fgf3
| Expressed Gene | Anatomy | Figures |
|---|---|---|
| alcama |
Fig. 3 
from Nechiporuk et al., 2005 |
|
| foxi1 |
Fig. 5
from Nechiporuk et al., 2005 |
|
| ins |
Fig. 3
from Song et al., 2007 |
|
| neurog1 |
|
Fig. 3
from Nechiporuk et al., 2005 |
| phox2a |
|
Fig. 3
from Nechiporuk et al., 2005 |
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Phenotype
Phenotype resulting from MO4-fgf3
No data available
Phenotype of all Fish created by or utilizing MO4-fgf3
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Citations
- Nechiporuk, A., and Raible, D.W. (2008) FGF-Dependent Mechanosensory Organ Patterning in Zebrafish. Science (New York, N.Y.). 320(5884):1774-1777
- Nechiporuk, A., Linbo, T., Poss, K.D., and Raible, D.W. (2007) Specification of epibranchial placodes in zebrafish. Development (Cambridge, England). 134(3):611-623
- Song, J., Kim, H.J., Gong, Z., Liu, N.A., and Lin, S. (2007) Vhnf1 acts downstream of Bmp, Fgf, and RA signals to regulate endocrine beta cell development in zebrafish. Developmental Biology. 303(2):561-575
- Nechiporuk, A., Linbo, T., and Raible, D.W. (2005) Endoderm-derived Fgf3 is necessary and sufficient for inducing neurogenesis in the epibranchial placodes in zebrafish. Development (Cambridge, England). 132(16):3717-3730
- Mathieu, J., Griffin, K., Herbomel, P., Dickmeis, T., Strähle, U., Kimelman, D., Rosa, F.M., and Peyriéras, N. (2004) Nodal and Fgf pathways interact through a positive regulatory loop and synergize to maintain mesodermal cell populations. Development (Cambridge, England). 131(3):629-641
- David, N.B., Saint-Etienne, L., Tsang, M., Schilling, T.F., and Rosa, F.M. (2002) Requirement for endoderm and FGF3 in ventral head skeleton formation. Development (Cambridge, England). 129(19):4457-4468
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