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Journal Abstract Search

165 related items for PubMed ID: 29879216

  • 21. Proteomics of contrasting rice genotypes: Identification of potential targets for raising crops for saline environment.
    Lakra N, Kaur C, Anwar K, Singla-Pareek SL, Pareek A.
    Plant Cell Environ; 2018 May; 41(5):947-969. PubMed ID: 28337760
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  • 23. A novel functional gene associated with cold tolerance at the seedling stage in rice.
    Zhao J, Zhang S, Dong J, Yang T, Mao X, Liu Q, Wang X, Liu B.
    Plant Biotechnol J; 2017 Sep; 15(9):1141-1148. PubMed ID: 28173633
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  • 24. A comparative proteomic analysis of rice seedlings under various high-temperature stresses.
    Han F, Chen H, Li XJ, Yang MF, Liu GS, Shen SH.
    Biochim Biophys Acta; 2009 Nov; 1794(11):1625-34. PubMed ID: 19635594
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  • 25. A hydroponic rice seedling culture model system for investigating proteome of salt stress in rice leaf.
    Kim DW, Rakwal R, Agrawal GK, Jung YH, Shibato J, Jwa NS, Iwahashi Y, Iwahashi H, Kim DH, Shim IeS, Usui K.
    Electrophoresis; 2005 Dec; 26(23):4521-39. PubMed ID: 16315177
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  • 26. Quantitative Proteomic Analysis of the Response to Cold Stress in Jojoba, a Tropical Woody Crop.
    Gao F, Ma P, Wu Y, Zhou Y, Zhang G.
    Int J Mol Sci; 2019 Jan 09; 20(2):. PubMed ID: 30634475
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  • 27. Comparative proteomic analysis of seedling leaves of cold-tolerant and -sensitive spring soybean cultivars.
    Tian X, Liu Y, Huang Z, Duan H, Tong J, He X, Gu W, Ma H, Xiao L.
    Mol Biol Rep; 2015 Mar 09; 42(3):581-601. PubMed ID: 25359310
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  • 28. Comparative proteomic analysis of rice shoots exposed to high arsenate.
    Liu Y, Li M, Han C, Wu F, Tu B, Yang P.
    J Integr Plant Biol; 2013 Oct 09; 55(10):965-78. PubMed ID: 23773616
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  • 29. Comparative proteomic analysis reveals alterations in development and photosynthesis-related proteins in diploid and triploid rice.
    Wang S, Chen W, Yang C, Yao J, Xiao W, Xin Y, Qiu J, Hu W, Yao H, Ying W, Fu Y, Tong J, Chen Z, Ruan S, Ma H.
    BMC Plant Biol; 2016 Sep 13; 16(1):199. PubMed ID: 27619227
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  • 30. Potential of Oryza officinalis to augment the cold tolerance genetic mechanisms of Oryza sativa by network complementation.
    Kitazumi A, Pabuayon ICM, Ohyanagi H, Fujita M, Osti B, Shenton MR, Kakei Y, Nakamura Y, Brar DS, Kurata N, de Los Reyes BG.
    Sci Rep; 2018 Nov 05; 8(1):16346. PubMed ID: 30397229
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  • 31. Comparative proteomic analysis of early salt stress responsive proteins in roots and leaves of rice.
    Liu CW, Chang TS, Hsu YK, Wang AZ, Yen HC, Wu YP, Wang CS, Lai CC.
    Proteomics; 2014 Aug 05; 14(15):1759-75. PubMed ID: 24841874
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  • 32. Proteomic changes in rice leaves grown under open field high temperature stress conditions.
    Das S, Krishnan P, Mishra V, Kumar R, Ramakrishnan B, Singh NK.
    Mol Biol Rep; 2015 Nov 05; 42(11):1545-58. PubMed ID: 26323334
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  • 37. Identification of quantitative trait loci controlling drought tolerance at seedling stage in Chinese Dongxiang common wild rice (Oryza rufipogon Griff.).
    Zhou SX, Tian F, Zhu ZF, Fu YC, Wang XK, Sun CQ.
    Yi Chuan Xue Bao; 2006 Jun 05; 33(6):551-8. PubMed ID: 16800386
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  • 38. A snapshot of the low temperature stress transcriptome of developing rice seedlings (Oryza sativa L.) via ESTs from subtracted cDNA library.
    de los Reyes BG, Morsy M, Gibbons J, Varma TS, Antoine W, McGrath JM, Halgren R, Redus M.
    Theor Appl Genet; 2003 Oct 05; 107(6):1071-82. PubMed ID: 12827255
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  • 39. Difference in oxidative stress tolerance between rice cultivars estimated with chlorophyll fluorescence analysis.
    Kasajima I.
    BMC Res Notes; 2017 Apr 26; 10(1):168. PubMed ID: 28446247
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