Morpholino
MO1-raraa
Target Location
Genomic Features
No data available
Expression
Gene expression in Wild Types + MO1-raraa
No data available
Phenotype
Phenotype resulting from MO1-raraa
| Phenotype | Fish | Figures |
|---|---|---|
| hepatocyte decreased amount, abnormal | zf235Tg + MO1-raraa |
Fig. 3 
from Garnaas et al., 2012 |
| liver decreased size, abnormal | WT + MO1-raraa |
Fig. 3
from Garnaas et al., 2012 |
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Phenotype of all Fish created by or utilizing MO1-raraa
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Citations
- Samarut, E., Gaudin, C., Hughes, S., Gillet, B., de Bernard, S., Jouve, P.E., Buffat, L., Allot, A., Lecompte, O., Berekelya, L., Rochette-Egly, C., and Laudet, V. (2014) Retinoic acid receptor subtype-specific transcriptotypes in the early zebrafish embryo. Molecular endocrinology (Baltimore, Md.). 28(2):260-272
- Garnaas, M.K., Cutting, C.C., Meyers, A., Kelsey, P.B., Harris, J.M., North, T.E., and Goessling, W. (2012) Rargb regulates organ laterality in a zebrafish model of right atrial isomerism. Developmental Biology. 372(2):178-189
- Linville, A., Radtke, K., Waxman, J.S., Yelon, D., and Schilling, T.F. (2009) Combinatorial roles for zebrafish retinoic acid receptors in the hindbrain, limbs and pharyngeal arches. Developmental Biology. 325(1):60-70
- Stafford, D., White, R.J., Kinkel, M.D., Linville, A., Schilling, T.F., and Prince, V.E. (2006) Retinoids signal directly to zebrafish endoderm to specify insulin-expressing {beta}-cells. Development (Cambridge, England). 133(5):949-956
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