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Journal Abstract Search

177 related items for PubMed ID: 24502990

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  • 3. Heterologous expression of betaine aldehyde dehydrogenase gene from Ammopiptanthus nanus confers high salt and heat tolerance to Escherichia coli.
    Yu HQ, Wang YG, Yong TM, She YH, Fu FL, Li WC.
    Gene; 2014 Oct 01; 549(1):77-84. PubMed ID: 25046139
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  • 7. Genome-Wide Identification and Expression Analyses of the Chitinases under Cold and Osmotic stress in Ammopiptanthus nanus.
    Cao S, Wang Y, Li Z, Shi W, Gao F, Zhou Y, Zhang G, Feng J.
    Genes (Basel); 2019 Jun 21; 10(6):. PubMed ID: 31234426
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  • 9. Expression of galactinol synthase from Ammopiptanthus nanus in tomato improves tolerance to cold stress.
    Liu Y, Zhang L, Meng S, Liu Y, Zhao X, Pang C, Zhang H, Xu T, He Y, Qi M, Li T.
    J Exp Bot; 2020 Jan 01; 71(1):435-449. PubMed ID: 31616940
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  • 10. Genome-Wide Analyses of Thaumatin-like Protein Family Genes Reveal the Involvement in the Response to Low-Temperature Stress in Ammopiptanthus nanus.
    Liu Q, Sui X, Wang Y, Zhu M, Zhou Y, Gao F.
    Int J Mol Sci; 2023 Jan 22; 24(3):. PubMed ID: 36768531
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  • 11. Increased expression of OsSPX1 enhances cold/subfreezing tolerance in tobacco and Arabidopsis thaliana.
    Zhao L, Liu F, Xu W, Di C, Zhou S, Xue Y, Yu J, Su Z.
    Plant Biotechnol J; 2009 Aug 22; 7(6):550-61. PubMed ID: 19508276
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  • 12. PtrBAM1, a β-amylase-coding gene of Poncirus trifoliata, is a CBF regulon member with function in cold tolerance by modulating soluble sugar levels.
    Peng T, Zhu X, Duan N, Liu JH.
    Plant Cell Environ; 2014 Dec 22; 37(12):2754-67. PubMed ID: 24905016
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  • 13. Ice-binding proteins confer freezing tolerance in transgenic Arabidopsis thaliana.
    Bredow M, Vanderbeld B, Walker VK.
    Plant Biotechnol J; 2017 Jan 22; 15(1):68-81. PubMed ID: 27317906
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  • 14. Overexpression of a phospholipase Dα gene from Ammopiptanthus nanus enhances salt tolerance of phospholipase Dα1-deficient Arabidopsis mutant.
    Yu HQ, Yong TM, Li HJ, Liu YP, Zhou SF, Fu FL, Li WC.
    Planta; 2015 Dec 22; 242(6):1495-509. PubMed ID: 26318308
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  • 15. The homologous HD-Zip I transcription factors HaHB1 and AtHB13 confer cold tolerance via the induction of pathogenesis-related and glucanase proteins.
    Cabello JV, Arce AL, Chan RL.
    Plant J; 2012 Jan 22; 69(1):141-53. PubMed ID: 21899607
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  • 16. Enhancement of cold tolerance and inhibition of lipid peroxidation by citrus dehydrin in transgenic tobacco.
    Hara M, Terashima S, Fukaya T, Kuboi T.
    Planta; 2003 Jun 22; 217(2):290-8. PubMed ID: 12783337
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  • 17. [The mechanisms of Antartic vascular plants adaptation to abiotic environmental factors].
    Ozheredova IP, Parnikoza IY, Poronnik OO, Kozeretska IA, Demidov SV, Kunakh VA.
    Tsitol Genet; 2015 Jun 22; 49(2):72-9. PubMed ID: 26030977
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  • 18. Characterization of multiple cold induced genes from Ammopiptanthus mongolicus and functional analyses of gene AmEBP1.
    Cao P, Song J, Zhou C, Weng M, Liu J, Wang F, Zhao F, Feng D, Wang B.
    Plant Mol Biol; 2009 Mar 22; 69(5):529-39. PubMed ID: 19067182
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  • 19. Transgenic tobacco plants over expressing cold regulated protein CbCOR15b from Capsella bursa-pastoris exhibit enhanced cold tolerance.
    Wu L, Zhou M, Shen C, Liang J, Lin J.
    J Plant Physiol; 2012 Sep 15; 169(14):1408-16. PubMed ID: 22795746
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  • 20. The over-expression of calmodulin from Antarctic notothenioid fish increases cold tolerance in tobacco.
    Yang N, Peng C, Cheng D, Huang Q, Xu G, Gao F, Chen L.
    Gene; 2013 May 25; 521(1):32-7. PubMed ID: 23528224
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