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Journal Abstract Search

190 related items for PubMed ID: 25302555

  • 1. Physiological and biochemical characterization of NERICA-L-44: a novel source of heat tolerance at the vegetative and reproductive stages in rice.
    Bahuguna RN, Jha J, Pal M, Shah D, Lawas LM, Khetarpal S, Jagadish KS.
    Physiol Plant; 2015 Aug; 154(4):543-59. PubMed ID: 25302555
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  • 3. Metabolic and transcriptomic signatures of rice floral organs reveal sugar starvation as a factor in reproductive failure under heat and drought stress.
    Li X, Lawas LM, Malo R, Glaubitz U, Erban A, Mauleon R, Heuer S, Zuther E, Kopka J, Hincha DK, Jagadish KS.
    Plant Cell Environ; 2015 Oct; 38(10):2171-92. PubMed ID: 25828772
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  • 4. Physiological and proteomic approaches to address heat tolerance during anthesis in rice (Oryza sativa L.).
    Jagadish SV, Muthurajan R, Oane R, Wheeler TR, Heuer S, Bennett J, Craufurd PQ.
    J Exp Bot; 2010 Oct; 61(1):143-56. PubMed ID: 19858118
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  • 5. Boron application improves yield of rice cultivars under high temperature stress during vegetative and reproductive stages.
    Shahid M, Nayak AK, Tripathi R, Katara JL, Bihari P, Lal B, Gautam P.
    Int J Biometeorol; 2018 Aug; 62(8):1375-1387. PubMed ID: 29644433
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  • 7. qEMF3, a novel QTL for the early-morning flowering trait from wild rice, Oryza officinalis, to mitigate heat stress damage at flowering in rice, O. sativa.
    Hirabayashi H, Sasaki K, Kambe T, Gannaban RB, Miras MA, Mendioro MS, Simon EV, Lumanglas PD, Fujita D, Takemoto-Kuno Y, Takeuchi Y, Kaji R, Kondo M, Kobayashi N, Ogawa T, Ando I, Jagadish KS, Ishimaru T.
    J Exp Bot; 2015 Mar; 66(5):1227-36. PubMed ID: 25534925
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  • 8. Fine-mapping and validating qHTSF4.1 to increase spikelet fertility under heat stress at flowering in rice.
    Ye C, Tenorio FA, Redoña ED, Morales-Cortezano PS, Cabrega GA, Jagadish KS, Gregorio GB.
    Theor Appl Genet; 2015 Aug; 128(8):1507-17. PubMed ID: 25957114
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  • 12. [Effects of exogenous silicon on the pollination and fertility characteristics of hybrid rice under heat stress during anthesis].
    Wu CY, Chen D, Luo HW, Yao YM, Wang ZW, Tsutomu M, Tian XH.
    Ying Yong Sheng Tai Xue Bao; 2013 Nov; 24(11):3113-22. PubMed ID: 24564139
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  • 13. Acid invertase confers heat tolerance in rice plants by maintaining energy homoeostasis of spikelets.
    Jiang N, Yu P, Fu W, Li G, Feng B, Chen T, Li H, Tao L, Fu G.
    Plant Cell Environ; 2020 May; 43(5):1273-1287. PubMed ID: 31994745
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  • 15. 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; 42(11):1545-58. PubMed ID: 26323334
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  • 16. Crop-model assisted phenomics and genome-wide association study for climate adaptation of indica rice. 2. Thermal stress and spikelet sterility.
    Dingkuhn M, Pasco R, Pasuquin JM, Damo J, Soulié JC, Raboin LM, Dusserre J, Sow A, Manneh B, Shrestha S, Kretzschmar T.
    J Exp Bot; 2017 Jul 10; 68(15):4389-4406. PubMed ID: 28922773
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  • 18. RNA-seq reveals differentially expressed genes of rice (Oryza sativa) spikelet in response to temperature interacting with nitrogen at meiosis stage.
    Yang J, Chen X, Zhu C, Peng X, He X, Fu J, Ouyang L, Bian J, Hu L, Sun X, Xu J, He H.
    BMC Genomics; 2015 Nov 17; 16():959. PubMed ID: 26576634
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  • 20. [Effects of low temperature stress during flowering period on pollen characters and flag leaf physiological and biochemical characteristics of rice].
    Deng HB, Che FL, Xiao YH, Tang WB, Pan Y, Liu ZX, Chen LY.
    Ying Yong Sheng Tai Xue Bao; 2011 Jan 17; 22(1):66-72. PubMed ID: 21548290
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