Biology Reference
In-Depth Information
Sabel, J.L., d'Alen¸on, C., O'Brien, E.K., Van Otterloo, E., Lutz, K., Cuykendall, T.N.,
Schutte, B.C., Houston, D.W., Cornell, R.A., 2009. Maternal Interferon Regulatory
Factor 6 is required for the differentiation of primary superficial epithelia in Danio
and Xenopus embryos. Dev. Biol. 325, 249-262.
Sagerstr¨m, C.G., Gammill, L.S., Veale, R., Sive, H., 2005. Specification of the enveloping
layer and lack of autoneuralization in zebrafish embryonic explants. Dev. Dyn. 232, 85-97.
Sardet, C., Prodon, F., Dumollard, R., Chang, P., Chˆnevert, J., 2002. Structure and func-
tion of the egg cortex from oogenesis through fertilization. Dev. Biol. 241, 1-23.
Schier, A.F., 2007. The maternal-zygotic transition: death and birth of RNAs. Science 316,
406-407.
Schroeder, K.E., Condic, M.L., Eisenberg, L.M., Yost, H.J., 1999. Spatially regulated trans-
lation in embryos: asymmetric expression of maternal Wnt-11 along the dorsal-ventral
axis in Xenopus. Dev. Biol. 214, 288-297.
Selman, K., Wallace, R.A., Sarka, A., Qi, X., 1993. Stages of oocyte development in the
zebrafish, Brachydanio rerio. J. Morphol. 218, 203-224.
Sharp, J.A., Plant, J.J., Ohsumi, T.K., Borowsky, M., Blower, M.D., 2011. Functional anal-
ysis of the microtubule-interacting transcriptome. Mol. Biol. Cell 22, 4312-4323.
Short, K.M., Cox, T.C., 2006. Subclassification of the RBCC/TRIM superfamily reveals a
novel motif necessary for microtubule binding. J. Biol. Chem. 281, 8970-8980.
Simmonds, A.J., dosSantos, G., Livne-Bar, I., Krause, H.M., 2001. Apical localization of
wingless transcripts is required for wingless signaling. Cell 105, 197-207.
Skamagki, M., Wicher, K.B., Jedrusik, A., Ganguly, S., Zernicka-Goetz, M., 2013. Asym-
metric localization of Cdx2 mRNA during the first cell-fate decision in early mouse
development. Cell Rep. 3, 442-457.
Skirkanich, J., Luxardi, G., Yang, J., Kodjabachian, L., Klein, P.S., 2011. An essential role for
transcription before the MBT in Xenopus laevis. Dev. Biol. 357, 478-491.
Smith, J.C., Price, B.M., Van Nimmen, K., Huylebroeck, D., 1990. Identification of a
potent Xenopus mesoderm-inducing factor as a homologue of activin A. Nature 345,
729-731.
Smith, R.W.P., Anderson, R.C., Smith, J.W.S., Brook, M., Richardson, W.A., Gray, N.K.,
2011. DAZAP1, an RNA-binding protein required for development and spermatogen-
esis, can regulate mRNA translation. RNA 17, 1282-1295.
Song, H.-W., Cauffman, K., Chan, A.P., Zhou, Y., King, M.L., Etkin, L.D., Kloc, M.,
2007. Hermes RNA-binding protein targets RNAs-encoding proteins involved in
meiotic maturation, early cleavage, and germline development. Differentiation 75,
519-528.
Souopgui, J., Rust, B., Vanhomwegen, J., Heasman, J., Henningfeld, K.A., Bellefroid, E.,
Pieler, T., 2008. The RNA-binding protein XSeb4R: a positive regulator of VegT
mRNA stability and translation that is required for germ layer formation in Xenopus.
Genes Dev. 22, 2347-2352.
St Johnston, D., Ahringer, J., 2010. Cell polarity in eggs and epithelia: parallels and diversity.
Cell 141, 757-774.
Stennard, F., Carnac, G., Gurdon, J.B., 1996. The Xenopus T-box gene, Antipodean,
encodes a vegetally localised maternal mRNA and can trigger mesoderm formation.
Development 122, 4179-4188.
Stennard, F., Zorn, A.M., Ryan, K., Garrett, N., Gurdon, J.B., 1999. Differential expression
of VegT and Antipodean protein isoforms in Xenopus. Mech. Dev. 86, 87-98.
Su, Q., Cai, Q., Gerwin, C., Smith, C.L., Sheng, Z.-H., 2004. Syntabulin is a microtubule-
associated protein implicated in syntaxin transport in neurons. Nat. Cell Biol. 6,
941-953.
Sudarwati, S., Nieuwkoop, P.D., 1971. Mesoderm formation in the anuran Xenopus laevis
(Daudin). Dev. Genes Evol. 166, 189-204.
Previous Page
Next Page
International Review of Cell and Molecular Biology
Search WWH ::




Custom Search
Home