Differential distribution patterns of CRABP I and CRABP II transcripts during mouse embryogenesis

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Bartelmez, G. W (1923). The subdivisions of the neural folds in man. J. Comp. Neurol 35, 231-247.

Benbrook, D., Lernhardt, E. and Pfahl, M (1988). A new retinoic acid receptor from a hepatocellular carcinoma. Nature 333, 669-672.[Medline]

Blomhoff, R., Gree, M. H., Berg, T. and Norum, K. R (1990). Transport and storage of vitamin A. Science 250, 339-404.

Boylan, J. F. and Gudas, L. J (1991). Overexpression of the cellular retinoic acid binding protein-I (CRABP-I) results in a reduction in differentiation-specific gene expression in F9 teratocarcinoma cells. J.Cell Biol 112, 965-979.[Abstract/Free Full Text]

Brand, N., Petkovich, M., Krust, A., Chambon, P., de The, H., Marchio, A., Tiollais, P. and Dejean, A (1988). Identification of a second human retinoic acid receptor. Nature 332, 850-853.[Medline]

Brockes, J (1991). We may not have a morphogen. Nature 350, 15-.[Medline]

Cuschieri, A. and Bannister, L. H (1975). The development of the olfactory mucosa in the mouse: light microscopy. J. Anat 119, 277-286.[Medline]

Dencker, L., Annerwall, E., Busch, C. and Eriksson, U (1990). Localization of specific retinoid-binding sites and expression of cellular retinoic-acid binding protein (CRABP) in the early mouse embryo. Development 110, 343-352.[Abstract/Free Full Text]

de The, H., Vivanco Ruiz, M. M., Tiollais, P., Stunnenberg, H. and Dejean, A (1990). Identification of a retinoic acid responsive element in the retinoic acid receptorgene. Nature 343, 177-180.[Medline]

Dolle, P., Izpisua-Belmonte, J. C., Falkenstein, H., Renucci, A. and Duboule, D (1989). Coordinate expression of the murine Hox-5 complex homeobox-containing genes during limb pattern formation. Nature 342, 767-772.[Medline]

Dolle, P., Ruberte, E., Kastner, P., Petkovich, M., Stoner, C. M., Gudas, L. J. and Chambon, P (1989). Differential expression of the genes encoding the retinoic acid receptors, ,and CRABP I in the developing limbs of the mouse. Nature 342, 702-705.[Medline]

Dolle, P., Ruberte, E., Leroy, P., Morriss-Kay, G. M. and Chambon, P (1990). Retinoic acid receptors and cellular retinoid binding proteins. I. A systematic study of their differential pattern of transcription during mouse organogenesis. Development 110, 1133-1151.[Abstract/Free Full Text]

Giguere, V., Lyn, S., Yip, P., Siu, C. H. and Evans, R. M (1990). Molecular cloning of cDNA encoding a second cellular retinoic acid-binding protein. Proc. Natl. Acad. Sci. USA 87, 6233-6237.[Abstract/Free Full Text]

Giguere, V., Ong, E. S., Segui, P. and Evans, R. M (1987). Identification of a receptor for the morphogen retinoic acid. Nature 330, 624-629.[Medline]

Hunt, P., Faiella, A., Cook, M., Sham, M-H., Gulisano, M., Wilkinson, D., Boncinelli, E. and Krumlauf, R (1991). A distinct Hox code for the branchial region of the head. Nature 353, 861-864.[Medline]

Izpis\234a-Belmonte, J.-C., Tickle, C., Dolle, P., Wolpert, L. and Duboule, D (1991). Expression of the homeobox Hox-4 genes and specification of position in chick wing development. Nature 350, 585-589.[Medline]

Lammer, G. J., Chen, D. T., Hoar, R. M., Agnish, N. D., Benke, P. J., Braun, J. T., Curry, C. J., Fernhoff, P. M., Grix, A. W., Lott, I. T., Richard, J. M. and Sun, S. C (1985). Retinoic acid embryopathy. New England J. Med 333, 837-841.

Maden, M., Ong, D. E., Summerbell, D. and Chytil, F (1988). Spatial distribution of cellular protein binding to retinoic acid in the chick limb bud. Nature 335, 733-735.[Medline]

Mark, M. P., Bloch-Zupan, A., Wolf, C., Ruberte, E. and Ruch, J. V (1991). Involvement of cellular retinoic acid-binding proteins I and II (CRABP I and CRABP II) and of the cellular retinol-binding protein I (CRBP) in odontogenesis in the mouse. Differentiation 48, 89-98.[Medline]

Mavilio, F., Simeone, A., Boncinelli, E. and Andrews, P. W (1988). Activation of four homeobox gene clusters in human embryonal carcinoma cells induced to differentiate by retinoic acid. Differentiation 37, 73-79.[Medline]

Morriss, G. M (1972). Morphogenesis of the malformations induced in rat embryos by maternal hypervitaminosis A. J. Anat 113, 241-250.[Medline]

Morriss-Kay, G. M., Murphy, P., Davidson, D. R. and Hill, R. E (1991). Effects of retinoic acid excess on expression of Hox-2.9 and Krox-20 and on morphological segmentation in the hindbrain of mouse embryos. EMBO J 10, 2985-2995.[Medline]

Muller, F. and O'Rahilly, R (1985). The first appearance of the neural tube and optic primordium in the human embryo at stage 10. Anat. Embryol 172, 157-169.[Medline]

Murphy, P., Davidson, D. R. and Hill, R. E (1989). Segment-specificE. Ruberte and others987CRABPI and II expression in mouse embryosexpression of a homeobox-containing gene in the mouse hindbrain. Nature 341, 156-159.[Medline]

Murphy, P. and Hill, R. E (1991). Expression of the mouse labial-like homeobox containing genes, Hox 2.9 and Hox 1.6, during segmentation of the hindbrain. Development 111, 61-74.[Abstract]

Nichols, D. H (1981). Neural crest formation in the head of the mouse embryo as observed using a new histological technique. J. Embryol. exp. Morph 64, 105-120.[Medline]

Noden, D. M (1978). The control of avian cephalic neural crest cytodifferentiation. I. Skeletal and connective tissues. Dev. Biol 67, 296-312.[Medline]

Noden, D. M (1978). The control of avian cephalic neural crest cytodifferentiation. II. Neural tissues. Dev. Biol 67, 313-329.[Medline]

Nohno, T., Noji, S., Koyama, E., Ohyama, K., Myokai, F., Kuroiwa, A., Saito, T. and Taniguchi, S (1991). Involvement of the Chox-4 chicken homeobox genes in determination of anteroposterior axial polarity during limb development. Cell 64, 1197-1205.[Medline]

Noji, S., Nohno, T., Koyama, E., Muto, K., Ohyama, K., Aoki, Y., Tamura, K., Ohsugi, K., Ide, H., Taniguchi, S. and Saito, T (1991). Retinoic acid induces polarising activity but is unlikely to be a morphogen in the chick limb bud. Nature 350, 83-86.[Medline]

Papalopulu, N., Lovell-Badge, R., and Krumlauf, R (1991). The expression of murine Hox-2 genes is dependent on the differentiation pathway and displays a collinear sensitivity to retinoic acid in F9 cells and Xenopus embryos. Nucl. Acids Res 19, 5497-5506.[Abstract/Free Full Text]

Petkovich, M., Brand, N. J., Krust, A. and Chambon, P (1987). A human retinoic acid receptor which belongs to the family of nuclear receptors. Nature 330, 444-450.[Medline]

Robertson, M (1987). Towards a biochemistry of morphogenesis. Nature 330, 420-421.[Medline]

Rosa, F. W., Wilk, A. L. and Kelsey, F. O (1986). Teratogen update: vitamin A congeners. Teratology 33, 355-364.[Medline]

Ruberte, E., Dolle, P., Chambon, P. and Morriss-Kay, G (1991). Retinoic acid receptors and cellular retinoid binding proteins II. Their differential pattern of transcription during early morphogenesis in mouse embryos. Development 111, 45-60.[Abstract]

Ruberte, E., Dolle, P., Krust, A., Zelent, A., Morriss-Kay, G. and Chambon, P (1990). Specific spatial and temporal distribution of retinoic acid receptor gamma transcripts during mouse embryogenesis. Development 108, 213-222.[Abstract]

Shenefelt, R. E (1972). Morphogenesis of malformations in hamster caused by retinoic acid, relation to dose and stage at treatment. Teratology 5, 103-108.[Medline]

Simeone, A., Acampora, D., Arcioni, L., Andrews, P. W., Boncinelli, E. and Mavilio, F (1990). Sequential activation of human HOX-2 homeobox genes by retinoic acid in embryonal carcinoma cells. Nature 346, 763-766.[Medline]

Simeone, D., Acampora, V., Nigro, A., Faiella, M., D'Esposito, A., Stornaiuolo, F., Mavilio, F. and Boncinelli, E (1991). Differentialregulation by retinoic acid of the homeobox genes of the four HOX loci in human embryonal carcinoma cells. Mech. of Dev 33, 215-227.[Medline]

Smith, S. M., Pang, K., Sundin, O., Wedden, S. E., Thaller, C. and Eichele, G (1989). Molecular approaches to vertebrate limb morphogenesis. Development 107, 121-131.

Smith, W. C., Nakshatri, H., Leroy, P., Rees, J. and Chambon, P (1991). A retinoic acid response element is present in the mouse cellular retinol binding protein I (mCRBP I) promoter. EMBO J 10, 2223-2230.[Medline]

Stoner, C. M. and Gudas, L. J (1989). Mouse cellular retinoic acid binding protein: cloning, complementary DNA sequence, and messenger RNA expression during the retinoic acid induced differentiation of F9 wild type and RA-3-10 mutant teratocarcinoma. Cancer Research 49, 1497-1504.[Abstract/Free Full Text]

Summerbell, D. and Lewis, J. H (1975). Time, place and positional value in the chick limb-bud. J. Embryol. exp. Morph 33, 621-643.[Medline]

Tabin, C. J (1991). Retinoids, homeoboxes, and growth factors: towards molecular models for limb development. Cell 66, 199-217.[Medline]

Takase, S., Ong, D. E. and Chytil, F (1986). Transfer of RA from its complex with cellular retinoic acid binding protein to the nucleus. Arch. Biochem. Biophys 247, 328-.[Medline]

Tan, S. S. and Morriss-Kay, G. M (1986). Analysis of cranial neural crest cell migration and early fates in postimplantation rat chimeras. J. Embryol. exp. Morph 98, 21-58.[Medline]

Vaessen, M. J., Meijers, J. H. C., Bootsma, D. and van Kessel, A. G (1990). The cellular retinoid binding protein is expressed in tissues associated with retinoic acid induced malformations. Development 110, 371-378.[Abstract/Free Full Text]

Warkany, J., Nelson, R. C. and Schraffenberger, E (1943). Congenital malformations induced in rats by maternal nutritional deficiency. III. The malformations of the extremities. J. Bone and Joint Surg 5, 261-270.

Wilkinson, D. G., Bhatt, S., Chavrier, P., Bravo, R. and Charnay, P (1989). Segment-specific expression of a zinc-finger gene in the developing nervous system of the mouse. Nature 337, 461-464.[Medline]

Wilkinson, D. G., Bhatt, S., Cook, M., Boncinelli, E. and Krumlauf, R (1989). Segmental expression of Hox-2 homeobox containing genes in the developing mouse hindbrain. Nature 341, 405-409.[Medline]

Wilkinson, D. G., Peters, G., Dickson, C. and MacMahon, A. P (1988). Expression of the FGF-related proto-oncogene int-2 during gastrulation and neurulation in the mouse. EMBO J 7, 691-695.[Medline]

Wilson, J. G., Roth, C. B. and Warkany, J (1953). An analysis of the syndrome of malformations induced by maternal vitamin A deficiency. Effects of restoration at various times during gestation. Am. J. Anat 92, 189-217.[Medline]

Yokouchi, Y., Sasaki, H. and Kuroiwa, A (1991). Homeobox expression correlated with the bifurcation process of limb cartilage development. Nature 353, 443-445.[Medline]

Zelent, A., Krust, A., Petkovich, M., Kastner, P. and Chambon, P (1989). Cloning of murineand retinoic acid receptors and a novel receptorpredominantly expressed in the skin. Nature 339, 714-717.[Medline]

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				A. Luria and J. D. Furlow Spatiotemporal retinoid-X receptor activation detected in live vertebrate embryos PNAS, June 15, 2004; 101(24): 8987 - 8992. [Abstract] [Full Text] [PDF]

				J. P. M. Barbera, T. A. Rodriguez, N. D. E. Greene, W. J. Weninger, A. Simeone, A. J. Copp, R. S. P. Beddington, and S. Dunwoodie Folic acid prevents exencephaly in Cited2 deficient mice Hum. Mol. Genet., February 1, 2002; 11(3): 283 - 293. [Abstract] [Full Text] [PDF]

				R. Ruhl, C. Plum, M. M. A. Elmazar, and H. Nau Embryonic Subcellular Distribution of 13-cis- and All-trans-Retinoic Acid Indicates Differential Cytosolic/Nuclear Localization Toxicol. Sci., September 1, 2001; 63(1): 82 - 89. [Abstract] [Full Text] [PDF]

				S. A. Ross, P. J. McCaffery, U. C. Drager, and L. M. De Luca Retinoids in Embryonal Development Physiol Rev, July 1, 2000; 80(3): 1021 - 1054. [Abstract] [Full Text] [PDF]

				A. L. Means, J. R. Thompson, and L. J. Gudas Transcriptional Regulation of the Cellular Retinoic Acid Binding Protein I Gene in F9 Teratocarcinoma Cells Cell Growth Differ., February 1, 2000; 11(2): 71 - 82. [Abstract] [Full Text]

				A. Trumpp, M. J. Depew, J. L.R. Rubenstein, J. M. Bishop, and G. R. Martin Cre-mediated gene inactivation demonstrates that FGF8 is required for cell survival and patterning of the first branchial arch Genes & Dev., December 1, 1999; 13(23): 3136 - 3148. [Abstract] [Full Text]

				M Rossel and M. Capecchi Mice mutant for both Hoxa1 and Hoxb1 show extensive remodeling of the hindbrain and defects in craniofacial development Development, January 11, 1999; 126(22): 5027 - 5040. [Abstract] [PDF]

				M.-P. Gaub, Y. Lutz, N. B. Ghyselinck, I. Scheuer, Pfister, P. Chambon, and C. Rochette–Egly Nuclear Detection of Cellular Retinoic Acid Binding Proteins I and II with New Antibodies J. Histochem. Cytochem., October 1, 1998; 46(10): 1103 - 1112. [Abstract] [Full Text]

				R. Gopal-Srivastava, A. Cvekl, and J. Piatigorsky Involvement of Retinoic Acid/Retinoid Receptors in the Regulation of Murine alpha B-crystallin/Small Heat Shock Protein Gene Expression in the Lens J. Biol. Chem., July 10, 1998; 273(28): 17954 - 17961. [Abstract] [Full Text] [PDF]

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				A Gavalas, M Studer, A Lumsden, F. Rijli, R Krumlauf, and P Chambon Hoxa1 and Hoxb1 synergize in patterning the hindbrain, cranial nerves and second pharyngeal arch Development, January 3, 1998; 125(6): 1123 - 1136. [Abstract] [PDF]

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				A. C. Chen and L. J. Gudas An Analysis of Retinoic Acid-induced Gene Expression and Metabolism in AB1 Embryonic Stem Cells J. Biol. Chem., June 21, 1996; 271(25): 14971 - 14980. [Abstract] [Full Text] [PDF]

				X. Chai, Y. Zhai, G. Popescu, and J. L. Napoli Cloning of a cDNA for a Second Retinol Dehydrogenase Type II J. Biol. Chem., November 24, 1995; 270(47): 28408 - 28412. [Abstract] [Full Text] [PDF]

				L. X. Chen, Z.-p. Zhang, A. Scafonas, R. C. Cavalli, J. L. Gabriel, K. J. Soprano, and D. R. Soprano Arginine 132 of Cellular Retinoic Acid-binding Protein (Type II) Is Important for Binding of Retinoic Acid J. Biol. Chem., March 3, 1995; 270(9): 4518 - 4525. [Abstract] [Full Text] [PDF]

				X. Chai, M. H. E. M. Boerman, Y. Zhai, and J. L. Napoli Cloning of a cDNA for Liver Microsomal Retinol Dehydrogenase J. Biol. Chem., February 24, 1995; 270(8): 3900 - 3904. [Abstract] [Full Text] [PDF]

				D Fawcett, P Pasceri, R Fraser, M Colbert, J Rossant, and V Giguere Postaxial polydactyly in forelimbs of CRABP-II mutant mice Development, January 3, 1995; 121(3): 671 - 679. [Abstract] [PDF]

				C Lampron, C Rochette-Egly, P Gorry, P Dolle, M Mark, T Lufkin, M LeMeur, and P Chambon Mice deficient in cellular retinoic acid binding protein II (CRABPII) or in both CRABPI and CRABPII are essentially normal Development, January 2, 1995; 121(2): 539 - 548. [Abstract] [PDF]

				H Wood, G Pall, and G Morriss-Kay Exposure to retinoic acid before or after the onset of somitogenesis reveals separate effects on rhombomeric segmentation and 3' HoxB gene expression domains Development, January 8, 1994; 120(8): 2279 - 2285. [Abstract] [PDF]

				E. Dekker, M. Vaessen, C van den Berg, A Timmermans, S Godsave, T Holling, P Nieuwkoop, A Geurts van Kessel, and A Durston Overexpression of a cellular retinoic acid binding protein (xCRABP) causes anteroposterior defects in developing Xenopus embryos Development, January 4, 1994; 120(4): 973 - 985. [Abstract] [PDF]

				A Fjose, J. Izpisua-Belmonte, C Fromental-Ramain, and D Duboule Expression of the zebrafish gene hlx-1 in the prechordal plate and during CNS development Development, January 1, 1994; 120(1): 71 - 81. [Abstract] [PDF]

				P J Swiatek and T Gridley Perinatal lethality and defects in hindbrain development in mice homozygous for a targeted mutation of the zinc finger gene Krox20. Genes & Dev., November 1, 1993; 7(11): 2071 - 2084. [Abstract] [PDF]

				M Mark, T Lufkin, J. Vonesch, E Ruberte, J. Olivo, P Dolle, P Gorry, A Lumsden, and P Chambon Two rhombomeres are altered in Hoxa-1 mutant mice Development, January 10, 1993; 119(2): 319 - 338. [Abstract] [PDF]

				A. Perez-Castro, V. Tran, and M. Nguyen-Huu Defective lens fiber differentiation and pancreatic tumorigenesis caused by ectopic expression of the cellular retinoic acid-binding protein I Development, January 10, 1993; 119(2): 363 - 375. [Abstract] [PDF]

				V Garcia-Martinez, D Macias, Y Ganan, J. Garcia-Lobo, M. Francia, M. Fernandez-Teran, and J. Hurle Internucleosomal DNA fragmentation and programmed cell death (apoptosis) in the interdigital tissue of the embryonic chick leg bud J. Cell Sci., January 9, 1993; 106(1): 201 - 208. [Abstract] [PDF]

				L Niswander and G. Martin FGF-4 regulates expression of Evx-1 in the developing mouse limb Development, January 9, 1993; 119(1): 287 - 294. [Abstract] [PDF]

				C Thaller, C Hofmann, and G Eichele 9-cis-retinoic acid, a potent inducer of digit pattern duplications in the chick wing bud Development, January 7, 1993; 118(3): 957 - 965. [Abstract] [PDF]

				E Ruberte, V Friederich, P Chambon, and G Morriss-Kay Retinoic acid receptors and cellular retinoid binding proteins. III. Their differential transcript distribution during mouse nervous system development Development, January 5, 1993; 118(1): 267 - 282. [Abstract] [PDF]