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氧电极部分代表性应用文献
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  • 更新时间:2014-2-18
  • 氧电极部分代表性应用文献

    1 冯汉青吴强梁厚果干旱与条锈病复合胁迫对小麦的生理影响生态学报, 2006, 26, 1963-1974.研究呼吸速率及呼吸途径

    2 Heddl A, Lefebvre F, Nrdon P. The influence of symbiosis on the respiratory control ratio and the ADP/O ration in the adult weevil. sitophilus oryzae.Endocytobiosis Cell Res, 8, 61-73. (研究状态呼吸,呼吸控制率,ADP/O)

    3 Chen LS, Li PM, Cheng LL. EVects of high temperature coupled with high light on the balance between photooxidation and photoprotection in the sun-exposed peel of apple. Planta. (研究苹果皮的光合活性)

    4 Li ZX, Qin SJ, Lv DG..  Effects of phenolic compounds on root respiration and root activity of Cerasus sachalinensis Kom. Allelopathy Journal, 2009,  24 (1): 113-122. (研究根呼吸及呼吸途径)

    5 Giordano M, Pezzoni V, Hell R. Strategies for the Allocation of Resources under Sulfur Limitation in the Green Alga Dunaliella salina. Plant Physiology, 2000, 124, 857–864. (研究细胞光合速率)

    6 Matringe M, Ksas B, Havaux M. Tocotrienols, the Unsaturated Forms of Vitamin E, Can Function as Antioxidants and Lipid Protectors in Tobacco Leaves. Plant Physiology, June 2008, Vol. 147, pp. 764–778. (研究转基因叶片光合速率)

    7 Plant Physiology, January 2009, Vol. 149, pp. 515–533. (研究转基因叶片光合速率)

    8 Plant Physiology, December 2004, Vol. 136, pp. 4265–4274. (研究叶片光合速率)

    9 Plant Physiology, August 2004, Vol. 135, pp. 2106–2111.(研究细胞光合速率

    10 Plant Physiology, May 2002, Vol. 129, pp. 112–121. (研究叶片光合速率)

    11 Dubbs W, Grimes HD. Specific Lipoxygenase Isoforms Accumulate in Distinct Regions of Soybean Pod Walls and Mark a Unique Cell Layer. Plant Physiology, August 2000, Vol. 123, pp. 1269–1279. (研究LOX 脂氧合酶活性)

    12 Plant Physiology, June 2000, Vol. 123, pp. 625–635.(研究藻类光合速率

    13 Herk DA, Miles D, Chitnis PR. Characterization of Two Photosynthetic Mutants of Maize. Plant Physiology, August 1999, Vol. 120, pp. 1129–1136.(研究光合机构PSIIPSI的活性

    14 Plant Physiol. (1991) 636-641.(研究叶绿体光合速率

    15 Plant Physiol. (1989) 91, 1069-1074.(研究叶绿体类囊体光合速率

    16 Plant Physiol. (1989) 90, 1041-1048.(研究类囊体活性

    17 Plant Physiology, May 2008, Vol. 147, pp. 206–215.(研究细胞光合速率

    18 Plant Physiology, November 2001, Vol. 127, pp. 1113–1124.(研究藻类光合速率

    19 Zabalza A, Dongen JT. Regulation of Respiration and Fermentation to Control the Plant Internal Oxygen Concentration. Plant Physiology, February 2009, Vol. 149, pp. 1087–1098.(研究根呼吸

    20 Eubel H, Millar AH. Novel Proteins, Putative Membrane Transporters, and an Integrated Metabolic Network Are Revealed by Quantitative Proteomic Analysis of Arabidopsis Cell Culture Peroxisomes. Plant Physiology, December 2008, Vol. 148, pp. 1809–1829.(研究过氧化氢酶呼吸

    21 Loizeau K, Ravanel S. A Genome-Wide and Metabolic Analysis Determined the Adaptive Response of Arabidopsis Cells to Folate Depletion Induced by Methotrexate. Plant Physiology, December 2008, Vol. 148, pp. 2083–2095.(研究拟南芥的光合呼吸

    22 Garmier M, Millar AH. Complex I Dysfunction Redirects Cellular and Mitochondrial Metabolism in Arabidopsis. Plant Physiology, November 2008, Vol. 148, pp. 1324–1341.(研究拟南芥细胞的光合呼吸

    23 Pollari M, Tyystjarvi T. Characterization of Single and Double Inactivation Strains Reveals New Physiological Roles for Group 2 s Factors in the Cyanobacterium Synechocystis sp. PCC 6803. Plant Physiology, August 2008, Vol. 147, pp. 1994–2005.(研究PSII 的活性

    24 Giraud E, Whelan J. The Absence of ALTERNATIVE OXIDASE1ain Arabidopsis Results in Acute Sensitivity to Combined Light and Drought Stress. Plant Physiology, June 2008, Vol. 147, pp. 595–610.(研究呼吸和呼吸途径

    25 Oliver SN.  Decreased Expression of Cytosolic Pyruvate Kinase in Potato Tubers Leads to a Decline in Pyruvate Resulting in an in Vivo Repression of the Alternative Oxidase. Plant Physiology, 2008, 148: 1640–1654.(研究呼吸途径

    26 Zhang LT, Zhang ZS, Gao HY. The mitochondrial alternative oxidase pathway protects the photosynthetic apparatus against photodamage in Rumex K-1 leaves. BMC Plant Biology, 2012. (研究呼吸途径

    27 Zhang LT, Zhang ZS, Gao HY. Mitochondrial alternative oxidase pathway protects plants against photoinhibition by alleviating inhibition of the repair of photodamaged PSII through preventing formation of reactive oxygen species in Rumex K-1 leaves. Physiologia Plantarum 143: 396–407. 2011 (研究呼吸途径,类囊体活性)

    28 Allahverdiyeva Y, Aro E. Insights into the function of PsbR protein in Arabidopsis thali. BBA, 2007, 677-685(研究光系统中 PSII 的活性)

    29 Yao HJ, Gao RF, Xu BJ. Isolation of lipids from photosystem I complex and its characterization with high performance liquid chromatography/electrospray ionization mass spectrometry. Journal of Chromatography B, 837 (2006) 101–107(研究光系统中 PSI 的活性)

    30王春梅, 施定基, 朱水芳黄瓜花叶病毒对烟草叶片和叶绿体光合活性的影响植物学报, 2000,44(2), 388-392.(研究光系统的活性)

    31 El-Lithy ME, Rordigues GC. Altered photosynthetic performance of a natural Arabidopsis accession is associated with atrazine resistance. Journal of Experimental Botany, Vol. 56, No. 416, pp. 1625–1634, June 2005(研究光系统中 PSII 的活性)

     

     

     

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