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Altman, J. and Bayer, S (1984). The development of the rat spinal cord. Adv. Anat. Embryol. Cell Biol 85, 32-46.

Anderson, D (1993). Cell and molecular biology of neural crest cell lineage diversification. Curr. Opin. Neurobiol 3, 8-13.[Medline]

Bain, G., Kitchens, D., Yao, M., Huettner, J. E. and Gottliev, D.I (1995). Embryonic stem cells express neuronal properties in vitro. Dev. Biol 168, 342-357.[Medline]

Bellefroid, E. J., Bourguignon, C., Hollemann, T., Ma, Q., Anderson, D., Kintner, C. and Pieler, T (1996). X-MyT1, a Xenopus C2HC-Type Zinc finger protein with a regulatory function in neuronal differentiation. Cell 87, 1191-1202.[Medline]

Beddington, R. S. P (1994). Induction of a second neural axis by the mouse node. Development 120, 613-620.[Abstract]

Capel, B., Swain, A., Nicolas, S., Hacker, A., Walter, M., Koopmann, P., Goodfellow, P. and Lovell-Badge, R (1993). Circular transcripts of the testis-determining gene Sry in adult mouse testes. Cell 73, 1019-1030.[Medline]

Chitnis, A. and Kintner, C (1996). Sensitivity of proneural genes to lateral inhibition affects the pattern of primary neurons in Xenopus embryos. Development 122, 2295-2301.[Abstract]

Collignon, J., Sockanathan, S., Hacker, A., Cohen-Tannoudji, M., Norris, D., Rastan, S., Stevanovic, M., Goodfellow, P. N. and Lovell-Badge, R (1996). A comparison of the properties of Sox-3 with Sry and two related genes, Sox-1 and Sox-2. Development 122, 509-520.[Abstract]

Coriat, A. M., Muller, U., Harry, J. L., Uwanogho, D. and Sharpe, P. T (1993). PCR amplification of Sry-related sequences reveals evolutionary conservation of the SRY box motif. PC R Methods Appl 2, 218-222.[Medline]

Denny, P., Swift, S., Brand, N., Dabhade, N., Barton, P. and Ashworth, A (1992). A conserved family of genes related to the testis determining gene SRY. Nucl. Acids Res 20, 2887-.[Free Full Text]

Dresser, D. W., Hacker, A., Lovell-Badge, R. and Guerrier, D (1995). The genes for a splideosome protein (SAP62) and the anti-Mullerian hormone (AMH) are contiguous. Hum. Mol. Genet 4, 1613-1618.[Abstract/Free Full Text]

Ericson, J., Morton, S., Kawakami, A., Roelink, H. and Jessell, T. M (1996). Two critical periods of Sonic Hedgehog signaling required for the specification of motor neuron identity. Cell 87, 661-673.[Medline]

Ferrari, S., Harley, V. R., Pontiggia, A., Goodfellow, P. N., Lovell-Badge, R. and Bianchi, M (1992). SRY, like HMG1, recognizes sharp angles in DNA. EMBO J 11, 4497-4506.[Medline]

Ferreiro, B., Kintner, C., Zimmerman, K., Anderson, D. and Harris, W. A (1994). XASH genes promotes neurogenesis in Xenopus embryos. Development 120, 3649-3655.[Abstract]

Foster, J. W., Dominguez-Steglick, M. A. Guioli, S., Kwok, G., Weller, P. A., Stevanovic, M., Weissenbach, J., Mansour, S., Yound, I. D. andGoodfellow, P (1994). Campomelic dysplasia and autosomal sex reversal caused by mutations in an SRY related gene. Nature 372, 525-530.[Medline]

Fujita, S (1963). The matrix cell cytogenesis in the developing central nervous system. J. Comp. Neurol 120, 37-42.[Medline]

Giese, K., Cox, J. and Grosschedl, R (1992). The HMG domain of lymphoid enhancer factor 1 bends DNA and facilitates assembly of functional nucleoprotein structures. Cell 69, 185-195.[Medline]

Gubbay, J., Collignon, J., Koopman, P., Capel, B., Economou, A., Munsterberg,A., Vivian, N., Goodfellow, P. and Lovell-Badge, R (1990). A gene mapping to the sex determining region of the mouse Y chromosome is a member of a novel family of embryonically expressed genes. Nature 346, 245-250.[Medline]

Harley, V. R., Lovell-Badge, R. and Goodfellow, P. N (1994). Definition of a consensus DNA binding site for SRY. Nucleic. Acid. Res 22, 1500-1501.[Free Full Text]

Henrique, D., Tyler, D., Kintner, C., Heath, J. K., Lewis, J. H., Ish-Horowicz, D. and Storey, K. J (1997). Cash-4, a novel achaete-scute homologue induced by Hensen's node during generation of the posterior nervous system. Genes Dev 11, 603-615.[Abstract/Free Full Text]

Hosking, B. M., Muscat, G. E. O., Koopman, P., Dowhan, D. H. and Dunn, T. L (1995). Trans-activation and DNA-binding properties of the transcription factor, Sox-18. Nucl. Acid. Res 23, 2626-2628.[Abstract/Free Full Text]

Hudson, D., Clements, D., Friday, R.V., Stott, D. and Woodland, H. R (1997). Xsox17and mediate endoderm formation in Xenopus. Cell 91, 397-405.[Medline]

Johnson, J. E., Zimmerman, K., Saito, T. and Anderson, D (1992). Induction and repression of mammalian achaete-scute homologue (MASH-1) gene expression during neuronal differentiation of P19 embryonal carcinoma cells. Development 114, 75-87.[Abstract]

Jone-Villeneuve, E. M. V., McBurney, M. W., Rogers, K. A. and Kalnins, V. I (1982). Retinoic acid induces embryonal carcinoma cells to differentiate into neurons and glial cells. J. Cell. Biol 94, 253-262.[Abstract/Free Full Text]

Kamachi, Y., Sockanathan, S., Liu, Q., Breitman, M., Lovell-Badge, R. and Kondoh, H (1995). Involvement of SOX proteins in lens-specific activation of crystallin genes. EMBO J 14, 3510-3519.[Medline]

Kanai, Y., Kanai-Azuma, M., Noce, T., Saido, T.C., Shiroishi, T., Hayashi, Y. and Yazaki, K (1996). Identification of two Sox17 messenger RNA isoforms, with and without the high mobility group box regions, and their differential expression in mouse spermatogenesis. J. Cell. Biol 133, 1-15.[Free Full Text]

Kent, J., Wheatley, S.C., Andrews, J.E., Sinclair, A.H. and Koopman, P (1996). A male specific role for SOX9 in vertebrate sex determination. Development 122, 2813-2822.[Abstract]

Kwok, C., Weller, P. A., Guioli, S., Foster, J. W., Mansour, S., Zuffardi, O., Punnett, H. H., Dominguez-Steglich, M. A., Brook, J. D. and Young. I, D (1995). Mutations in SOX9, the gene responsible for campomelic dysplasia and autosomal sex reversal. Am. J. Hum. Genet 57, 1028-1036.[Medline]

Lawson, K. A., Meneses, J. J. and Pederson, R. A (1991). Clonal analysis of epiblast fate during germ layer formation in the mouse embryo. Development 113, 891-911.[Abstract]

Lee, J. E., Hollenberg, S. M., Snider, L., Turner, D. L., Lipnick, N. and Weintraub, H (1995). Conversion of Xenopus ectoderm into neurons by NeuroD, a basic helix-loop-helix protein. Science 268, 836-844.[Abstract/Free Full Text]

Love, J. J., Li, X., Case, D. A., Giese, K., Grosshedl, R. and Wright, P. E (1995). Structural basis for DNA binding by architectural transcription factor LEF-1. Nature 376, 791-795.[Medline]

Lovell-Badge, R. and Hacker, A (1995). The molecular genetics of Sry in mammalian sex determination. Phil. Trans. R. Soc. Lond. B 350, 205-214.[Medline]

Lumsden, A. and Krumlauf, R (1996). Patterning the vertebrate neuraxis. Science 274, 1109-1114.[Abstract/Free Full Text]

Ma, Q., Kintner, C. and Anderson, D (1996). Identification of neurogenin, a vertebrate neuronal determination gene. Cell 87, 43-52.[Medline]

McBurney, M. W (1993). P19 embryonal carcinoma cells. Int. J. Dev. Biol 37, 135-140.[Medline]

McConnell, S. K (1995). Constructing the cerebral cortex: Neurogenesis and fate determination. Neuron 15, 761-768.[Medline]

McConnell, S.K. and Kaznowski, C. E (1991). Cell cycle dependence of laminar determination in the developing neocortex. Science 254, 282-285.[Abstract/Free Full Text]

McKay, R. D. G (1989). The origins of cellular diversity in mammalian central nervous system. Cell 58, 815-821.[Medline]

Morais-da-Silva, S., Hacker, A., Harley, V., Goodfellow, P., Swain, A. and Lovell-Badge, R (1996). Sox9 expression during gonadal development implies a conserved role for the gene in testis differentiation in mammals and birds. Nature Genet 14, 62-68.[Medline]

Nambu, P. A. and Nambu, J. R (1996). The Drosophila fishhook gene encodes a HMG domain protein essential for segmentation and CNS development. Development 122, 3467-3475.[Abstract]

Ng, L. I., Wheatley, S., Muscat, G. E. O., Conway-Campbell, J., Bowles, J., Wright, E., Bell, D. M., Tam, P. L. P., Cheah, K. S. E. and Koopman, P (1997). SOX9 binds DNA, activates transcription, and coexpresses with type II collagen during chondrogenesis in the mouse. Dev. Biol 183, 108-121.[Medline]

Nishiguchi, S., Wood, H., Kondoh, H., Lovell-Badge, R. and Episkopou, V (1998). SOX1 directly regulates the-crystallin genes and is essential for lens development in mice. Genes Dev 12, 776-781.[Abstract/Free Full Text]

Okabe, S., Forsberg-Nilson, K., Spiro, A. C., Segal, M. and McKay, R. D. G (1996). Development of neuronal precursor cells and functional postmitotic neurons from embryonic stem cells in vitro. Mech. Dev 59, 89-102.[Medline]

Pevny, L. and Lovell-Badge, R (1997). Sox genes find their feet. Curr.Opin. Genet. Dev 7, 338-344.[Medline]

Pfaff, S. L., Mendelsohn, M., Stewart, C. L., Edlund, T. and Jessell, T. M (1996). Requirement for LIM homeobox gene Isl1 in motor neuron generation reveals a motor neuron-dependent step in interneuron differentiation. Cell 84, 1-20.[Medline]

Placzek, M., Jessell, T. M. and Dodd, J (1993). Induction of floor plate differentiation by contact-dependent, homeogenetic signals. Development 117, 205-218.[Abstract]

Poelmann, R. E (1980). Differential mitosis and degeneration pattern relation to the alterations in the shape of the embryonic ectoderm in early post-implantation mouse embryos. J. Embryol. Exp Morph 55, 33-51.[Medline]

Quinlan, G. A., Williams, E. A, Tan, S. S. and Tam, P. P (1995). Neuroectodermal fate of epiblast cells in the distal region of the mouse egg cylinder: implication for body plan organization during early embryogenesis. Development 12, 87-98.

Rex, M., Orme, A., Uwanogho, D., Tointon, K., Wigmore, P. M., Sharpe, P. T. and Scotting, P. J (1997). Dynamic expression of chicken Sox2 and Sox3 genes in ectoderm induced to form neural tissue. Mech. Dev 209, 323-332.

Ruiz i Altaba, A (1994). Pattern formation in vertebrate neural plate. Trend. Neurosci 17, 233-243.[Medline]

Russell, S. R. H., Sanchez-Soriano, N., Wright, C. R. and Ashburner, M (1996). The Dichaete gene of Drosophila melanogaster encodes a SOX-domain protein required for embryonic segmentation. Development 122, 3669-3676.[Abstract]

Sauer, F. C (1935). Mitosis in the neural tube. J. Comp. Neurol 62, 377-405.

Schillam, M. W., Van Eyk, M., Van de Wetering, M. and Clevers, H. C (1993). The murine Sox-4 protein is encoded on a single exon. Nucleic. Acid Res 21, 2009-.[Free Full Text]

Sinclair, A. H., Berta, P., Palmer, M. S., Hawkins, J. R., Griffiths, B. L., Smith, M. J., Foster, J. W., Frischauf, A. M., Lovell-Badge, R. and Goodfellow, P. N (1990). A gene from the human sex determining region encodes a protein with homology to a conserved DNA binding motif. Nature 346, 240-244.[Medline]

Smith, D. B. and Johnson, K. S (1988). Single-step purification of polypeptides expressed in Escherichia coli as fusions with glutatione-S-transferase. Gene 67, 31-40.[Medline]

Snow, M. H. L (1977). Gastrulation in the mouse: growth and regionalisation of the epiblast. J. Embryol. Exp. Morph 42, 293-303.

St. Arnaud, Craig, J., McBurney, M. W. and Papkoff, J (1989). The int-1 proto-oncogene is transcriptionally activated during neuroectodermal differentiation of P19 mouse embryonal carcinoma cells. Oncogene 4, 1077-1080.[Medline]

Storey, K. G., Crossley, J. M., DeRobertis, E. M., Norris, W. E. and Stern, C. D (1992). Neural induction and regionalisation in the chick embryo. Development 114, 729-741.[Abstract]

Streit, A., Sockanathan, S., Perez, L., Rex, M., Scotting, P. J., Sharpe, P. T., Lovell-Badge, R. and Stern, C. D (1997). Preventing the loss of competence for neural induction HGF/SF, L5 and Sox-2. Development 124, 1191-1202.[Abstract]

Sudbeck, P., Lienhard-Schmitz, M., Baeuerle, P. A. and Scherer, G (1996). Sex-reversal by loss of the C-terminal transactivation domain of human SOX9. Nat. Genet 13, 230-232.[Medline]

Takebayashi, K., Takahashi, S., Yokota, C., Tsuda, H., Nakanishi, S., Asashima, M. and R. Kageyama, R (1997). Conversion of ectoderm into neural fate by ATH-3, a vertebrate basic helix-loop-helix gene homologous to Drosophila proneural gene atonal. EMBO J 16, 384-95.[Medline]

Tam, P. P. L (1989). Regionalization of the mouse embryonic ectoderm: allocation of prospective ectodermal tissues during gastrulation. Development 107, 55-67.[Abstract]

Tam, P. P. L., Williams E. A., and Chan, W. Y (1993). Gastrulation in the mouse embryo: Ultrastructural and molecular aspects of germ layer morphogenesis. Micros. Res. Tech 26, 301-328.[Medline]

Tam, P. P. L. and Zhou, S. X (1996). The allocation of epiblast cells to ectodermal and germ line lineages is influenced by the position of cells in the gastrulating mouse embryo. Dev. Biol 178, 124-132.[Medline]

Tanabe, Y. and Jessell, T. M (1996). Diversity and pattern in the developing spinal cord. Science 274, 1115-1123.[Abstract/Free Full Text]

Turner D. L., and Weintraub, H (1994). Expression of achaete-scute homologue 3 in Xenopus embryos converts ectodermal cells to neural fate. Genes Dev 8, 1434-1437.[Abstract/Free Full Text]

Uwanogho, D., Rex, M., Cartwright, E. J., Pearl, G., Healy, C., Scotting,P. J. and Sharpe, P. T (1995). Embryonic expression of the chicken Sox2 , Sox3 and Sox11 genes suggests an interactive role in neuronal development. Mech. Dev 49, 23-36.[Medline]

Van de Wetering, M. and Clevers, H (1992). Sequence-specific interaction of the HMG box proteins TCF-1 and SRY occurs within the minor groove of a Watson-Crick double helix. EMBO J 11, 3039-3044.[Medline]

Van de Wetering, M., Oosterwegel, M., Van Norren, K. and Clevers, H (1993). Sox-4 , An Sry like HMG box protein, is a transcriptional activator in lymphocytes. EMBO J 12, 3510-3519.

Vriz, S. and Lovell-Badge, R (1995). The zebrafish Zf-Sox 19 protein: a novel member of the SOX family which reveals highly conserved motifs outside of the DNA-binding domain. Gene 153, 275-276.[Medline]

Werner, M. H., Huth, J. R., Gronenborn, A. M. and Clore, M (1995). Molecular basis of human 46XY sex reversal revealed from the three dimensional solution structure of the human SRY-DNA complex. Cell 81, 705-714.[Medline]

Wright, E. M., Snopek, B. and Koopman, P (1992). Seven new members of the Sox gene family expressed during mouse development. Nucl. Acids Res 21, 744-.

Wright, E., Hargrave, M. R., Christiansen, J., Cooper, L., Kun, J., Evans, T., Gangadharan, U., Greenfield, A. and Koopman, P (1995). The Sry -related gene Sox9 is expressed during chondrogenesis in mouse embryos. Nat. Genet 9, 15-20.[Medline]

Yamada, T., Placzek, M., Tanaka, H., Dodd, J. and Jessell, T. M (1991). Control of cell pattern in the developing nervous system: polarizing activity of the floor plate and notochord. Cell 64, 635-647.[Medline]

Yuan, H., Corbi, N., Basilico, C. and Daily, L (1995). Developmental specific activity of the FGF-4 enhancer requires the synergistic action of Sox2 and Oct3. Genes Dev 9, 2635-2645.[Abstract/Free Full Text]


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Home page
 Genes Dev.Home page
Y. Kamachi, M. Uchikawa, A. Tanouchi, R. Sekido, and H. Kondoh
Pax6 and SOX2 form a co-DNA-binding partner complex that regulates initiation of lens development
Genes & Dev., May 15, 2001; 15(10): 1272 - 1286.
[Abstract] [Full Text]

Home page
 Nucleic Acids ResHome page
R. I. Peirano and M. Wegner
The glial transcription factor Sox10 binds to DNA both as monomer and dimer with different functional consequences
Nucleic Acids Res., August 15, 2000; 28(16): 3047 - 3055.
[Abstract] [Full Text] [PDF]

Home page
 Cancer Res.Home page
H. Kanno, F. Saljooque, I. Yamamoto, S. Hattori, M. Yao, T. Shuin, and H.-S. U
Role of the von Hippel-Lindau Tumor Suppressor Protein during Neuronal Differentiation
Cancer Res., June 1, 2000; 60(11): 2820 - 2824.
[Abstract] [Full Text] [PDF]

Home page
 Proc. Natl. Acad. Sci. USAHome page
N. Hagiwara, S. E. Klewer, R. A. Samson, D. T. Erickson, M. F. Lyon, and M. H. Brilliant
Sox6 is a candidate gene for p100H myopathy, heart block, and sudden neonatal death
PNAS, April 11, 2000; 97(8): 4180 - 4185.
[Abstract] [Full Text] [PDF]

Home page
 Proc. Natl. Acad. Sci. USAHome page
A. O. Gure, E. Stockert, M. J. Scanlan, R. S. Keresztes, D. Jager, N. K. Altorki, L. J. Old, and Y.-T. Chen
Serological identification of embryonic neural proteins as highly immunogenic tumor antigens in small cell lung cancer
PNAS, April 11, 2000; 97(8): 4198 - 4203.
[Abstract] [Full Text] [PDF]

Home page
 DevelopmentHome page
Z Hardcastle and N Papalopulu
Distinct effects of XBF-1 in regulating the cell cycle inhibitor p27(XIC1) and imparting a neural fate
Development, January 3, 2000; 127(6): 1303 - 1314.
[Abstract] [PDF]

Home page
 J. Cell Sci.Home page
J Lake, J Rathjen, J Remiszewski, and P. Rathjen
Reversible programming of pluripotent cell differentiation
J. Cell Sci., January 2, 2000; 113(3): 555 - 566.
[Abstract] [PDF]

Home page
 DevelopmentHome page
M Kishi, K Mizuseki, N Sasai, H Yamazaki, K Shiota, S Nakanishi, and Y Sasai
Requirement of Sox2-mediated signaling for differentiation of early Xenopus neuroectoderm
Development, January 2, 2000; 127(4): 791 - 800.
[Abstract] [PDF]

Home page
 Mol. Cell. Biol.Home page
Y. Kamachi, K. S. E. Cheah, and H. Kondoh
Mechanism of Regulatory Target Selection by the SOX High-Mobility-Group Domain Proteins as Revealed by Comparison of SOX1/2/3 and SOX9
Mol. Cell. Biol., January 1, 1999; 19(1): 107 - 120.
[Abstract] [Full Text] [PDF]

Home page
 DevelopmentHome page
N. Soriano and S Russell
The Drosophila SOX-domain protein Dichaete is required for the development of the central nervous system midline
Development, January 10, 1998; 125(20): 3989 - 3996.
[Abstract] [PDF]

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