Mechanisms of Development 88 (1999) 257-258 Author index Volume 88 (1999) Aanstad, P., Whitaker, M., Predictability of dorso-ventral asymmetry in the Paired-class homeobox gene specifically expressed in the Drosophila cleavage stage zebrafish embryo: an analysis using lithium sensitivity as larval eye, 107 a dorso-ventral marker, 33 Gress, T.M., see Mueller-Pillasch, F., 95 Adler, G., see Mueller-Pillasch, F., 95 Afouda, A.B., Reynaud-Deonauth, S., Mohun, T., Spohr, G., Localized Hameister, H., see Mueller-Pillasch, F., 95 XId3 mRNA activation in Xenopus embryos by cytoplasmic polyade- Heymer, J., Riither, U., Syndactyly of Ft/+ mice correlates with an imbal- nylation, 15 ance in Bmp4 and Fgf8 expression, 173 Aniello, F., Locascio, A., Villani, M.G., Di Gregorio, A., Fucci, L., Branno, Hinson, S., Pettus, J., Nagoshi, R.N., Regulatory and functional interactions M., Identification and developmental expression of Ci-msxb: a novel between ovarian tumor and ovo during Drosophila oogenesis, 3 homologue of Drosophila msh gene in Ciona intestinalis, 123 Hollemann, T., Pieler, T., Xpitx-/: a homeobox gene expressed during pituitary and cement gland formation of Xenopus embryos, 249 Beck, C.W., Slack, J.M.W., Gut specific expression using mammalian Hooiveld, M.H.W., see Morgan, R., 67 promoters in transgenic Xenopus laevis, 221 Beil, M., see Mueller-Pillasch, F., 95 Jonkers, J., van Amerongen, R., van der Valk, M., Robanus-Maandag, E., Bell, S.M., Schreiner, C.M., Scott Jr., W.J., Disrupting the establishment of Molenaar, M., Destrée, O., Berns, A., In vivo analysis of Frat/ defi- polarizing activity by teratogen exposure, 147 ciency suggests compensatory activity of Frat3, 183 Berns, A., see Jonkers, J., 183 Blader, P., see Miiller, F., 73 Kao, W.W.-Y., see Lovicu, F.J., 43 Bonner, J.T., Fey, P., Cox, E.C., Expression of prestalk and prespore Kere, J., see Mikkola, M.L., 133 proteins in minute, two-dimensional Dictyostelium slugs, 253 Knoéchel, W., see Késter, M., 89 Botas, J., see Lilly, B., 195 Knéchel, W., see Mueller-Pillasch, F., 95 Branno, M., see Aniello, F., 123 Knoéchel, W., see Miiller, F., 73 Brunskill, E.W., Witte, D.P., Shreiner, A.B., Potter, S.S., Characterization Koster, M., Dillinger, K., Knéchel, W., Genomic structure and embryonic of Npas3, a novel basic helix-loop-helix PAS gene expressed in the expression of the Xenopus winged helix factors XFD-13/13', 89 developing mouse nervous system, 237 Kornberg, T.B., see Casso, D., 229 Bundy, J., see Koushik, S.V., 119 Koushik, S.V., Bundy, J., Conway, S.J., Sodium-calcium exchanger is initially expressed in a heart-restricted pattern within the early mouse Casso, D., Ramirez-Weber, F.-A., Kornberg, T.B., GFP-tagged balancer embryo, 119 chromosomes for Drosophila melanogaster, 229 Chao, S.-H., Nagoshi, R.N., Induction of apoptosis in the germline and Lacher, U., see Mueller-Pillasch, F., 95 follicle layer of Drosophila egg chambers, 159 Lear, B.C., Skeath, J.B., Patel, N.H., Neural cell fate in rca/ and cycA Coffinier, C., see Goriely, A., 107 mutants: the roles of intrinsic and extrinsic factors in asymmetric divi- Conway, S.J., see Koushik, S.V., 119 sion in the Drosophila central nervous system, 207 Cox, E.C., see Bonner, J.T., 253 Lilly, B., O’Keefe, D.D., Thomas, J.B., Botas, J., The LIM homeodomain protein dLim! defines a subclass of neurons within the embryonic Desplan, C., see Goriely, A., 107 ventral nerve cord of Drosophila, 195 Destrée, O., see Jonkers, J., 183 Locascio, A., see Aniello, F., 123 Di Gregorio, A., see Aniello, F., 123 Losson, R., see Niederreither, K., 111 Dillinger, K., see Késter, M., 89 Lovicu, F.J., Kao, W.W.-Y., Overbeek, P.A., Ectopic gland induction by Dollé, P., see Niederreither, K., 111 lens-specific expression of keratinocyte growth factor (FGF-7) in trans- Durston, A.J., see Morgan, R., 67 genic mice, 43 Lutz, B., Schmid, W., Niehrs, C., Schiitz, G., Essential role of CREB family Fey, P., see Bonner, J.T., 253 proteins during Xenopus embryogenesis, 55 Fischer, N., see Miiller, F., 73 Fromer, M., see Zhang, Q., 101 Meyer, D., see Zhang, Q., 101 Fucci, L., see Aniello, F., 123 Mikkola, M.L., Pispa, J., Pekkanen, M., Paulin, L., Nieminen, P., Kere, J., Thesleff, I., Ectodysplasin, a protein required for epithelial morphogen- Gansmuller, A., see Niederreither, K., 111 esis, is a novel TNF homologue and promotes cell-matrix adhesion, 133 Git, A., see Zhang, Q., 10] Mohun, T., see Afouda, A.B., 15 Goriely, A., Mollereau, B., Coffinier, C., Desplan, C., Munster, a novel Molenaar, M., see Jonkers, J., 183 0925-4773/99/$ - see front matter © 1999 Elsevier Science Ireland Ltd. All rights reserved. PII: $0925-4773(99)00243-9 258 Author index Mollereau, B., see Goriely, A., 107 Reynaud-Deonauth, S., see Afouda, A.B., 15 Morgan, R., Hooiveld, M.H.W., Durston, A.J., A novel guanine exchange Robanus-Maandag, E., see Jonkers, J., 183 factor increases the competence of early ectoderm to respond to neural Riither, U., see Heymer, J., 173 induction, 67 Mueller-Pillasch, F., Pohl, B., Wilda, M., Lacher, U., Beil, M., Wallrapp, Schmid, W., see Lutz, B., 55 C., Hameister, H., Knéchel, W., Adler, G., Gress, T.M., Expression of Schoenwolf, G.C., see Yuan, S., 243 the highly conserved RNA binding protein KOC in embryogenesis, 95 Schreiner, C.M., see Bell, S.M., 147 Miiller, F., Blader, P., Rastegar, S., Fischer, N., Knéchel, W., Strahle, U., Schiitz, G., see Lutz, B., 55 Characterization of zebrafish smad/, smad2 and smad5: the amino- Scott Jr., W.J., see Bell, S.M., 147 terminus of Smad! and Smad5 is required for specific function in the Shreiner, A.B., see Brunskill, E.W., 237 embryo, 73 Skeath, J.B., see Lear, B.C., 207 Miinchberg, S.R., Ober, E.A., Steinbeisser, H., Expression of the Ets tran- Slack, J.M.W., see Beck, C.W., 221 scription factors erm and pea3 in early zebrafish development, 233 Spohr, G., see Afouda, A.B., 15 Standart, N., see Zhang, Q., 101 Nagoshi, R.N., see Chao, S.-H., 159 Steinbeisser, H., see Miinchberg, S.R., 233 Nagoshi, R.N., see Hinson, S., 3 Strahle, U., see Miiller, F., 73 Niederreither, K., Remboutsika, E., Gansmuller, A., Losson, R., Dollé, P., Expression of the transcriptional intermediary factor TIFla during Taylor, W.L., see Zhang, Q., 101 mouse development and in the reproductive organs, 111 Thesleff, I., see Mikkola, M.L., 133 Niehrs, C., see Lutz, B., 55 Thomas, J.B., see Lilly, B., 195 Nieminen, P., see Mikkola, M.L., 133 van Amerongen, R., see Jonkers, J., 183 Ober, E.A., see Miinchberg, S.R., 233 van der Valk, M., see Jonkers, J., 183 Oberman, F., see Zhang, Q., 101 Villani, M.G., see Aniello, F., 123 O’K eefe, D.D., see Lilly, B., 195 Overbeek, P.A., see Lovicu, F.J., 43 Wallrapp, C., see Mueller-Pillasch, F., 95 Whitaker, M., see Aanstad, P., 33 Patel, N.H., see Lear, B.C., 207 Wilda, M., see Mueller-Pillasch, F., 95 Paulin, L., see Mikkola, M.L., 133 Witte, D.P., see Brunskill, E.W., 237 Pekkanen, M., see Mikkola, M.L., 133 Wolke, U., see Zhang, Q., 101 Pettus, J., see Hinson, S., 3 Pieler, T., see Hollemann, T., 249 Pispa, J., see Mikkola, M.L., 133 Yaniv, K., see Zhang, Q., 101 Pohl, B., see Mueller-Pillasch, F., 95 Yisraeli, J.K., see Zhang, Q., 101 Potter, S.S., see Brunskill, E.W., 237 Yuan, S., Schoenwolf, G.C., The spatial and temporal pattern of C-Lmx/ expression in the neuroectoderm during chick neurulation, 243 Ramirez-Weber, F.-A., see Casso, D., 229 Zhang, Q., Yaniv, K., Oberman, F., Wolke, U., Git, A., Fromer, M., Taylor, Rastegar, S., see Miiller, F., 73 W.L., Meyer, D., Standart, N., Raz, E., Yisraeli, J.K., Vgl RBP intra- Raz, E., see Zhang, Q., 101 cellular distribution and evolutionarily conserved expression at multiple Remboutsika, E., see Niederreither, K., 111 stages during development, 101 Mechanisms of Development 88 (1999) 259-263 Subject index Volume 88 (1999) Animal cap; Xenopus development; Localization; Inhibition; Cytoplasmic Control prepattern axis; Xenopus development; Localization; Inhibition; polyadenylation; Palindrome CPE; Oocyte maturation; GVBD; Post-tran- Cytoplasmic polyadenylation; Palindrome CPE; Oocyte maturation: scriptional regulation; Id2 sequence; Id3; Maternal mRNA; Galactosidase; GVBD; Post-transcriptional regulation; Id2 sequence; Id3; Maternal In situ; Epithelial sensorial layer; Gasrtrula; Embryo; HLH bHLH tran- mRNA; Galactosidase; In situ; Epithelial sensorial layer; Animal cap; scription factor; 3'-UTR translation; Control prepattern axis 88 15 Gasrtrula; Embryo; HLH bHLH transcription factor; 3‘-UTR translation 88 15 Apical ectodermal ridge; shh; Polarizing activity 88 147 Cornea; Keratinocyte growth factor; Fibroblast growth factor-7; Keratino- Asymmetric division; Cell fate; Central nervous system; numb; Cell cycle; cyte growth factor receptor; Keratin 12; Lacrimal gland; Gland develop- Ganglion mother cell 88 207 ment; Transgenic mice 88 43 Balancer chromosomes; GFP; Drosophila 88 229 Cytoplasmic polyadenylation; Xenopus development; Localization; Inhibition; Palindrome CPE; Oocyte maturation; GVBD, Post-transcrip- bHLH-PAS; Mouse; Neural development; Embryogenesis 88 237 tional regulation; Id2 sequence; Id3; Maternal mRNA; Galactosidase; In situ; Epithelial sensorial layer; Animal cap; Gasrtrula; Embryo; HLH Bmp4, Limb development; Fgf8; Fused toes mutation 88 173 bHLH transcription factor; 3'-UTR translation; Control prepattern axis 88 15 Brain; Chromatin; In situ hybridization; Mouse embryo; Nervous system; Nuclear receptors; Ovary; Testis; Transcription factor 88 111 Development; Urochordata; Ciona_ intestinalis; Homeobox-containing gene; Msx; Nervous system; Pharynx; Otolith; Ocellus; Neural gland 88 cAMP response element binding protein; Xenopus; CNS development; 123 RU486-inducible protein activation 88 55 Dictyostelium; Prestalk; Prespore; GFP 88 253 Cardiac crescent; Sodium-calcium exchanger; Embryo; Heartbeat; Heart- restricted expression; Mouse 88 119 Dorsolateral plate; Fork head; Winged helix; Transcription factor; Xeno- pus laevis; FREAC-1; Expression pattern; Hematopoiesis; Neural crest cells Cell cycle; Asymmetric division; Cell fate; Central nervous system; numb; 88 89 Ganglion mother cell 88 207 Dorso-ventral axis specification; Zebrafish; Lithium 88 33 Cell fate; Asymmetric division; Central nervous system; numb; Cell cycle; Ganglion mother cell 88 207 Dorsoventral patterning; Smad; Zebrafish; Xenopus; Xvent-2B 88 73 Cell-matrix adhesion; Tabby; EDA; TNF superfamily; Ectodermal orga- Drosophila; GFP; Balancer chromosomes 88 229 nogenesis 88 133 Drosophila; LIM; Homeodomain; Lim-1; Nervous system; Motorneuron Cement gland; Pitx; Pituitary; Xenopus laevis 88 249 88 195 Central nervous system; Asymmetric division; Cell fate; numb; Cell Drosophila; Munster, Larval eye; Paired-class 88 107 cycle; Ganglion mother cell 88 207 Ectoderm; Guanine exchange factor; Neural induction 88 67 Chick embryos; Gene expression; In situ hybridization; Neuroectoderm; Neurulation; Neural plate; Neural tube 88 243 Ectodermal organogenesis; Tabby; EDA; TNF superfamily; Cell-matrix adhesion 88 133 Chromatin; Brain; In situ hybridization; Mouse embryo; Nervous system; Nuclear receptors; Ovary; Testis; Transcription factor 88 111 EDA; Tabby; TNF superfamily; Ectodermal organogenesis; Cell-matrix Ciona intestinalis; Urochordata; Homeobox-containing gene; Msx; Devel- adhesion 88 133 opment; Nervous system; Pharynx; Otolith; Ocellus; Neural gland 88 123 Elastase; Gut; Liver; Pancreas; Intestine; Xenopus laevis; Transgenic; CNS development; cAMP response element binding protein; Xenopus; Promoter; Enhancer; Pancreatic duodenal homeobox-1; XIHbox8; Trans- RU486-inducible protein activation 88 55 thyretin; Intestinal fatty acid binding protein 88 221 0925-4773/99/$ - see front matter © 1999 Elsevier Science Ireland Ltd. All rights reserved. PII: S0925-4773(99)00244-0 260 Subject index Embryo; Xenopus development; Localization; Inhibition; Cytoplasmic polyadenylation; Palindrome CPE; Oocyte maturation; GVBD; Post-tran- polyadenylation; Palindrome CPE; Oocyte maturation; GVBD; Post-tran- scriptional regulation; Id2 sequence; Id3; Maternal mRNA; Galactosidase; scriptional regulation; Id2 sequence; Id3; Maternal mRNA; Galactosidase; In situ; Epithelial sensorial layer; Animal cap; Embryo; HLH bHLH tran- In situ; Epithelial sensorial layer; Animal cap; Gasrtrula; HLH bHLH tran- scription factor; 3'-UTR translation; Control prepattern axis 88 15 scription factor; 3’-UTR translation; Control prepattern axis 88 15 Gene expression; Chick embryos; In situ hybridization; Neuroectoderm; Embryo; Sodium-calcium exchanger; Cardiac crescent; Heartbeat; Heart- Neurulation; Neural plate; Neural tube 88 243 restricted expression; Mouse 88 119 Gene targeting; Fetal development; Frat; Mice; Knockout; Proto-onco- Embryogenesis; Ets transcription factors; erm; pea3; Zebrafish 88 233 genes; Signal transduction; Wnt; Xenopus laevis 88 183 Embryogenesis; KOC; Vg!l-RBP; RNA binding protein; KH domain; Germline; Oogenesis; ovarian tumour, ovo 88 3 Organogenesis; RNA localization; Posttranscriptional regulation 88 95 GFP; Drosophila; Balancer chromosomes 88 229 Embryogenesis; Mouse; bHLH-PAS; Neural development 88 237 GFP; Prestalk; Prespore; Dictyostelium 88 253 Enhancer; Gut; Liver; Pancreas; Intestine; Xenopus laevis; Transgenic; Promoter; Pancreatic duodenal homeobox-1; XIHbox8; Transthyretin; Gland development; Keratinocyte growth factor; Fibroblast growth factor- Elastase; Intestinal fatty acid binding protein 88 221 7; Keratinocyte growth factor receptor; Keratin 12; Lacrimal gland; Cornea; Transgenic mice 88 43 Epithelial sensorial layer; Xenopus development; Localization; Inhibi- tion; Cytoplasmic polyadenylation; Palindrome CPE; Oocyte maturation; Guanine exchange factor; Ectoderm; Neural induction 88 67 GVBD; Post-transcriptional regulation; Id2 sequence; Id3; Maternal mRNA; Galactosidase; In situ; Animal cap; Gasrtrula; Embryo; HLH Gut; Liver; Pancreas; Intestine; Xenopus laevis; Transgenic; Promoter; bHLH transcription factor; 3'-UTR translation; Control prepattern axis 88 Enhancer; Pancreatic duodenal homeobox-1; XIHbox8; Transthyretin; 15 Elastase; Intestinal fatty acid binding protein 88 221 erm, Ets transcription factors; pea3: Zebrafish; Embryogenesis 88 233 GVBD; Xenopus development; Localization; Inhibition; Cytoplasmic poly- adenylation; Palindrome CPE; Oocyte maturation; Post-transcriptional Ets transcription factors; erm; pea3; Zebrafish; Embryogenesis 88 233 regulation; Id2 sequence; Id3; Maternal mRNA; Galactosidase; In situ; Epithelial sensorial layer; Animal cap; Gasrtrula; Embryo; HLH bHLH Expression pattern; Fork head; Winged helix; Transcription factor; Xeno- transcription factor; 3‘-UTR translation; Control prepattern axis 88 15 pus laevis; FREAC-1; Dorsolateral plate; Hematopoiesis; Neural crest cells 88 89 Head involution defective; Programmed cell death; Reaper; Oogenesis; Nurse cells 88 159 Fetal development; Gene targeting; Frat; Mice; Knockout; Proto-onco- genes; Signal transduction; Wnt; Xenopus laevis 88 183 Heartbeat; Sodium-calcium exchanger; Embryo; Cardiac crescent; Heart- restricted expression; Mouse 88 119 Fgf8; Limb development; Bmp4; Fused toes mutation 88 173 Heart-restricted expressionSodium-calcium exchanger; Embryo; Fibroblast growth factor-7; Keratinocyte growth factor receptor; Kerati- Cardiac crescent; Heartbeat; ; Mouse 88 119 nocyte growth factor; Keratin 12; Lacrimal gland; Gland development; Cornea; Transgenic mice 88 43 Hematopoiesis; Fork head; Winged helix; Transcription factor; Xenopus laevis; FREAC-1; Expression pattern; Dorsolateral plate; Neural crest cells Fork head; Winged helix; Transcription factor; Xenopus laevis; FREAC-1; 88 89 Expression pattern; Dorsolateral plate; Hematopoiesis; Neural crest cells 88 89 HLH bHLH transcription factor; Xenopus development; Localization; Inhibition; Cytoplasmic polyadenylation; Palindrome CPE; Oocyte matura- Frat; Gene targeting; Fetal development; Mice; Knockout; Proto-onco- tion; GVBD; Post-transcriptional regulation; Id2 sequence; Id3; Maternal genes; Signal transduction; Wnt; Xenopus laevis 88 183 mRNA; Galactosidase; In situ; Epithelial sensorial layer; Animal cap; Gasr- trula; Embryo; 3'-UTR translation; Control prepattern axis 88 15 FREAC-1; Fork head; Winged helix; Transcription factor; Xenopus laevis; Expression pattern; Dorsolateral plate; Hematopoiesis; Neural crest cells 88 Homeobox-containing gene; Urochordata; Ciona intestinalis; Msx; 89 Development; Nervous system; Pharynx; Otolith; Ocellus; Neural gland 88 123 Fused toes mutation; Limb development; Bmp4; Fgf8 88 173 Homeodomain; LIM; Lim-1; Nervous system; Motorneuron; Drosophila Galactosidase; Xenopus development; Localization; Inhibition; Cytoplas- 88 195 mic polyadenylation; Palindrome CPE; Oocyte maturation; GVBD; Post- transcriptional regulation; Id2 sequence; Id3; Maternal mRNA; In situ; Id2 sequence; Xenopus development; Localization; Inhibition; Cytoplas- Epithelial sensorial layer; Animal cap; Gasrtrula; Embryo; HLH bHLH mic polyadenylation; Palindrome CPE; Oocyte maturation; GVBD; Post- transcription factor; 3’-UTR translation; Control prepattern axis 88 15 transcriptional regulation; Id3; Maternal mRNA; Galactosidase; In situ; Epithelial sensorial layer; Animal cap; Gasrtrula; Embryo; HLH bHLH Ganglion mother cell; Asymmetric division; Cell fate; Central nervous transcription factor; 3'-UTR translation; Control prepattern axis 88 15 system; numb; Cell cycle 88 207 Id3; Xenopus development; Localization; Inhibition; Cytoplasmic polya- Gasrtrula; Xenopus development; Localization; Inhibition; Cytoplasmic denylation; Palindrome CPE; Oocyte maturation; GVBD; Post-transcrip- Subject index 261 tional regulation; Id2 sequence; Maternal mRNA; Galactosidase; In situ; Liver; Gut; Pancreas; Intestine; Xenopus laevis; Transgenic; Promoter; Epithelial sensorial layer; Animal cap; Gasrtrula; Embryo; HLH bHLH Enhancer; Pancreatic duodenal homeobox-l; XiHbox8; Transthyretin; transcription factor; 3’-UTR translation; Control prepattern axis 88 15 Elastase; Intestinal fatty acid binding protein 88 221 In situ hybridization; Brain; Chromatin; Mouse embryo; Nervous system; Localization; Xenopus development; Inhibition; Cytoplasmic polyadeny- Nuclear receptors; Ovary; Testis; Transcription factor 88 111 lation; Palindrome CPE; Oocyte maturation; GVBD; Post-transcriptional regulation; Id2 sequence; Id3; Maternal mRNA; Galactosidase; In situ; In situ hybridization; Chick embryos; Gene expression; Neuroectoderm: Epithelial sensorial layer; Animal cap; Gasrtrula; Embryo; HLH bHLH Neurulation; Neural plate; Neural tube 88 243 transcription factor; 3'-UTR translation; Control prepattern axis 88 15 In situ; Xenopus development; Localization; Inhibition; Cytoplasmic poly- Maternal mRNA; Xenopus development; Localization; Inhibition; Cyto- adenylation; Palindrome CPE; Oocyte maturation; GVBD; Post-transcrip- plasmic polyadenylation; Palindrome CPE; Oocyte maturation; GVBD; tional regulation; Id2 sequence; Id3; Maternal mRNA; Galactosidase; Post-transcriptional regulation; Id2 sequence; Id3; Galactosidase; In situ; Epithelial sensorial layer; Animal cap; Gasrtrula; Embryo; HLH bHLH Epithelial sensorial layer; Animal cap; Gasrtrula; Embryo; HLH bHLH transcription factor; 3’-UTR translation; Control prepattern axis 88 15 transcription factor; 3'-UTR translation; Control prepattern axis 88 15 Inhibition; Xenopus development; Localization; Cytoplasmic polyadeny- Mice; Gene targeting; Fetal development; Frat; Knockout; Proto-onco- lation; Palindrome CPE; Oocyte maturation; GVBD; Post-transcriptional genes; Signal transduction; Wnt; Xenopus laevis 88 183 regulation; Id2 sequence; Id3; Maternal mRNA; Galactosidase; In situ; Epithelial sensorial layer; Animal cap; Gasrtrula; Embryo; HLH bHLH Motorneuron; LIM; Homeodomain; Lim-1; Nervous system; Drosophila transcription factor; 3’-UTR translation; Control prepattern axis 88 15 88 195 Intestinal fatty acid binding protein; Gut; Liver; Pancreas; Intestine; Mouse embryo; Brain; Chromatin; In situ hybridization; Nervous system; Xenopus laevis; Transgenic; Promoter; Enhancer; Pancreatic duodenal Nuclear receptors; Ovary; Testis; Transcription factor 88 111 homeobox-1; XIHbox8; Transthyretin; Elastase 88 221 Mouse; bHLH-PAS; Neural development; Embryogenesis 88 237 Intestine; Gut; Liver; Pancreas; Xenopus laevis; Transgenic; Promoter; Enhancer; Pancreatic duodenal homeobox-1; XIHbox8; Transthyretin; Mouse; Sodium-calcium exchanger; Embryo; Cardiac crescent; Heartbeat; Elastase; Intestinal fatty acid binding protein 88 221 Heart-restricted expression 88 119 Keratin 12; Keratinocyte growth factor; Fibroblast growth factor-7; Kera- Msx; Urochordata; Ciona intestinalis; Homeobox-containing gene; Devel- tinocyte growth factor receptor; Lacrimal gland; Gland development; opment; Nervous system; Pharynx; Otolith; Ocellus; Neural gland 88 123 Cornea; Transgenic mice 88 43 Munster, Larval eye; Paired-class; Drosophila 88 107 Keratinocyte growth factor receptor; Keratinocyte growth factor; Fibro- blast growth factor-7; Keratin 12; Lacrimal gland; Gland development; Nervous system; Brain; Chromatin; In situ hybridization; Mouse embryo; Cornea; Transgenic mice 88 43 Nuclear receptors; Ovary; Testis; Transcription factor 88 111 Keratinocyte growth factor; Fibroblast growth factor-7; Keratinocyte Nervous system; LIM; Homeodomain; Lim-1; Motorneuron; Drosophila growth factor receptor; Keratin 12; Lacrimal gland; Gland development; 88 195 Cornea; Transgenic mice 88 43 Nervous system; Urochordata; Ciona intestinalis; Homeobox-containing KH domain; KOC; Vgl-RBP; RNA binding protein; Embryogenesis; gene; Msx; Development; Pharynx; Otolith; Ocellus; Neural gland 88 123 Organogenesis; RNA localization; Posttranscriptional regulation 88 95 Neural crest cells; Fork head; Winged helix; Transcription factor; Xenopus laevis; FREAC-1; Expression pattern; Dorsolateral plate; Hematopoiesis 88 Knockout; Gene targeting; Fetal development; Frat; Mice; Proto-onco- 89 genes; Signal transduction; Wnt; Xenopus laevis 88 183 Neural crest; RNA localization; Xenopus oocytes; RNA binding protein; KOC; Vgl-RBP; RNA binding protein; KH domain; Embryogenesis; Vgl; Zebrafish 88 101 Organogenesis; RNA localization; Posttranscriptional regulation 88 95 Neural development; Mouse; bHLH-PAS; Embryogenesis 88 237 Lacrimal gland; Keratinocyte growth factor; Fibroblast growth factor-7; Keratinocyte growth factor receptor; Keratin 12; Gland development; Neural gland; Urochordata; Ciona intestinalis, Homeobox-containing Cornea; Transgenic mice 88 43 gene; Msx; Development; Nervous system; Pharynx; Otolith; Ocellus 88 123 Larval eye; Munster; Paired-class; Drosophila 88 107 Neural induction; Guanine exchange factor; Ectoderm 88 67 LIM; Homeodomain; Lim-1; Nervous system; Motorneuron; Drosophila 88 195 Neural plate; Chick embryos; Gene expression; In situ hybridization; Neuroectoderm: Neurulation; Neural tube 88 243 Lim-1; LIM; Homeodomain; Nervous system; Motorneuron; Drosophila 88 195 Neural tube; Chick embryos; Gene expression; In situ hybridization; Neuroectoderm; Neurulation; Neural plate 88 243 Limb development; Bmp4; Fg/8; Fused toes mutation 88 173 Neuroectoderm; Chick embryos; Gene expression; In situ hybridization; Lithium; Zebrafish; Dorso-ventral axis specification 88 33 Neurulation; Neural plate; Neural tube 88 243 262 Subject index Neurulation; Chick embryos; Gene expression; In situ hybridization; Post-transcriptional regulation; Xenopus development; Localization; Neuroectoderm; Neural plate; Neural tube 88 243 Inhibition; Cytoplasmic polyadenylation; Palindrome CPE; Oocyte matura- tion; GVBD; Id2 sequence; Id3; Maternal mRNA; Galactosidase; In situ; Nuclear receptors; Brain; Chromatin; In situ hybridization; Mouse Epithelial sensorial layer; Animal cap; Gasrtrula; Embryo; HLH bHLH embryo; Nervous system; Ovary; Testis; Transcription factor 88 111 transcription factor; 3’-UTR translation; Control prepattern axis 88 15 numb; Asymmetric division; Cell fate; Central nervous system; Cell cycle; Posttranscriptional regulation; KOC; Vgl-RBP; RNA binding protein; Ganglion mother cell 88 207 KH domain; Embryogenesis; Organogenesis; RNA localization 88 95 Nurse cells; Programmed cell death; Reaper; Head involution defective; Prespore; Prestalk; Dictyostelium, GFP 88 253 Oogenesis 88 159 Prestalk; Prespore; Dictyostelium; GFP 88 253 Ocellus; Urochordata; Ciona intestinalis; Homeobox-containing gene; Msx; Development; Nervous system; Pharynx; Otolith; Neural gland 88 Programmed cell death; Reaper; Head involution defective; Oogenesis; 123 Nurse cells 88 159 Oocyte maturation; Xenopus development; Localization; Inhibition; Cyto- Promoter; Gut; Liver; Pancreas; Intestine; Xenopus laevis; Transgenic; plasmic polyadenylation; Palindrome CPE; GVBD; Post-transcriptional Enhancer; Pancreatic duodenal homeobox-!; XIHbox8; Transthyretin; regulation; Id2 sequence; Id3; Maternal mRNA; Galactosidase; In situ; Elastase; Intestinal fatty acid binding protein 88 221 Epithelial sensorial layer; Animal cap; Gasrtrula; Embryo; HLH bHLH transcription factor; 3’-UTR translation; Control prepattern axis 88 15 Proto-oncogenes; Gene targeting; Fetal development; Frat; Mice; Knock- out; Signal transduction; Wnt; Xenopus laevis 88 183 Oogenesis; Germline; ovarian tumour, ovo 88 3 Reaper; Programmed cell death; Head involution defective; Oogenesis; Oogenesis; Programmed cell death; Reaper; Head involution defective; Nurse cells 88 159 Nurse cells 88 159 RNA binding protein; KOC; Vgl-RBP; KH domain; Embryogenesis; Organogenesis; KOC; Vg!l-RBP; RNA binding protein; KH domain; Organogenesis; RNA localization; Posttranscriptional regulation 88 95 Embryogenesis; RNA localization; Posttranscriptional regulation 88 95 RNA binding protein; RNA localization; Xenopus oocytes; Vgl; Zebra- Otolith; Urochordata; Ciona intestinalis, Homeobox-containing gene; fish; Neural crest 88 101 Msx; Development; Nervous system; Pharynx; Ocellus; Neural gland 88 123 RNA localization; Xenopus oocytes; RNA binding protein; Vg!; Zebra- fish; Neural crest 88 101 ovarian tumour, Oogenesis; Germline; ovo 88 3 RNA localization; KOC; Vgl-RBP; RNA binding protein; KH domain; Ovary; Brain; Chromatin; In situ hybridization; Mouse embryo; Nervous Embryogenesis; Organogenesis; Posttranscriptional regulation 88 95 system; Nuclear receptors; Testis; Transcription factor 88 111 RU486-inducible protein activation; cAMP response element binding ovo; Oogenesis; Germline; ovarian tumour 88 3 protein; Xenopus; CNS development 88 55 Paired-class; Munster, Larval eye; Drosophila 88 107 Signal transduction; Gene targeting; Fetal development; Frat; Mice; Knockout; Proto-oncogenes; Wnt; Xenopus laevis 88 183 Palindrome CPE; Xenopus development; Localization; Inhibition; Cyto- plasmic polyadenylation; Oocyte maturation; GVBD; Post-transcriptional shh, Polarizing activity; Apical ectodermal ridge 88 147 regulation; Id2 sequence; Id3; Maternal mRNA; Galactosidase; In situ; Epithelial sensorial layer; Animal cap; Gasrtrula; Embryo; HLH bHLH Smad; Dorsoventral patterning; Zebrafish; Xenopus; Xvent-2B 88 73 transcription factor; 3’-UTR translation; Control prepattern axis 88 15 Sodium-calcium exchanger; Embryo; Cardiac crescent; Heartbeat; Heart- Pancreas; Gut; Liver; Intestine; Xenopus laevis; Transgenic; Promoter; restricted expression; Mouse 88 119 Enhancer; Pancreatic duodenal homeobox-1l; XIHbox8; Transthyretin; Elastase; Intestinal fatty acid binding protein 88 221 Tabby; EDA; TNF superfamily; Ectodermal organogenesis; Cell-matrix adhesion 88 133 Pancreatic duodenal homeobox-1; Gut; Liver; Pancreas; Intestine; Xeno- pus laevis; Transgenic; Promoter; Enhancer; XIHbox8; Transthyretin; Elas- Testis; Brain; Chromatin; In situ hybridization; Mouse embryo; Nervous tase; Intestinal fatty acid binding protein 88 221 system; Nuclear receptors; Ovary; Transcription factor 88 111 pea3, Ets transcription factors; erm; Zebrafish; Embryogenesis 88 233 TNF superfamily; Tabby; EDA; Ectodermal organogenesis; Cell-matrix Pharynx; Urochordata; Ciona intestinalis; Homeobox-containing gene; adhesion 88 133 Msx; Development; Nervous system; Otolith; Ocellus; Neural gland 88 123 Transcription factor; Brain; Chromatin; In situ hybridization; Mouse Pituitary; Pitx; Cement gland; Xenopus laevis 88 249 embryo; Nervous system; Nuclear receptors; Ovary; Testis 88 111 Pitx; Cement gland; Pituitary; Xenopus laevis 88 249 Transcription factor; Fork head; Winged helix; Xenopus laevis; FREAC- |; Expression pattern; Dorsolateral plate; Hematopoiesis; Neural crest cells Polarizing activity; shh; Apical ectodermal ridge 88 147 88 89 Subject index 263 Transgenic mice; Keratinocyte growth factor; Fibroblast growth factor-7; Xenopus development; Localization; Inhibition; Cytoplasmic polyadeny- Keratinocyte growth factor receptor; Keratin 12; Lacrimal gland; Gland lation; Palindrome CPE; Oocyte maturation; GVBD; Post-transcriptional development; Cornea 88 43 regulation; Id2 sequence; Id3; Maternal mRNA; Galactosidase; In situ; Epithelial sensorial layer; Animal cap; Gasrtrula; Embryo; HLH bHLH Transgenic; Gut; Liver; Pancreas; Intestine; Xenopus laevis; Promoter; transcription factor; 3’-UTR translation; Control prepattern axis 88 15 Enhancer; Pancreatic duodenal homeobox-1; XIHbox8; Transthyretin; Elastase; Intestinal fatty acid binding protein 88 221 Xenopus oocytes; RNA localization; RNA binding protein; Vg; Zebrafish; Neural crest 88 101 Transthyretin; Gut; Liver; Pancreas; intestine; Xenopus laevis; Trans- genic; Promoter; Enhancer; Pancreatic duodenal homeobox-1; XIHbox8; Xenopus; Smad; Dorsoventral patterning; Zebrafish, Xvent-2B 88 73 Elastase; Intestinal fatty acid binding protein 88 221 Xenopus laevis; Fork head; Winged helix; Transcription factor; FREAC-1; Urochordata; Ciona intestinalis, Homeobox-containing gene; Msx; Expression pattern; Dorsolateral plate; Hematopoiesis; Neural crest cells 88 Development; Nervous system; Pharynx; Otolith; Ocellus; Neural gland 89 88 123 Xenopus laevis; Gene targeting; Fetal development; Frat; Mice; Knockout; 3'-UTR translation; Xenopus development; Localization; Inhibition; Proto-oncogenes; Signal transduction; Wnt 88 183 Cytoplasmic polyadenylation; Palindrome CPE; Oocyte maturation; GVBD; Post-transcriptional regulation; Id2 sequence; Id3; Maternal Xenopus laevis; Gut; Liver; Pancreas; Intestine; Transgenic; Promoter; mRNA; Galactosidase; In situ; Epithelial sensorial layer; Animal cap; Gasr- Enhancer; Pancreatic duodenal homeobox-l; XIHbox8; Transthyretin; trula; Embryo; HLH bHLH transcription factor; Control prepattern axis 88 Elastase; Intestinal fatty acid binding protein 88 221 15 Xenopus laevis; Pitx; Cement g!and; Pituitary 88 249 Vgl; RNA localization; Xenopus oocytes; RNA binding protein; Zebrafish; Neural crest 88 101 XIHbox8; Gut; Liver; Pancreas; Intestine; Xenopus laevis, Transgenic; Promoter; Enhancer; Pancreatic duodenal homeobox-1; Transthyretin; Vgi1-RBP; KOC; RNA binding protein; KH domain; Embryogenesis; Elastase; Intestinal fatty acid binding protein 88 221 Organogenesis; RNA localization; Posttranscriptional regulation 88 95 Xvent-2B, Smad; Dorsoventral patterning; Zebrafish; Xenopus 88 73 Winged helix; Fork head; Transcription factor; Xenopus laevis; FREAC-l1; Expression pattern; Dorsolateral plate; Hematopoiesis; Neural crest cells 88 Zebrafish; Dorso-ventral axis specification; Lithium 88 33 89 Zebrafish; Ets transcription factors; erm; pea3; Embryogenesis 88 233 Wnt; Gene targeting; Fetal development; Frat; Mice; Knockout; Proto- oncogenes; Signal transduction; Xenopus laevis 88 183 Zebrafish; RNA localization; Xenopus oocytes; RNA binding protein; Vgl; Neural crest 88 101 Xenopus; cAMP response element binding protein; CNS development; RU486-inducible protein activation 88 55 Zebrafish, Smad; Dorsoventral patterning; Xenopus; Xvent-2B 88 73