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ZFIN ID:
ZDB-MRPHLNO-050308-3
CITATIONS
(11 total)
Morpholino Name:
MO1-ptch1
Morpholino Symbol:
MO1-ptch1
Chassaing, N., Davis, E.E., McKnight, K.L., Niederriter, A.R., Causse, A., David, V., Desmaison, A., Lamarre, S., Vincent-Delorme, C., Pasquier, L., Coubes, C., Lacombe, D., Rossi, M., Dufier, J.L., Dollfus, H., Kaplan, J., Katsanis, N., Etchevers, H.C., Faguer, S., Calvas, P. (2016) Targeted resequencing identifies PTCH1 as a major contributor to ocular developmental anomalies and extends the SOX2 regulatory network. Genome research. 26(4):474-85
Hong, S., Hu, P., Jang, J.H., Carrington, B., Sood, R., Berger, S.I., Roessler, E., Muenke, M. (2020) Functional analysis of Sonic Hedgehog variants associated with holoprosencephaly in humans using a CRISPR/Cas9 zebrafish model. Human Mutation. 41(12):2155-2166
Huang, P., and Schier, A.F. (2009) Dampened Hedgehog signaling but normal Wnt signaling in zebrafish without cilia. Development (Cambridge, England). 136(18):3089-3098
Huang, P., Xiong, F., Megason, S.G., and Schier, A.F. (2012) Attenuation of notch and hedgehog signaling is required for fate specification in the spinal cord. PLoS Genetics. 8(6):e1002762
Kaur, S., Gupta, S., Chaudhary, M., Khursheed, M.A., Mitra, S., Kurup, A.J., Ramachandran, R. (2018) let-7 MicroRNA-Mediated Regulation of Shh Signaling and the Gene Regulatory Network Is Essential for Retina Regeneration. Cell Reports. 23:1409-1423
Nagai-Tanima, M., Hong, S., Hu, P., Carrington, B., Sood, R., Roessler, E., Muenke, M. (2020) Rare hypomorphic human variation in the heptahelical domain of SMO contributes to holoprosencephaly phenotypes. Human Mutation. 41(12):2105-2118
Ochi, H., Pearson, B.J., Chuang, P.T., Hammerschmidt, M., and Westerfield, M. (2006) Hhip regulates zebrafish muscle development by both sequestering Hedgehog and modulating localization of Smoothened. Developmental Biology. 297(1):127-140
Pan, C., Xiong, Y., Lv, X., Xia, Y., Zhang, S., Chen, H., Fan, J., Wu, W., Liu, F., Wu, H., Zhou, Z., Zhang, L., Zhao, Y. (2017) UbcD1 regulates Hedgehog signaling by directly modulating Ci ubiquitination and processing. EMBO reports. 18:1922-1934
Stückemann, T., Wegleiter, T., Stefan, E., Nägele, O., Tarbashevich, K., Böck, G., Raz, E., and Aanstad, P. (2012) Zebrafish Cxcr4a determines the proliferative response to Hedgehog signalling. Development (Cambridge, England). 139(15):2711-2720
Wolff, C., Roy, S., and Ingham, P.W. (2003) Multiple muscle cell identities induced by distinct levels and timing of hedgehog activity in the zebrafish embryo. Current biology : CB. 13(14):1169-1181
Woods, I.G., and Talbot, W.S. (2005) The you Gene Encodes an EGF-CUB Protein Essential for Hedgehog Signaling in Zebrafish. PLoS Biology. 3(3):e66
Hong, S., Hu, P., Jang, J.H., Carrington, B., Sood, R., Berger, S.I., Roessler, E., Muenke, M. (2020) Functional analysis of Sonic Hedgehog variants associated with holoprosencephaly in humans using a CRISPR/Cas9 zebrafish model. Human Mutation. 41(12):2155-2166
Nagai-Tanima, M., Hong, S., Hu, P., Carrington, B., Sood, R., Roessler, E., Muenke, M. (2020) Rare hypomorphic human variation in the heptahelical domain of SMO contributes to holoprosencephaly phenotypes. Human Mutation. 41(12):2105-2118
Kaur, S., Gupta, S., Chaudhary, M., Khursheed, M.A., Mitra, S., Kurup, A.J., Ramachandran, R. (2018) let-7 MicroRNA-Mediated Regulation of Shh Signaling and the Gene Regulatory Network Is Essential for Retina Regeneration. Cell Reports. 23:1409-1423
Pan, C., Xiong, Y., Lv, X., Xia, Y., Zhang, S., Chen, H., Fan, J., Wu, W., Liu, F., Wu, H., Zhou, Z., Zhang, L., Zhao, Y. (2017) UbcD1 regulates Hedgehog signaling by directly modulating Ci ubiquitination and processing. EMBO reports. 18:1922-1934
Chassaing, N., Davis, E.E., McKnight, K.L., Niederriter, A.R., Causse, A., David, V., Desmaison, A., Lamarre, S., Vincent-Delorme, C., Pasquier, L., Coubes, C., Lacombe, D., Rossi, M., Dufier, J.L., Dollfus, H., Kaplan, J., Katsanis, N., Etchevers, H.C., Faguer, S., Calvas, P. (2016) Targeted resequencing identifies PTCH1 as a major contributor to ocular developmental anomalies and extends the SOX2 regulatory network. Genome research. 26(4):474-85
Huang, P., Xiong, F., Megason, S.G., and Schier, A.F. (2012) Attenuation of notch and hedgehog signaling is required for fate specification in the spinal cord. PLoS Genetics. 8(6):e1002762
Stückemann, T., Wegleiter, T., Stefan, E., Nägele, O., Tarbashevich, K., Böck, G., Raz, E., and Aanstad, P. (2012) Zebrafish Cxcr4a determines the proliferative response to Hedgehog signalling. Development (Cambridge, England). 139(15):2711-2720
Huang, P., and Schier, A.F. (2009) Dampened Hedgehog signaling but normal Wnt signaling in zebrafish without cilia. Development (Cambridge, England). 136(18):3089-3098
Ochi, H., Pearson, B.J., Chuang, P.T., Hammerschmidt, M., and Westerfield, M. (2006) Hhip regulates zebrafish muscle development by both sequestering Hedgehog and modulating localization of Smoothened. Developmental Biology. 297(1):127-140
Woods, I.G., and Talbot, W.S. (2005) The you Gene Encodes an EGF-CUB Protein Essential for Hedgehog Signaling in Zebrafish. PLoS Biology. 3(3):e66
Wolff, C., Roy, S., and Ingham, P.W. (2003) Multiple muscle cell identities induced by distinct levels and timing of hedgehog activity in the zebrafish embryo. Current biology : CB. 13(14):1169-1181
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