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Journal Abstract Search

526 related items for PubMed ID: 24549884

  • 1. Developmental gene regulatory network evolution: insights from comparative studies in echinoderms.
    Hinman VF, Cheatle Jarvela AM.
    Genesis; 2014 Mar; 52(3):193-207. PubMed ID: 24549884
    [Abstract] [Full Text] [Related]

  • 2. Echinoderm systems for gene regulatory studies in evolution and development.
    Arnone MI, Andrikou C, Annunziata R.
    Curr Opin Genet Dev; 2016 Aug; 39():129-137. PubMed ID: 27389072
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  • 5. Developmental gene regulatory network architecture across 500 million years of echinoderm evolution.
    Hinman VF, Nguyen AT, Cameron RA, Davidson EH.
    Proc Natl Acad Sci U S A; 2003 Nov 11; 100(23):13356-61. PubMed ID: 14595011
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  • 7. Pattern and process during sea urchin gut morphogenesis: the regulatory landscape.
    Annunziata R, Perillo M, Andrikou C, Cole AG, Martinez P, Arnone MI.
    Genesis; 2014 Mar 11; 52(3):251-68. PubMed ID: 24376127
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  • 9. Lessons from a gene regulatory network: echinoderm skeletogenesis provides insights into evolution, plasticity and morphogenesis.
    Ettensohn CA.
    Development; 2009 Jan 11; 136(1):11-21. PubMed ID: 19060330
    [Abstract] [Full Text] [Related]

  • 10. Omics approaches to study gene regulatory networks for development in echinoderms.
    Lowe EK, Cuomo C, Arnone MI.
    Brief Funct Genomics; 2017 Sep 01; 16(5):299-308. PubMed ID: 28957458
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  • 11. Divergence of ectodermal and mesodermal gene regulatory network linkages in early development of sea urchins.
    Erkenbrack EM.
    Proc Natl Acad Sci U S A; 2016 Nov 15; 113(46):E7202-E7211. PubMed ID: 27810959
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  • 12. Experimentally based sea urchin gene regulatory network and the causal explanation of developmental phenomenology.
    Ben-Tabou de-Leon S, Davidson EH.
    Wiley Interdiscip Rev Syst Biol Med; 2009 Nov 15; 1(2):237-246. PubMed ID: 20228891
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  • 13. Developmental transcriptomics of the brittle star Amphiura filiformis reveals gene regulatory network rewiring in echinoderm larval skeleton evolution.
    Dylus DV, Czarkwiani A, Blowes LM, Elphick MR, Oliveri P.
    Genome Biol; 2018 Feb 28; 19(1):26. PubMed ID: 29490679
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  • 14. The genomic regulatory control of skeletal morphogenesis in the sea urchin.
    Rafiq K, Cheers MS, Ettensohn CA.
    Development; 2012 Feb 28; 139(3):579-90. PubMed ID: 22190640
    [Abstract] [Full Text] [Related]

  • 15. Logics and properties of a genetic regulatory program that drives embryonic muscle development in an echinoderm.
    Andrikou C, Pai CY, Su YH, Arnone MI.
    Elife; 2015 Jul 28; 4():. PubMed ID: 26218224
    [Abstract] [Full Text] [Related]

  • 16. Genome-wide use of high- and low-affinity Tbrain transcription factor binding sites during echinoderm development.
    Cary GA, Cheatle Jarvela AM, Francolini RD, Hinman VF.
    Proc Natl Acad Sci U S A; 2017 Jun 06; 114(23):5854-5861. PubMed ID: 28584099
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  • 17. Developmental gene network analysis.
    Revilla-i-Domingo R, Davidson EH.
    Int J Dev Biol; 2003 Jun 06; 47(7-8):695-703. PubMed ID: 14756345
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  • 18. The echinoderm larval skeleton as a possible model system for experimental evolutionary biology.
    Koga H, Morino Y, Wada H.
    Genesis; 2014 Mar 06; 52(3):186-92. PubMed ID: 24549940
    [Abstract] [Full Text] [Related]

  • 19. Architecture and evolution of the cis-regulatory system of the echinoderm kirrelL gene.
    Khor JM, Ettensohn CA.
    Elife; 2022 Feb 25; 11():. PubMed ID: 35212624
    [Abstract] [Full Text] [Related]

  • 20. Juvenile skeletogenesis in anciently diverged sea urchin clades.
    Gao F, Thompson JR, Petsios E, Erkenbrack E, Moats RA, Bottjer DJ, Davidson EH.
    Dev Biol; 2015 Apr 01; 400(1):148-58. PubMed ID: 25641694
    [Abstract] [Full Text] [Related]

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