Expression patterns of four different regulatory genes that function during sea urchin development.

[1]  Eric H Davidson,et al.  Activation of pmar1 controls specification of micromeres in the sea urchin embryo. , 2003, Developmental biology.

[2]  Larry Kedes,et al.  HES and HERP families: Multiple effectors of the notch signaling pathway , 2003, Journal of cellular physiology.

[3]  L. Hood,et al.  Regulatory gene networks and the properties of the developmental process , 2003, Proceedings of the National Academy of Sciences of the United States of America.

[4]  E. Davidson,et al.  brachyury Target genes in the early sea urchin embryo isolated by differential macroarray screening. , 2002, Developmental biology.

[5]  Eric H Davidson,et al.  A regulatory gene network that directs micromere specification in the sea urchin embryo. , 2002, Developmental biology.

[6]  Eric H Davidson,et al.  A provisional regulatory gene network for specification of endomesoderm in the sea urchin embryo. , 2002, Developmental biology.

[7]  C. Ettensohn,et al.  LvDelta is a mesoderm-inducing signal in the sea urchin embryo and can endow blastomeres with organizer-like properties. , 2002, Development.

[8]  L. Hood,et al.  A Genomic Regulatory Network for Development , 2002, Science.

[9]  T. Minokawa,et al.  A Large-Scale Whole-Mount in situ Hybridization System: Rapid One-Tube Preparation of DIG-Labeled RNA Probes and High Throughput Hybridization using 96-Well Silent Screen Plates , 2001 .

[10]  L. Newman,et al.  SpKrl: a direct target of beta-catenin regulation required for endoderm differentiation in sea urchin embryos. , 2001, Development.

[11]  E. Davidson,et al.  Recovery of developmentally defined gene sets from high-density cDNA macroarrays. , 2000, Developmental biology.

[12]  E. Davidson,et al.  Spatial expression of Hox cluster genes in the ontogeny of a sea urchin. , 2000, Development.

[13]  K. Kaestner,et al.  Unified nomenclature for the winged helix/forkhead transcription factors. , 2000, Genes & development.

[14]  B. Livingston,et al.  Characterization of a gene encoding a developmentally regulated winged helix transcription factor of the sea urchin Strongylocentrotus purpuratus. , 1999, Gene.

[15]  D. McClay,et al.  Nuclear beta-catenin is required to specify vegetal cell fates in the sea urchin embryo. , 1999, Development.

[16]  E. Davidson,et al.  Late Specification of Veg1Lineages to Endodermal Fate in the Sea Urchin Embryo , 1998 .

[17]  D. McClay,et al.  Identification and localization of a sea urchin Notch homologue: insights into vegetal plate regionalization and Notch receptor regulation. , 1997, Development.

[18]  C. Killian,et al.  Spfkh1 encodes a transcription factor implicated in gut formation during sea urchin development , 1997, Development, growth & differentiation.

[19]  R. Britten,et al.  Maternal and embryonic provenance of a sea urchin embryo transcription factor, SpZ12-1. , 1995, Molecular marine biology and biotechnology.

[20]  P. Leahy Laboratory culture of Strongylocentrotus purpuratus adults, embryos, and larvae. , 1986, Methods in cell biology.