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Journal Abstract Search

221 related items for PubMed ID: 26759711

  • 1. Large-scale gene expression study in the ophiuroid Amphiura filiformis provides insights into evolution of gene regulatory networks.
    Dylus DV, Czarkwiani A, Stångberg J, Ortega-Martinez O, Dupont S, Oliveri P.
    Evodevo; 2016; 7():2. PubMed ID: 26759711
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  • 2. 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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  • 4. 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
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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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  • 8. Skeletal regeneration in the brittle star Amphiura filiformis.
    Czarkwiani A, Ferrario C, Dylus DV, Sugni M, Oliveri P.
    Front Zool; 2016 Nov 11; 13():18. PubMed ID: 27110269
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  • 10. Heterochronic activation of VEGF signaling and the evolution of the skeleton in echinoderm pluteus larvae.
    Morino Y, Koga H, Tachibana K, Shoguchi E, Kiyomoto M, Wada H.
    Evol Dev; 2012 Nov 11; 14(5):428-36. PubMed ID: 22947316
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  • 12. 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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  • 13. A conserved gene regulatory network subcircuit drives different developmental fates in the vegetal pole of highly divergent echinoderm embryos.
    McCauley BS, Weideman EP, Hinman VF.
    Dev Biol; 2010 Apr 15; 340(2):200-8. PubMed ID: 19941847
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  • 14. Sequencing and analysis of the gastrula transcriptome of the brittle star Ophiocoma wendtii.
    Vaughn R, Garnhart N, Garey JR, Thomas WK, Livingston BT.
    Evodevo; 2012 Sep 03; 3(1):19. PubMed ID: 22938175
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  • 15. Neurogenesis during Brittle Star Arm Regeneration Is Characterised by a Conserved Set of Key Developmental Genes.
    Czarkwiani A, Taylor J, Oliveri P.
    Biology (Basel); 2022 Sep 16; 11(9):. PubMed ID: 36138839
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  • 17. Perspectives on divergence of early developmental regulatory pathways: Insight from the evolution of echinoderm double negative gate.
    Levin N, Yamakawa S, Morino Y, Wada H.
    Curr Top Dev Biol; 2022 Sep 16; 146():1-24. PubMed ID: 35152980
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  • 18. pmar1/phb homeobox genes and the evolution of the double-negative gate for endomesoderm specification in echinoderms.
    Yamazaki A, Morino Y, Urata M, Yamaguchi M, Minokawa T, Furukawa R, Kondo M, Wada H.
    Development; 2020 Feb 26; 147(4):. PubMed ID: 32001441
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  • 20. FGF signalling plays similar roles in development and regeneration of the skeleton in the brittle star Amphiura filiformis.
    Czarkwiani A, Dylus DV, Carballo L, Oliveri P.
    Development; 2021 May 15; 148(10):. PubMed ID: 34042967
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