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Journal Abstract Search

198 related items for PubMed ID: 22723484

  • 1. Early developmental gene regulation in Strongylocentrotus purpuratus embryos in response to elevated CO₂ seawater conditions.
    Hammond LM, Hofmann GE.
    J Exp Biol; 2012 Jul 15; 215(Pt 14):2445-54. PubMed ID: 22723484
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  • 2. Transcriptomic response of sea urchin larvae Strongylocentrotus purpuratus to CO2-driven seawater acidification.
    Todgham AE, Hofmann GE.
    J Exp Biol; 2009 Aug 15; 212(Pt 16):2579-94. PubMed ID: 19648403
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  • 4. Ocean acidification research in the 'post-genomic' era: Roadmaps from the purple sea urchin Strongylocentrotus purpuratus.
    Evans TG, Padilla-Gamiño JL, Kelly MW, Pespeni MH, Chan F, Menge BA, Gaylord B, Hill TM, Russell AD, Palumbi SR, Sanford E, Hofmann GE.
    Comp Biochem Physiol A Mol Integr Physiol; 2015 Jul 15; 185():33-42. PubMed ID: 25773301
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  • 5. Natural variation and the capacity to adapt to ocean acidification in the keystone sea urchin Strongylocentrotus purpuratus.
    Kelly MW, Padilla-Gamiño JL, Hofmann GE.
    Glob Chang Biol; 2013 Aug 15; 19(8):2536-46. PubMed ID: 23661315
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  • 6. The transcriptome of the sea urchin embryo.
    Samanta MP, Tongprasit W, Istrail S, Cameron RA, Tu Q, Davidson EH, Stolc V.
    Science; 2006 Nov 10; 314(5801):960-2. PubMed ID: 17095694
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  • 7. Sphedgehog is expressed by pigment cell precursors during early gastrulation in Strongylocentrotus purpuratus.
    Egaña AL, Ernst SG.
    Dev Dyn; 2004 Oct 10; 231(2):370-8. PubMed ID: 15366014
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  • 8. Resource allocation and extracellular acid-base status in the sea urchin Strongylocentrotus droebachiensis in response to CO₂ induced seawater acidification.
    Stumpp M, Trübenbach K, Brennecke D, Hu MY, Melzner F.
    Aquat Toxicol; 2012 Apr 10; 110-111():194-207. PubMed ID: 22343465
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  • 9. Two ParaHox genes, SpLox and SpCdx, interact to partition the posterior endoderm in the formation of a functional gut.
    Cole AG, Rizzo F, Martinez P, Fernandez-Serra M, Arnone MI.
    Development; 2009 Feb 10; 136(4):541-9. PubMed ID: 19144720
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  • 10. Signal-dependent regulation of the sea urchin skeletogenic gene regulatory network.
    Sun Z, Ettensohn CA.
    Gene Expr Patterns; 2014 Nov 10; 16(2):93-103. PubMed ID: 25460514
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  • 11. Transcriptomic responses to seawater acidification among sea urchin populations inhabiting a natural pH mosaic.
    Evans TG, Pespeni MH, Hofmann GE, Palumbi SR, Sanford E.
    Mol Ecol; 2017 Apr 10; 26(8):2257-2275. PubMed ID: 28141889
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  • 13. Evolutionary change during experimental ocean acidification.
    Pespeni MH, Sanford E, Gaylord B, Hill TM, Hosfelt JD, Jaris HK, LaVigne M, Lenz EA, Russell AD, Young MK, Palumbi SR.
    Proc Natl Acad Sci U S A; 2013 Apr 23; 110(17):6937-42. PubMed ID: 23569232
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  • 15. CO2 induced seawater acidification impacts sea urchin larval development I: elevated metabolic rates decrease scope for growth and induce developmental delay.
    Stumpp M, Wren J, Melzner F, Thorndyke MC, Dupont ST.
    Comp Biochem Physiol A Mol Integr Physiol; 2011 Nov 23; 160(3):331-40. PubMed ID: 21742050
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  • 20. Transcriptomic responses to ocean acidification in larval sea urchins from a naturally variable pH environment.
    Evans TG, Chan F, Menge BA, Hofmann GE.
    Mol Ecol; 2013 Mar 23; 22(6):1609-25. PubMed ID: 23317456
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