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ZFIN ID:
ZDB-ATB-100308-1
CITATIONS
(29 total)
Antibody Name:
Ab2-ctnnb1
Akhtar, T., Li, J., Olden, T., and Wallace, K.N. (2009) Use of Phospholipase A(2) for Antigen Retrieval in Zebrafish Whole-Mount Immunohistochemistry. Zebrafish. 6(3):223-227
Banote, R.K., Chebli, J., Şatır, T.M., Varshney, G.K., Camacho, R., Ledin, J., Burgess, S.M., Abramsson, A., Zetterberg, H. (2020) Amyloid precursor protein-b facilitates cell adhesion during early development in zebrafish. Scientific Reports. 10:10127
Brunet, T., Bouclet, A., Ahmadi, P., Mitrossilis, D., Driquez, B., Brunet, A.C., Henry, L., Serman, F., Béalle, G., Ménager, C., Dumas-Bouchiat, F., Givord, D., Yanicostas, C., Le-Roy, D., Dempsey, N.M., Plessis, A., and Farge, E. (2013) Evolutionary conservation of early mesoderm specification by mechanotransduction in Bilateria. Nature communications. 4:2821
Cao, J., Wang, J., Jackman, C.P., Cox, A.H., Trembley, M.A., Balowski, J.J., Cox, B.D., De Simone, A., Dickson, A.L., Di Talia, S., Small, E.M., Kiehart, D.P., Bursac, N., Poss, K.D. (2017) Tension Creates an Endoreplication Wavefront that Leads Regeneration of Epicardial Tissue. Developmental Cell. 42:600-615.e4
Cheesman, S.E., Neal, J.T., Mittge, E., Seredick, B.M., and Guillemin, K. (2011) Epithelial cell proliferation in the developing zebrafish intestine is regulated by the Wnt pathway and microbial signaling via Myd88. Proceedings of the National Academy of Sciences of the United States of America. 108(Suppl 1):4570-4577
Chen, L., Xu, W., Liu, K., Jiang, Z., Han, Y., Jin, H., Zhang, L., Shen, W., Jia, S., Sun, Q., Meng, A. (2021) 5' Half of specific tRNAs feeds back to promote corresponding tRNA gene transcription in vertebrate embryos. Science advances. 7:eabh0494
Chen, M., Philipp, M., Wang, J., Premont, R.T., Garrison, T.R., Caron, M.G., Lefkowitz, R.J., and Chen, W. (2009) G protein-coupled receptor kinases phosphorylate LRP6 in the Wnt pathway. The Journal of biological chemistry. 284(50):35040-35048
Eno, C., Hansen, C.L., Pelegri, F. (2019) Aggregation, segregation and dispersal of homotypic germ plasm RNPs in the early zebrafish embryo. Developmental Dynamics : an official publication of the American Association of Anatomists. 248(4):306-318
Eno, C., Solanki, B., Pelegri, F. (2016) aura/mid1ip1L regulates the cytoskeleton at the zebrafish egg-to-embryo transition. Development (Cambridge, England). 143(9):1585-99
Hozumi, S., Aoki, S., Kikuchi, Y. (2017) Nuclear movement regulated by non-Smad Nodal signaling via JNK is associated with Smad signaling during zebrafish endoderm specification. Development (Cambridge, England). 144(21):4015-4025
Ishida, T., Nakajima, T., Kudo, A., and Kawakami, A. (2010) Phosphorylation of Junb family proteins by the Jun N-terminal kinase supports tissue regeneration in zebrafish. Developmental Biology. 340(2):468-479
Kapp, L.D., Abrams, E.W., Marlow, F.L., and Mullins, M.C. (2013) The integrator complex subunit 6 (ints6) confines the dorsal organizer in vertebrate embryogenesis. PLoS Genetics. 9(10):e1003822
Li-Villarreal, N., Forbes, M.M., Loza, A.J., Chen, J., Ma, T., Helde, K., Moens, C.B., Shin, J., Sawada, A., Hindes, A.E., Dubrulle, J., Schier, A.F., Longmore, G.D., Marlow, F.L., Solnica-Krezel, L. (2015) Dachsous1b cadherin regulates actin and microtubule cytoskeleton during early zebrafish embryogenesis. Development (Cambridge, England). 142(15):2704-18
Lim, S., Kumari, P., Gilligan, P., Quach, H.N., Mathavan, S., and Sampath, K. (2012) Dorsal activity of maternal squint is mediated by a non-coding function of the RNA. Development (Cambridge, England). 139(16):2903-2915
Lowe, V., Wisniewski, L., Sayers, J., Evans, I., Frankel, P., Mercader-Huber, N., Zachary, I.C., Pellet-Many, C. (2019) Neuropilin 1 mediates epicardial activation and revascularization in the regenerating zebrafish heart. Development (Cambridge, England). 146(13):
Matsuda, M., Rand, K., Palardy, G., Shimizu, N., Ikeda, H., Nogare, D.D., Itoh, M., Chitnis, A.B. (2016) Epb41l5 competes with Delta as a substrate for Mib1 to coordinate specification and differentiation of neurons. Development (Cambridge, England). 143(17):3085-96
Menon, T., Borbora, A.S., Kumar, R., Nair, S. (2020) Dynamic optima in cell sizes during early development enable normal gastrulation in zebrafish embryos. Developmental Biology. 468(1-2):26-40
Moravec, C.E., Voit, G.C., Otterlee, J., Pelegri, F. (2021) Identification of maternal-effect genes in zebrafish using maternal crispants. Development (Cambridge, England). 148(19)
Málaga-Trillo, E., Solis, G.P., Schrock, Y., Geiss, C., Luncz, L., Thomanetz, V., and Stuermer, C.A. (2009) Regulation of Embryonic Cell Adhesion by the Prion Protein. PLoS Biology. 7(3):e55
Nair, S., Marlow, F., Abrams, E., Kapp, L., Mullins, M.C., and Pelegri, F. (2013) The chromosomal passenger protein birc5b organizes microfilaments and germ plasm in the zebrafish embryo. PLoS Genetics. 9(4):e1003448
Neal, J.T., Peterson, T.S., Kent, M.L., and Guillemin, K. (2013) H. pylori Virulence Factor CagA Increases Intestinal Cell Proliferation by Wnt Pathway Activation in a Transgenic Zebrafish Model. Disease models & mechanisms. 6(3):802-10
Nery, L.R., Eltz, N.S., Martins, L., Guerim, L.D., Pereira, T.C., Bogo, M.R., Vianna, M.R. (2014) Sustained behavioral effects of lithium exposure during early development in zebrafish: Involvement of the Wnt-β-catenin signaling pathway. Progress in neuro-psychopharmacology & biological psychiatry. 55:101-8
Schall, K.A., Thornton, M.E., Isani, M., Holoyda, K.A., Hou, X., Lien, C.L., Grubbs, B.H., Grikscheit, T.C. (2017) Short bowel syndrome results in increased gene expression associated with proliferation, inflammation, bile acid synthesis and immune system activation: RNA sequencing a zebrafish SBS model. BMC Genomics. 18:23
Sun, J., Yan, L., Shen, W., Meng, A. (2018) Maternal Ybx1 safeguards zebrafish oocyte maturation and maternal-to-zygotic transition by repressing global translation. Development (Cambridge, England). 145(19):
Sundvik, M., Chen, Y.C., and Panula, P. (2013) Presenilin1 Regulates Histamine Neuron Development and Behavior in Zebrafish, Danio rerio. The Journal of neuroscience : the official journal of the Society for Neuroscience. 33(4):1589-1597
Tran, L.D., Hino, H., Quach, H., Lim, S., Shindo, A., Mimori-Kiyosue, Y., Mione, M., Ueno, N., Winkler, C., Hibi, M., and Sampath, K. (2012) Dynamic microtubules at the vegetal cortex predict the embryonic axis in zebrafish. Development (Cambridge, England). 139(19):3644-3652
Wishart, T.M., Mutsaers, C.A., Riessland, M., Reimer, M.M., Hunter, G., Hannam, M.L., Eaton, S.L., Fuller, H.R., Roche, S.L., Somers, E., Morse, R., Young, P.J., Lamont, D.J., Hammerschmidt, M., Joshi, A., Hohenstein, P., Morris, G.E., Parson, S.H., Skehel, P.A., Becker, T., Robinson, I.M., Becker, C.G., Wirth, B., Gillingwater, T.H. (2014) Dysregulation of ubiquitin homeostasis and beta-catenin signaling promote spinal muscular atrophy. J. Clin. Invest.. 124:1821-34
Wright, G.J., Giudicelli, F., Soza-Ried, C., Hanisch, A., Ariza-McNaughton, L., and Lewis, J. (2011) DeltaC and DeltaD interact as Notch ligands in the zebrafish segmentation clock. Development (Cambridge, England). 138:2947-2956
Yan, L., Chen, J., Zhu, X., Sun, J., Wu, X., Shen, W., Zhang, W., Tao, Q., Meng, A. (2018) Maternal Huluwa dictates the embryonic body axis through β-catenin in vertebrates. Science (New York, N.Y.). 362(6417)
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