Differential expression of type II cytokeratin mRNA defines early developmental boundaries within the ectoderm, mesoderm and endoderm during chick development

Barabanov VM, Fedtsova NG (1982) The distribution of lens differentiation capacity in the head of chick embryos. Differentiation 21:183?190

Bellairs R (1953) Studies on the development of the foregut in the chick blastoderm. I. The presumptive foregut area. J Embryol Exp Morphol 1: 115?124

Bennett GS (1987) Changes in intermediate filament composition during neurogenesis. Curr Top Dev Biol 21:151?183

Brulet P, Babinet C, Kemler R, Jacob F (1980) Monoclonal antibodies against trophectoderm-specific markers during mouse blastocyst formation. Proc Nat Acad Sci USA 77:4113?4117

Charlebois TS, Spencer DH, Tarkington SK, Henry JJ, Grainger RM (1990a) Isolation of a chick cytokeratin cDNA clone indicative of regional specialization in early embryonic ectoderm. Development 108:33?45

Charlebois TS, Henry JJ, Grainger RM (1990b) Differential cytokeratin gene expression reveals early dorsal-ventral regionalization in chick mesoderm. Development 110:417?425

Cox KH, De Leon DV, Angerer LM, Angerer RC (1984) Detection mRNAs in sea urchin embryos by in situ hybridization using asymmetric RNA probes. Dev Biol 101:485?502

Duprey P, Morello D, Vasseur M, Babinet C, Condamine H, Brulet P, Jacob F (1985) Expression of the cytokeratin endo A gene during early mouse embryogenesis. Proc Natl Acad Sci USA 82:8535?8539

Erickson CA, Tucker RP, Edwards BF (1987) Changes in the distribution of intermediate-filament types in Japanese quail embryos during morphogenesis. Differentiation 34:88?97

Fontaine J, LeDouarin NM (1977) Analysis of endoderm formation in the avian blastoderm by the use of quail-chick chimeras. J Embryol Exp Morphol 41:209?222

Grainger RM (1992) Embryonic lens induction: shedding light on vertebrate tissue determination. Trends in Genetics 8:349?355

Grunwald GB, Gilbert SF, Brewer K, Cleland L, Kawai M (1990) Immunocytochemical analysis of embryonic compartmentation with a monoclonal antibody against a cytokeratin-related antigen. Histochemis 94: 545?553

Hamburger V, Hamilton HL (1951) A series of normal stages in the development of the chick embryo. J Morphol 88:49?92

Hornbruch A, Summerbell D, Wolpert L (1979) Semite formation in the early chick embryo following grafts of Hensen's node. J Embryol Exp Morphol 51:51?62

Jackson BW, Grund C, Schmid E, Burki K, Franke WW, Illmensee K (1980) Formation of cytoskeletal elements during mouse embryogenesis. Differentiation 17:161?179

Karkinen-Jaaskelainen M (1978a) Permissive and directive interactions in lens induction. J Embryol Exp Morphol 44:167?179

Karkinen-Jaaskelainen M (1978b) Transfilter lens induction in the avian embryo. Differentiation 12:31?37

Khaner O, Mitrani E, Eyal-Giladi H (1985) Developmental potencies of area opaca and marginal zone areas of early chick blastoderms. J Emb Exp Morphol 89:235?241

Noden DW (1975) An analysis of the migratory behavior of avian cephalic neural crest cells. Dev Biol 42:106?130

Page M (1989) Changing patterns of cytokeratins and vimentin in the early chick embryo. Development 105:97?107

Rosenquist GC (1966) A radioautographic study of labeled grafts in the chick blastoderm: development from primitive streak stages to stage 12. Carneg Instit Wash Public 262 Contrib to Embryol 38:73?110

Rosenquist GC (1972) Endoderm movements in the chick embryo between the early streak and head process stages. J Exp Zool 180:95?104

Rosenquist GC, DeHaan RL (1966) Migration of precardiac cells in the chick embryo: A radioautographic study. Carneg Instit Wash Public 263 Contrib to Embryol 38:113?121

Slack JWM, Tannahill D (1992) Mechanism of anteroposterior axis specification in vertebrates: Lessons from the amphibians. Development 114:285?302