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	DM-GRASP/ALCAM/CD166 is required for cardiac morphogenesis and maintenance of cardiac identity in first heart field derived cells., Gessert S., Dev Biol. September 1, 2008; 321 (1): 150-61.
	Functional and structural characterization of the zebrafish Na+-sulfate cotransporter 1 (NaS1) cDNA and gene (slc13a1)., Markovich D., Physiol Genomics. August 15, 2008; 34 (3): 256-64.
	Extracellular regulation of developmental cell signaling by XtSulf1., Freeman SD., Dev Biol. August 15, 2008; 320 (2): 436-45.
	Cold-inducible RNA binding protein (CIRP), a novel XTcf-3 specific target gene regulates neural development in Xenopus., van Venrooy S., BMC Dev Biol. August 7, 2008; 8 77.
	Crossveinless-2 Is a BMP feedback inhibitor that binds Chordin/BMP to regulate Xenopus embryonic patterning., Ambrosio AL., Dev Cell. August 1, 2008; 15 (2): 248-60.
	Malectin: a novel carbohydrate-binding protein of the endoplasmic reticulum and a candidate player in the early steps of protein N-glycosylation., Schallus T., Mol Biol Cell. August 1, 2008; 19 (8): 3404-14.
	Timeline and distribution of melanocyte precursors in the mouse heart., Brito FC., Pigment Cell Melanoma Res. August 1, 2008; 21 (4): 464-70.
	Zebrafish olfactomedin 1 regulates retinal axon elongation in vivo and is a modulator of Wnt signaling pathway., Nakaya N., J Neurosci. July 30, 2008; 28 (31): 7900-10.
	Circadian genes are expressed during early development in Xenopus laevis., Curran KL., PLoS One. July 23, 2008; 3 (7): e2749.
	Bone morphogenetic proteins, eye patterning, and retinocollicular map formation in the mouse., Plas DT., J Neurosci. July 9, 2008; 28 (28): 7057-67.
	Expression of microRNAs during embryonic development of Xenopus tropicalis., Walker JC., Gene Expr Patterns. July 1, 2008; 8 (6): 452-456.
	XHAPLN3 plays a key role in cardiogenesis by maintaining the hyaluronan matrix around heart anlage., Ito Y., Dev Biol. July 1, 2008; 319 (1): 34-45.
	Expression cloning in Xenopus identifies RNA-binding proteins as regulators of embryogenesis and Rbmx as necessary for neural and muscle development., Dichmann DS., Dev Dyn. July 1, 2008; 237 (7): 1755-66.
	Upstream stimulatory factors, USF1 and USF2 are differentially expressed during Xenopus embryonic development., Fujimi TJ., Gene Expr Patterns. July 1, 2008; 8 (6): 376-381.
	Development of the retinotectal system in the direct-developing frog Eleutherodactylus coqui in comparison with other anurans., Schlosser G., Front Zool. June 23, 2008; 5 9.
	Identification of genes associated with regenerative success of Xenopus laevis hindlimbs., Pearl EJ., BMC Dev Biol. June 23, 2008; 8 66.
	Pleiotropic effects in Eya3 knockout mice., Söker T., BMC Dev Biol. June 23, 2008; 8 118.
	A Myc-Slug (Snail2)/Twist regulatory circuit directs vascular development., Rodrigues CO., Development. June 1, 2008; 135 (11): 1903-11.
	Investigation of Frizzled-5 during embryonic neural development in mouse., Burns CJ., Dev Dyn. June 1, 2008; 237 (6): 1614-26.
	KazrinA is required for axial elongation and epidermal integrity in Xenopus tropicalis., Sevilla LM., Dev Dyn. June 1, 2008; 237 (6): 1718-25.
	Psf2 plays important roles in normal eye development in Xenopus laevis., Walter BE., Mol Vis. May 19, 2008; 14 906-21.
	Differential expression of Eya1 and Eya2 during chick early embryonic development., Ishihara T., Gene Expr Patterns. May 1, 2008; 8 (5): 357-67.
	A Kir6.2 mutation causing severe functional effects in vitro produces neonatal diabetes without the expected neurological complications., Tammaro P., Diabetologia. May 1, 2008; 51 (5): 802-10.
	The optic vesicle promotes cornea to lens transdifferentiation in larval Xenopus laevis., Cannata SM., J Anat. May 1, 2008; 212 (5): 621-6.
	The lens-regenerating competence in the outer cornea and epidermis of larval Xenopus laevis is related to pax6 expression., Gargioli C., J Anat. May 1, 2008; 212 (5): 612-20.
	A crucial role of a high mobility group protein HMGA2 in cardiogenesis., Monzen K., Nat Cell Biol. May 1, 2008; 10 (5): 567-74.
	Dynamic regulation of middle neurofilament RNA pools during optic nerve regeneration., Ananthakrishnan L., Neuroscience. April 22, 2008; 153 (1): 144-53.
	Calcium waves., Jaffe LF., Philos Trans R Soc Lond B Biol Sci. April 12, 2008; 363 (1495): 1311-6.
	The mych gene is required for neural crest survival during zebrafish development., Hong SK., PLoS One. April 9, 2008; 3 (4): e2029.
	Molecular links among the causative genes for ocular malformation: Otx2 and Sox2 coregulate Rax expression., Danno H., Proc Natl Acad Sci U S A. April 8, 2008; 105 (14): 5408-13.
	A ubiquitin-conjugating enzyme, ube2d3.2, regulates xMLK2 and pronephros formation in Xenopus., Jean S., Differentiation. April 1, 2008; 76 (4): 431-41.
	The functions and possible significance of Kremen as the gatekeeper of Wnt signalling in development and pathology., Nakamura T., J Cell Mol Med. April 1, 2008; 12 (2): 391-408.
	Expression patterns of glycine transporters (xGlyT1, xGlyT2, and xVIAAT) in Xenopus laevis during early development., Wester MR., Gene Expr Patterns. April 1, 2008; 8 (4): 261-70.
	Lrig3 regulates neural crest formation in Xenopus by modulating Fgf and Wnt signaling pathways., Zhao H., Development. April 1, 2008; 135 (7): 1283-93.
	Vertebrate CASTOR is required for differentiation of cardiac precursor cells at the ventral midline., Christine KS., Dev Cell. April 1, 2008; 14 (4): 616-23.
	The POU homeobox protein Oct-1 regulates radial glia formation downstream of Notch signaling., Kiyota T., Dev Biol. March 15, 2008; 315 (2): 579-92.
	Zebrafish ae2.2 encodes a second slc4a2 anion exchanger., Shmukler BE., Am J Physiol Regul Integr Comp Physiol. March 1, 2008; 294 (3): R1081-91.
	Wnt6 expression in epidermis and epithelial tissues during Xenopus organogenesis., Lavery DL., Dev Dyn. March 1, 2008; 237 (3): 768-79.
	VegT, eFGF and Xbra cause overall posteriorization while Xwnt8 causes eye-level restricted posteriorization in synergy with chordin in early Xenopus development., Fujii H., Dev Growth Differ. March 1, 2008; 50 (3): 169-80.
	Altered gravity affects ventral root activity during fictive swimming and the static vestibuloocular reflex in young tadpoles (Xenopus laevis)., Böser S., Arch Ital Biol. March 1, 2008; 146 (1): 1-20.
	Convergence of a head-field selector Otx2 and Notch signaling: a mechanism for lens specification., Ogino H., Development. January 1, 2008; 135 (2): 249-58.
	Expression of complement components coincides with early patterning and organogenesis in Xenopus laevis., McLin VA., Int J Dev Biol. January 1, 2008; 52 (8): 1123-33.
	Dicer inactivation causes heterochronic retinogenesis in Xenopus laevis., Decembrini S., Int J Dev Biol. January 1, 2008; 52 (8): 1099-103.
	Identification and gene expression of versican during early development of Xenopus., Casini P., Int J Dev Biol. January 1, 2008; 52 (7): 993-8.
	Retinoic acid metabolizing factor xCyp26c is specifically expressed in neuroectoderm and regulates anterior neural patterning in Xenopus laevis., Tanibe M., Int J Dev Biol. January 1, 2008; 52 (7): 893-901.
	Detection of planar polarity proteins in mammalian cochlea., Montcouquiol M., Methods Mol Biol. January 1, 2008; 468 207-19.
	Neurogenin and NeuroD direct transcriptional targets and their regulatory enhancers., Seo S., EMBO J. December 12, 2007; 26 (24): 5093-108.
	Isolation and characterization of a novel Xenopus gene (xVAP019) encoding a DUF1208 domain containing protein., Ruan XZ., Mol Reprod Dev. December 1, 2007; 74 (12): 1505-13.
	The instructive role of binocular vision in the Xenopus tectum., Udin SB., Biol Cybern. December 1, 2007; 97 (5-6): 493-503.
	XGRIP2.1 is encoded by a vegetally localizing, maternal mRNA and functions in germ cell development and anteroposterior PGC positioning in Xenopus laevis., Tarbashevich K., Dev Biol. November 15, 2007; 311 (2): 554-65.

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