Papers associated with vegetal hemisphere

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	Nanos functions to maintain the fate of the small micromere lineage in the sea urchin embryo., Juliano CE., Dev Biol. January 15, 2010; 337 (2): 220-32.
	The expression and distribution of Wnt and Wnt receptor mRNAs during early sea urchin development., Stamateris RE., Gene Expr Patterns. January 1, 2010; 10 (1): 60-4.
	Dynamics of Delta/Notch signaling on endomesoderm segregation in the sea urchin embryo., Croce JC., Development. January 1, 2010; 137 (1): 83-91.
	Nodal and BMP2/4 pattern the mesoderm and endoderm during development of the sea urchin embryo., Duboc V., Development. January 1, 2010; 137 (2): 223-35.
	[A "micromere model" of cellular interactions in sea urchin embryos]., Shmukler IuB., Biofizika. January 1, 2010; 55 (3): 451-9.
	Characterization and expression of a sea star otx ortholog (Protxβ1/2) in the larva of Patiriella regularis., Elia L., Gene Expr Patterns. January 1, 2010; 10 (7-8): 323-7.
	Action at a distance during cytokinesis., von Dassow G., J Cell Biol. December 14, 2009; 187 (6): 831-45.
	The cis-regulatory system of the tbrain gene: Alternative use of multiple modules to promote skeletogenic expression in the sea urchin embryo., Wahl ME., Dev Biol. November 15, 2009; 335 (2): 428-41.
	Evolutionary modification of T-brain (tbr) expression patterns in sand dollar., Minemura K., Gene Expr Patterns. October 1, 2009; 9 (7): 468-74.
	Role of the nanos homolog during sea urchin development., Fujii T., Dev Dyn. October 1, 2009; 238 (10): 2511-21.
	Suppressor of Hairless (Su(H)) is required for foregut development in the sea urchin embryo., Karasawa K., Zoolog Sci. October 1, 2009; 26 (10): 686-90.
	Monte Carlo analysis of an ODE Model of the Sea Urchin Endomesoderm Network., Kühn C., BMC Syst Biol. August 23, 2009; 3 83.
	Inhibition of spicule elongation in sea urchin embryos by the acetylcholinesterase inhibitor eserine., Ohta K., Comp Biochem Physiol B Biochem Mol Biol. August 1, 2009; 153 (4): 310-6.
	Guanine nucleotides in the meiotic maturation of starfish oocytes: regulation of the actin cytoskeleton and of Ca(2+) signaling., Kyozuka K., PLoS One. July 20, 2009; 4 (7): e6296.
	Hedgehog signaling patterns mesoderm in the sea urchin., Walton KD., Dev Biol. July 1, 2009; 331 (1): 26-37.
	Building developmental gene regulatory networks., Li E., Birth Defects Res C Embryo Today. June 1, 2009; 87 (2): 123-30.
	Evolutionary modification of specification for the endomesoderm in the direct developing echinoid Peronella japonica: loss of the endomesoderm-inducing signal originating from micromeres., Iijima M., Dev Genes Evol. May 1, 2009; 219 (5): 235-47.
	Expression patterns of wnt8 orthologs in two sand dollar species with different developmental modes., Nakata H., Gene Expr Patterns. March 1, 2009; 9 (3): 152-7.
	Gene regulatory network interactions in sea urchin endomesoderm induction., Sethi AJ., PLoS Biol. February 3, 2009; 7 (2): e1000029.
	Genomic control of patterning., Peter IS., Int J Dev Biol. January 1, 2009; 53 (5-6): 707-16.
	Structure-function correlation of micro1 for micromere specification in sea urchin embryos., Yamazaki A., Mech Dev. January 1, 2009; 126 (8-9): 611-23.
	An evolutionary transition of Vasa regulation in echinoderms., Juliano CE., Evol Dev. January 1, 2009; 11 (5): 560-73.
	Experimentally based sea urchin gene regulatory network and the causal explanation of developmental phenomenology., Ben-Tabou de-Leon S., Wiley Interdiscip Rev Syst Biol Med. January 1, 2009; 1 (2): 237-246.
	Properties of developmental gene regulatory networks., Davidson EH., Proc Natl Acad Sci U S A. December 23, 2008; 105 (51): 20063-6.
	Gene regulatory network subcircuit controlling a dynamic spatial pattern of signaling in the sea urchin embryo., Smith J., Proc Natl Acad Sci U S A. December 23, 2008; 105 (51): 20089-94.
	cis-Regulatory sequences driving the expression of the Hbox12 homeobox-containing gene in the presumptive aboral ectoderm territory of the Paracentrotus lividus sea urchin embryo., Cavalieri V., Dev Biol. September 15, 2008; 321 (2): 455-69.
	Specification process of animal plate in the sea urchin embryo., Sasaki H., Dev Growth Differ. September 1, 2008; 50 (7): 595-606.
	Actin cytoskeleton modulates calcium signaling during maturation of starfish oocytes., Kyozuka K., Dev Biol. August 15, 2008; 320 (2): 426-35.
	LvNumb works synergistically with Notch signaling to specify non-skeletal mesoderm cells in the sea urchin embryo., Range RC., Development. August 1, 2008; 135 (14): 2445-54.
	Twist is an essential regulator of the skeletogenic gene regulatory network in the sea urchin embryo., Wu SY., Dev Biol. July 15, 2008; 319 (2): 406-15.
	EGFR signalling is required for Paracentrotus lividus endomesoderm specification., Romancino DP., Arch Biochem Biophys. June 1, 2008; 474 (1): 167-74.
	Transfer of a large gene regulatory apparatus to a new developmental address in echinoid evolution., Gao F., Proc Natl Acad Sci U S A. April 22, 2008; 105 (16): 6091-6.
	Global regulatory logic for specification of an embryonic cell lineage., Oliveri P., Proc Natl Acad Sci U S A. April 22, 2008; 105 (16): 5955-62.
	Krüppel-like is required for nonskeletogenic mesoderm specification in the sea urchin embryo., Yamazaki A., Dev Biol. February 15, 2008; 314 (2): 433-42.
	Vasa protein expression is restricted to the small micromeres of the sea urchin, but is inducible in other lineages early in development., Voronina E., Dev Biol. February 15, 2008; 314 (2): 276-86.
	Analysis of cis-regulatory elements controlling spatio-temporal expression of T-brain gene in sea urchin, Hemicentrotus pulcherrimus., Ochiai H., Mech Dev. January 1, 2008; 125 (1-2): 2-17.
	Runx expression is mitogenic and mutually linked to Wnt activity in blastula-stage sea urchin embryos., Robertson AJ., PLoS One. January 1, 2008; 3 (11): e3770.
	Ingression of primary mesenchyme cells of the sea urchin embryo: a precisely timed epithelial mesenchymal transition., Wu SY., Birth Defects Res C Embryo Today. December 1, 2007; 81 (4): 241-52.
	Gene regulatory networks and developmental plasticity in the early sea urchin embryo: alternative deployment of the skeletogenic gene regulatory network., Ettensohn CA., Development. September 1, 2007; 134 (17): 3077-87.
	SpGataE, a Strongylocentrotus purpuratus ortholog of mammalian Gata4/5/6: protein expression, interaction with putative target gene spec2a, and identification of friend of Gata factor SpFog1., Kiyama T., Dev Genes Evol. September 1, 2007; 217 (9): 651-63.
	A missing link in the sea urchin embryo gene regulatory network: hesC and the double-negative specification of micromeres., Revilla-i-Domingo R., Proc Natl Acad Sci U S A. July 24, 2007; 104 (30): 12383-8.
	Exclusive developmental functions of gatae cis-regulatory modules in the Strongylocentrorus purpuratus embryo., Lee PY., Dev Biol. July 15, 2007; 307 (2): 434-45.
	Cortical Isolation from Xenopus laevis Oocytes and Eggs., Sive HL., CSH Protoc. June 1, 2007; 2007 pdb.prot4753.
	Xenopus laevis Animal Cap/Vegetal Endoderm Conjugates., Sive HL., CSH Protoc. June 1, 2007; 2007 pdb.prot4747.
	Micromere-derived signal regulates larval left-right polarity during sea urchin development., Kitazawa C., J Exp Zool A Ecol Genet Physiol. May 1, 2007; 307 (5): 249-62.
	The Snail repressor is required for PMC ingression in the sea urchin embryo., Wu SY., Development. March 1, 2007; 134 (6): 1061-70.
	Gene regulation: gene control network in development., Ben-Tabou de-Leon S., Annu Rev Biophys Biomol Struct. January 1, 2007; 36 191.
	Evolutionary modification of mesenchyme cells in sand dollars in the transition from indirect to direct development., Yajima M., Evol Dev. January 1, 2007; 9 (3): 257-66.
	A global view of gene expression in lithium and zinc treated sea urchin embryos: new components of gene regulatory networks., Poustka AJ., Genome Biol. January 1, 2007; 8 (5): R85.
	Modeling development: spikes of the sea urchin., Kühn C., Genome Inform. January 1, 2007; 18 75-84.

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