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ZFIN ID:
ZDB-MRPHLNO-050316-2
CITATIONS
(13 total)
Morpholino Name:
MO1-aldh1a2
Morpholino Symbol:
MO1-aldh1a2
Begemann, G., Schilling, T.F., Rauch, G.J., Geisler, R., and Ingham, P.W. (2001) The zebrafish neckless mutation reveals a requirement for raldh2 in mesodermal signals that pattern the hindbrain. Development (Cambridge, England). 128(16):3081-3094
Bohnsack, B.L., Kasprick, D.S., Kish, P.E., Goldman, D., and Kahana, A. (2012) A zebrafish model of Axenfeld-Rieger Syndrome reveals that pitx2 regulation by retinoic acid is essential for ocular and craniofacial development. Investigative ophthalmology & visual science. 53(1):7-22
Eisinger, A.L., Nadauld, L.D., Shelton, D.N., Prescott, S.M., Stafforini, D.M., and Jones, D.A. (2007) Retinoic Acid Inhibits β-Catenin through Suppression of Cox-2: A role for truncated adenomatous polyposis coli. The Journal of biological chemistry. 282(40):29394-29400
Emoto, Y., Wada, H., Okamoto, H., Kudo, A., and Imai, Y. (2005) Retinoic acid-metabolizing enzyme Cyp26a1 is essential for determining territories of hindbrain and spinal cord in zebrafish. Developmental Biology. 278(2):415-427
Grandel, H., Lun, K., Rauch, G.J., Rhinn, M., Piotrowski, T., Houart, C., Sordino, P., Küchler, A.M., Schulte-Merker, S., Geisler, R., Holder, N., Wilson, S.W., and Brand, M. (2002) Retinoic acid signalling in the zebrafish embryo is necessary during pre-segmentation stages to pattern the anterior-posterior axis of the CNS and to induce a pectoral fin bud. Development (Cambridge, England). 129(12):2851-2865
Kawakami, Y., Raya, A., Raya, R.M., Rodriguez-Esteban, C., and Izpisúa Belmonte, J.C. (2005) Retinoic acid signalling links left-right asymmetric patterning and bilaterally symmetric somitogenesis in the zebrafish embryo. Nature. 435(7039):165-171
Laue, K., Jänicke, M., Plaster, N., Sonntag, C., and Hammerschmidt, M. (2008) Restriction of retinoic acid activity by Cyp26b1 is required for proper timing and patterning of osteogenesis during zebrafish development. Development (Cambridge, England). 135(22):3775-3787
Li, J., Yue, Y., Zhao, Q. (2016) Retinoic Acid Signaling Is Essential for Valvulogenesis by Affecting Endocardial Cushions Formation in Zebrafish Embryos. Zebrafish. 13(1):9-18
Retnoaji, B., Akiyama, R., Matta, T., Bessho, Y., and Matsui, T. (2014) Retinoic acid controls proper head-to-trunk linkage in zebrafish by regulating an anteroposterior somitogenetic rate difference. Development (Cambridge, England). 141(1):158-165
Sosnik, J., Zheng, L., Rackauckas, C.V., Digman, M., Gratton, E., Nie, Q., Schilling, T.F. (2016) Noise modulation in retinoic acid signaling sharpens segmental boundaries of gene expression in the embryonic zebrafish hindbrain. eLIFE. 5:e14034
Vaccari, E., Deflorian, G., Bernardi, E., Pauls, S., Tiso, N., Bortolussi, M., and Argenton, F. (2010) prep1.2 and aldh1a2 participate to a positive loop required for branchial arches development in zebrafish. Developmental Biology. 343(1-2):94-103
White, R.J., Nie, Q., Lander, A.D., and Schilling, T.F. (2007) Complex Regulation of cyp26a1 Creates a Robust Retinoic Acid Gradient in the Zebrafish Embryo. PLoS Biology. 5(11):e304
Williams, A.L., Eason, J., Chawla, B., Bohnsack, B.L. (2017) Cyp1b1 Regulates Ocular Fissure Closure Through a Retinoic Acid-Independent Pathway. Investigative ophthalmology & visual science. 58:1084-1097
Williams, A.L., Eason, J., Chawla, B., Bohnsack, B.L. (2017) Cyp1b1 Regulates Ocular Fissure Closure Through a Retinoic Acid-Independent Pathway. Investigative ophthalmology & visual science. 58:1084-1097
Li, J., Yue, Y., Zhao, Q. (2016) Retinoic Acid Signaling Is Essential for Valvulogenesis by Affecting Endocardial Cushions Formation in Zebrafish Embryos. Zebrafish. 13(1):9-18
Sosnik, J., Zheng, L., Rackauckas, C.V., Digman, M., Gratton, E., Nie, Q., Schilling, T.F. (2016) Noise modulation in retinoic acid signaling sharpens segmental boundaries of gene expression in the embryonic zebrafish hindbrain. eLIFE. 5:e14034
Retnoaji, B., Akiyama, R., Matta, T., Bessho, Y., and Matsui, T. (2014) Retinoic acid controls proper head-to-trunk linkage in zebrafish by regulating an anteroposterior somitogenetic rate difference. Development (Cambridge, England). 141(1):158-165
Bohnsack, B.L., Kasprick, D.S., Kish, P.E., Goldman, D., and Kahana, A. (2012) A zebrafish model of Axenfeld-Rieger Syndrome reveals that pitx2 regulation by retinoic acid is essential for ocular and craniofacial development. Investigative ophthalmology & visual science. 53(1):7-22
Vaccari, E., Deflorian, G., Bernardi, E., Pauls, S., Tiso, N., Bortolussi, M., and Argenton, F. (2010) prep1.2 and aldh1a2 participate to a positive loop required for branchial arches development in zebrafish. Developmental Biology. 343(1-2):94-103
Laue, K., Jänicke, M., Plaster, N., Sonntag, C., and Hammerschmidt, M. (2008) Restriction of retinoic acid activity by Cyp26b1 is required for proper timing and patterning of osteogenesis during zebrafish development. Development (Cambridge, England). 135(22):3775-3787
Eisinger, A.L., Nadauld, L.D., Shelton, D.N., Prescott, S.M., Stafforini, D.M., and Jones, D.A. (2007) Retinoic Acid Inhibits β-Catenin through Suppression of Cox-2: A role for truncated adenomatous polyposis coli. The Journal of biological chemistry. 282(40):29394-29400
White, R.J., Nie, Q., Lander, A.D., and Schilling, T.F. (2007) Complex Regulation of cyp26a1 Creates a Robust Retinoic Acid Gradient in the Zebrafish Embryo. PLoS Biology. 5(11):e304
Emoto, Y., Wada, H., Okamoto, H., Kudo, A., and Imai, Y. (2005) Retinoic acid-metabolizing enzyme Cyp26a1 is essential for determining territories of hindbrain and spinal cord in zebrafish. Developmental Biology. 278(2):415-427
Kawakami, Y., Raya, A., Raya, R.M., Rodriguez-Esteban, C., and Izpisúa Belmonte, J.C. (2005) Retinoic acid signalling links left-right asymmetric patterning and bilaterally symmetric somitogenesis in the zebrafish embryo. Nature. 435(7039):165-171
Grandel, H., Lun, K., Rauch, G.J., Rhinn, M., Piotrowski, T., Houart, C., Sordino, P., Küchler, A.M., Schulte-Merker, S., Geisler, R., Holder, N., Wilson, S.W., and Brand, M. (2002) Retinoic acid signalling in the zebrafish embryo is necessary during pre-segmentation stages to pattern the anterior-posterior axis of the CNS and to induce a pectoral fin bud. Development (Cambridge, England). 129(12):2851-2865
Begemann, G., Schilling, T.F., Rauch, G.J., Geisler, R., and Ingham, P.W. (2001) The zebrafish neckless mutation reveals a requirement for raldh2 in mesodermal signals that pattern the hindbrain. Development (Cambridge, England). 128(16):3081-3094
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