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Journal Abstract Search

201 related items for PubMed ID: 19194986

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  • 22. Beetle immunity: Identification of immune-inducible genes from the model insect Tribolium castaneum.
    Altincicek B, Knorr E, Vilcinskas A.
    Dev Comp Immunol; 2008; 32(5):585-95. PubMed ID: 17981328
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  • 28. Identification and characterization of novel ER-based hsp90 gene in the red flour beetle, Tribolium castaneum.
    Zhang Y, Gu S, Li C, Sang M, Wu W, Yun X, Hu X, Li B.
    Cell Stress Chaperones; 2014 Sep; 19(5):623-33. PubMed ID: 24379085
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  • 30. Models to predict mortality of Tribolium castaneum (Coleoptera: Tenebrionidae) exposed to elevated temperatures during structural heat treatments.
    Jian F, Subramanyam B, Jayas DS, White ND.
    J Econ Entomol; 2013 Oct; 106(5):2247-58. PubMed ID: 24224271
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  • 31. Transcript-Level Analysis in Combination with Real-Time PCR Elucidates Heat Adaptation Mechanism of Tribolium castaneum (Herbst) (Coleoptera: Tenebrionidae) Larvae.
    Lü J, Huo M, Kang Y.
    J Econ Entomol; 2019 Dec 09; 112(6):2984-2992. PubMed ID: 31504651
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  • 32. Germ-cell cluster formation in the telotrophic meroistic ovary of Tribolium castaneum (Coleoptera, Polyphaga, Tenebrionidae) and its implication on insect phylogeny.
    Trauner J, Büning J.
    Dev Genes Evol; 2007 Jan 09; 217(1):13-27. PubMed ID: 17123126
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  • 33. Effect of methoprene on the progeny production of Tribolium castaneum (Coleoptera: Tenebrionidae).
    Wijayaratne LK, Fields PG, Arthur FH.
    Pest Manag Sci; 2012 Feb 09; 68(2):217-24. PubMed ID: 21770015
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  • 35. Response of body size and developmental time of Tribolium castaneum to constant versus fluctuating thermal conditions.
    Małek D, Drobniak S, Gozdek A, Pawlik K, Kramarz P.
    J Therm Biol; 2015 Jul 09; 51():110-8. PubMed ID: 25965024
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  • 36. Identification and characterization of nuclear receptors from the red flour beetle, Tribolium castaneum.
    Tan A, Palli SR.
    Insect Biochem Mol Biol; 2008 Apr 09; 38(4):430-9. PubMed ID: 18342248
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  • 38. Proteomic investigation of Peristenus spretus ovary and characterization of an ovary-enriched heat shock protein.
    Tian M, Xia Y, Cai D, Mao J, Luo S.
    Bull Entomol Res; 2021 Jun 09; 111(3):270-281. PubMed ID: 32993843
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  • 40. High-temperature shock consequences on the red flour beetle (Tribolium castaneum) and the rice weevil (Sitophilus oryzae).
    Abdel-Hady AAA, Ramadan MM, Lü J, Hashem AS.
    J Therm Biol; 2021 Aug 09; 100():103062. PubMed ID: 34503800
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