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Author Details

Charles A Ettensohn
Carnegie Mellon University
1985
79
37
PMIDPaper TitleJournal TitlePublished Year
36607745An optimized Tet-On system for conditional control of gene expression in sea urchins.Development2023
37902109Molecular compartmentalization in a syncytium: restricted mobility of proteins within the sea urchin skeletogenic mesenchyme.Development2023
34791383Echinobase: leveraging an extant model organism database to build a knowledgebase supporting research on the genomics and biology of echinoderms.Nucleic Acids Res2022
35152988Preface.Curr Top Dev Biol2022
35152981Lessons from a transcription factor: Alx1 provides insights into gene regulatory networks, cellular reprogramming, and cell type evolution.Curr Top Dev Biol2022
34330790Global patterns of enhancer activity during sea urchin embryogenesis assessed by eRNA profiling.Genome Res2021
33684434Conditional gene knockdowns in sea urchins using caged morpholinos.Dev Biol2021
34932969Embryonic polarity: Focusing on Dishevelled.Curr Biol2021
34585729Classifying domain-specific text documents containing ambiguous keywords.Database (Oxford)2021
34386815A nomenclature for echinoderm genes.Database (Oxford)2021
34157281Analysis of the DNA-binding properties of Alx1, an evolutionarily conserved regulator of skeletogenesis in echinoderms.J Biol Chem2021
32119908The gene regulatory control of sea urchin gastrulation.Mech Dev2020
33329706Transcription Factors of the Alx Family: Evolutionarily Conserved Regulators of Deuterostome Skeletogenesis.Front Genet2020
30948008Techniques for analyzing gene expression using BAC-based reporter constructs.Methods Cell Biol2019
31532765The evolution of a new cell type was associated with competition for a signaling ligand.PLoS Biol2019
31331943Genome-wide identification of binding sites and gene targets of Alx1, a pivotal regulator of echinoderm skeletogenesis.Development2019
30948010Genome-wide analysis of chromatin accessibility using ATAC-seq.Methods Cell Biol2019
29558892Global analysis of primary mesenchyme cell cis-regulatory modules by chromatin accessibility profiling.BMC Genomics2018
30264451From genome to anatomy: The architecture and evolution of the skeletogenic gene regulatory network of sea urchins and other echinoderms.Genesis2018
27955944TGF-β sensu stricto signaling regulates skeletal morphogenesis in the sea urchin embryo.Dev Biol2017
29154754Functional divergence of paralogous transcription factors supported the evolution of biomineralization in echinoderms.Elife2017
27866905KirrelL, a member of the Ig-domain superfamily of adhesion proteins, is essential for fusion of primary mesenchyme cells in the sea urchin embryo.Dev Biol2017
26824499In memory of Eric H. Davidson.Dev Biol2016
24496631Genome-wide analysis of the skeletogenic gene regulatory network of sea urchins.Development2014
25460514Signal-dependent regulation of the sea urchin skeletogenic gene regulatory network.Gene Expr Patterns2014
24735463Horizontal transfer of the msp130 gene supported the evolution of metazoan biomineralization.Evol Dev2014
24515750Growth factors and early mesoderm morphogenesis: insights from the sea urchin embryo.Genesis2014
23436627Encoding anatomy: developmental gene regulatory networks and morphogenesis.Genesis2013
24026121Growth factor-mediated mesodermal cell guidance and skeletogenesis during sea urchin gastrulation.Development2013
22190640The genomic regulatory control of skeletal morphogenesis in the sea urchin.Development2012
21362416P58-A and P58-B: novel proteins that mediate skeletogenesis in the sea urchin embryo.Dev Biol2011
21610034Regulative deployment of the skeletogenic gene regulatory network during sea urchin development.Development2011
21741377High-resolution, three-dimensional mapping of gene expression using GeneExpressMap (GEM).Dev Biol2011
19853669The expression and distribution of Wnt and Wnt receptor mRNAs during early sea urchin development.Gene Expr Patterns2010
21096452Cell micromanipulation with an active handheld micromanipulator.Annu Int Conf IEEE Eng Med Biol Soc2010
20181745Activation of the skeletogenic gene regulatory network in the early sea urchin embryo.Development2010
19060330Lessons from a gene regulatory network: echinoderm skeletogenesis provides insights into evolution, plasticity and morphogenesis.Development2009
18979252Mesenchymal cell fusion in the sea urchin embryo.Methods Mol Biol2008
17433285Analysis of dishevelled localization and function in the early sea urchin embryo.Dev Biol2007
17670786Gene regulatory networks and developmental plasticity in the early sea urchin embryo: alternative deployment of the skeletogenic gene regulatory network.Development2007
17054939A functional genomic and proteomic perspective of sea urchin calcium signaling and egg activation.Dev Biol2006
17106077The emergence of pattern in embryogenesis: regulation of beta-catenin localization during early sea urchin development.Sci STKE2006
17095691The genome of the sea urchin Strongylocentrotus purpuratus.Science2006
16987510A genome-wide analysis of biomineralization-related proteins in the sea urchin Strongylocentrotus purpuratus.Dev Biol2006
15935341P16 is an essential regulator of skeletogenesis in the sea urchin embryo.Dev Biol2005
15151983Differential stability of beta-catenin along the animal-vegetal axis of the sea urchin embryo mediated by dishevelled.Development2004
15575612Rapid microinjection of fertilized eggs.Methods Cell Biol2004
15575600The invertebrate deuterostomes: an introduction to their phylogeny, reproduction, development, and genomics.Methods Cell Biol2004
12756175Alx1, a member of the Cart1/Alx3/Alx4 subfamily of Paired-class homeodomain proteins, is an essential component of the gene network controlling skeletogenic fate specification in the sea urchin embryo.Development2003
11934860LvDelta is a mesoderm-inducing signal in the sea urchin embryo and can endow blastomeres with organizer-like properties.Development2002
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Collaborators

Duke University
Co-authored papers 6
California Institute of Technology
Co-authored papers 5
Duke University
Co-authored papers 3
Auburn University
Co-authored papers 3
University of California berkeley
Co-authored papers 3
Brown University
Co-authored papers 3
California Institute of Technology
Co-authored papers 3
California State University
Co-authored papers 3
University of California berkeley
Co-authored papers 3
National Center for Biotechnology Information, National Institutes of Health
Co-authored papers 2
University of Calgary
Co-authored papers 2
University College London
Co-authored papers 2
University of Calgary
Co-authored papers 2
Scripps Institution of Oceanography, University of California San Diego
Co-authored papers 2
St. Petersburg College
Co-authored papers 2
University of Miami
Co-authored papers 2
Institute of Cellular and Organismic Biology
Co-authored papers 2
Scripps Institution of Oceanography, University of California
Co-authored papers 2
Cardiovascular Research Institute, University of California san francisco
Co-authored papers 2
Duke University Medical Center
Co-authored papers 2
Sorbonne Universite, CNRS
Co-authored papers 2
University of California San Diego
Co-authored papers 2
College of Charleston
Co-authored papers 2
University of New Orleans
Co-authored papers 2
Emory University
Co-authored papers 2
Cellular and Developmental Biology and Marine Science Institute
Co-authored papers 2
Boston University
Co-authored papers 2
Max-Planck-Institut fur Molekulare Genetik
Co-authored papers 2
National Center for Biotechnology Information, National Institutes of Health
Co-authored papers 2
Universitat de Barcelona
Co-authored papers 2