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Journal Abstract Search

536 related items for PubMed ID: 26075607

  • 1. Strong Costs and Benefits of Winter Acclimatization in Drosophila melanogaster.
    Schou MF, Loeschcke V, Kristensen TN.
    PLoS One; 2015; 10(6):e0130307. PubMed ID: 26075607
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  • 7. Reversibility of developmental heat and cold plasticity is asymmetric and has long-lasting consequences for adult thermal tolerance.
    Slotsbo S, Schou MF, Kristensen TN, Loeschcke V, Sørensen JG.
    J Exp Biol; 2016 Sep 01; 219(Pt 17):2726-32. PubMed ID: 27353229
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  • 9. Complexity of the cold acclimation response in Drosophila melanogaster.
    Rako L, Hoffmann AA.
    J Insect Physiol; 2006 Jan 01; 52(1):94-104. PubMed ID: 16257412
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  • 12. Functional plasticity of the gut and the Malpighian tubules underlies cold acclimation and mitigates cold-induced hyperkalemia in Drosophila melanogaster.
    Yerushalmi GY, Misyura L, MacMillan HA, Donini A.
    J Exp Biol; 2018 Mar 19; 221(Pt 6):. PubMed ID: 29367271
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  • 14. Cold rearing improves cold-flight performance in Drosophila via changes in wing morphology.
    Frazier MR, Harrison JF, Kirkton SD, Roberts SP.
    J Exp Biol; 2008 Jul 19; 211(Pt 13):2116-22. PubMed ID: 18552301
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  • 17. Cold acclimation allows Drosophila flies to maintain mitochondrial functioning under cold stress.
    Colinet H, Renault D, Roussel D.
    Insect Biochem Mol Biol; 2017 Jan 19; 80():52-60. PubMed ID: 27903433
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  • 18. Thermal tolerance in a south-east African population of the tsetse fly Glossina pallidipes (Diptera, Glossinidae): implications for forecasting climate change impacts.
    Terblanche JS, Clusella-Trullas S, Deere JA, Chown SL.
    J Insect Physiol; 2008 Jan 19; 54(1):114-27. PubMed ID: 17889900
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