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Journal Abstract Search

171 related items for PubMed ID: 24958895

  • 21. More productive than maize in the Midwest: How does Miscanthus do it?
    Dohleman FG, Long SP.
    Plant Physiol; 2009 Aug; 150(4):2104-15. PubMed ID: 19535474
    [Abstract] [Full Text] [Related]

  • 22. A chloroplast-targeted DnaJ protein contributes to maintenance of photosystem II under chilling stress.
    Kong F, Deng Y, Zhou B, Wang G, Wang Y, Meng Q.
    J Exp Bot; 2014 Jan; 65(1):143-58. PubMed ID: 24227338
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  • 25. The roles of Arabidopsis proteins of Lhcb4, Lhcb5 and Lhcb6 in oxidative stress under natural light conditions.
    Chen YE, Ma J, Wu N, Su YQ, Zhang ZW, Yuan M, Zhang HY, Zeng XY, Yuan S.
    Plant Physiol Biochem; 2018 Sep; 130():267-276. PubMed ID: 30032070
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  • 27. Does greater leaf-level photosynthesis explain the larger solar energy conversion efficiency of Miscanthus relative to switchgrass?
    Dohleman FG, Heaton EA, Leakey AD, Long SP.
    Plant Cell Environ; 2009 Nov; 32(11):1525-37. PubMed ID: 19558624
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  • 28. Deficiency of phytochrome B alleviates chilling-induced photoinhibition in rice.
    Yang JC, Li M, Xie XZ, Han GL, Sui N, Wang BS.
    Am J Bot; 2013 Sep; 100(9):1860-70. PubMed ID: 24018854
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  • 29. Cold stress effects on PSI photochemistry in Zea mays: differential increase of FQR-dependent cyclic electron flow and functional implications.
    Savitch LV, Ivanov AG, Gudynaite-Savitch L, Huner NP, Simmonds J.
    Plant Cell Physiol; 2011 Jun; 52(6):1042-54. PubMed ID: 21546369
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  • 30. Chilling and freezing stress in live oaks (Quercus section Virentes): intra- and inter-specific variation in PS II sensitivity corresponds to latitude of origin.
    Cavender-Bares J.
    Photosynth Res; 2007 Jun; 94(2-3):437-53. PubMed ID: 17805986
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  • 31. The protective mechanisms of CaHSP26 in transgenic tobacco to alleviate photoinhibition of PSII during chilling stress.
    Li M, Ji L, Yang X, Meng Q, Guo S.
    Plant Cell Rep; 2012 Nov; 31(11):1969-79. PubMed ID: 22790321
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  • 32. Effects of different elevated CO2 concentrations on chlorophyll contents, gas exchange, water use efficiency, and PSII activity on C3 and C4 cereal crops in a closed artificial ecosystem.
    Wang M, Xie B, Fu Y, Dong C, Hui L, Guanghui L, Liu H.
    Photosynth Res; 2015 Dec; 126(2-3):351-62. PubMed ID: 25869633
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  • 33. Autumnal leaf senescence in Miscanthus × giganteus and leaf [N] differ by stand age.
    Boersma NN, Dohleman FG, Miguez FE, Heaton EA.
    J Exp Bot; 2015 Jul; 66(14):4395-401. PubMed ID: 25873682
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  • 35. Molecular foundations of chilling-tolerance of modern maize.
    Sobkowiak A, Jończyk M, Adamczyk J, Szczepanik J, Solecka D, Kuciara I, Hetmańczyk K, Trzcinska-Danielewicz J, Grzybowski M, Skoneczny M, Fronk J, Sowiński P.
    BMC Genomics; 2016 Feb 20; 17():125. PubMed ID: 26897027
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  • 36. Recovery of maize (Zea mays L.) inbreds and hybrids from chilling stress of various duration: photosynthesis and antioxidant enzymes.
    Holá D, Kocová M, Rothová O, Wilhelmová N, Benesová M.
    J Plant Physiol; 2007 Jul 20; 164(7):868-77. PubMed ID: 16884820
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  • 37. Identification of quantitative trait loci for cold-tolerance of photosynthesis in maize (Zea mays L.).
    Fracheboud Y, Ribaut JM, Vargas M, Messmer R, Stamp P.
    J Exp Bot; 2002 Sep 20; 53(376):1967-77. PubMed ID: 12177137
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  • 38. Similar photosynthetic but different yield responses of C3 and C4 crops to elevated O3.
    Li S, Leakey ADB, Moller CA, Montes CM, Sacks EJ, Lee D, Ainsworth EA.
    Proc Natl Acad Sci U S A; 2023 Nov 14; 120(46):e2313591120. PubMed ID: 37948586
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  • 39. Cyclic electron flow and light partitioning between the two photosystems in leaves of plants with different functional types.
    Sagun JV, Badger MR, Chow WS, Ghannoum O.
    Photosynth Res; 2019 Dec 14; 142(3):321-334. PubMed ID: 31520186
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