[1]Bouman B A M. A conceptual framework for the improvement of crop water productivity at different spatial scales. Agricultural Systems, 2007, 93: 43-60.[2]Bouman B A M, Tuong T P. Field water management to save water and increase its productivity in irrigated lowland rice. Agricultural Water Management, 2001, 49: 11-30.[3]Belder P, Bouman B A M, Cabangon R, Guoan L, Quilang E J P, Li Y, Spiertz J H J, Tuong T P. Effect of water-saving irrigation on rice yield and water use in typical lowland conditions in Asia. Agricultural Water Management, 2004, 65: 193-210.[4]Belder P, Spiertz J H J, Bouman B A M, Lu G, Tuong T P. Nitrogen economy and water productivity of lowland rice under water-saving irrigation. Field Crops Research, 2005, 93: 169-185.[5]Tuong T P, Bouman B A M, Mortimer M. More rice, less water-integrated approaches for increasing water productivity in irrigated rice-based systems in Asia. Plant Production Science, 2005, 8: 231-241.[6]朱庆森, 曹显祖, 骆亦奇. 水稻籽粒灌浆的生长分析. 作物学报, 1988, 14(3): 182-193.Zhu Q S, Cao X Z, Luo Y Q. Growth analysis on the progress of grain filling in rice. Acta Agronomica Sinica, 1988, 14(3): 182-193. (in Chinese) [7]Iwasaki Y, Mae T, Makino A, Ohira K, Ojima K. Nitrogen accumulation in the inferior spikelet of rice ear during ripening. Soil Science and Plant Nutrition, 1992, 38: 517-525.[8]Umemoto T, Nakamura Y, Ishikura N. Effect of grain location on the panicle on activities involved in starch synthesis in rice endosperm. Phytochemistry, 1994, 36: 843-847.[9]Yang J C, Liu K, Wang Z Q, Du Y, Zhang J H. Water-saving and high-yielding irrigation for lowland rice by controlling limiting values of soil water potential. Journal of Integrative Plant Biology, 2007, 49: 1445-1454.[10]Zhang H, Zhang S F, Zhang J H, Yang J C, Wang Z Q. Postanthesis moderate wetting drying improves both quality and quantity of rice yield. Agronomy Journal, 2008, 100: 726-734.[11]Zhang H, Chen T T, Wang Z Q, Yang J C, Zhang J H, Involvement of cytokinins in the grain filling of rice under alternate wetting and drying irrigation. Journal of Experimental Botany, 2010, 61(13): 3719-3733.[12]Tabbal D F, Bouman B A M, Bhuiyan S I, Sibayan E B, Sattar M A. On-farm strategies for reducing water input in irrigated rice: case studies in the Philippines. Agricultural Water Management, 2002, 56: 93-112.[13]喻娟娟, 戴绍军. 植物蛋白质组学研究若干重要进展. 植物学报, 2009, 44 (4): 410-425.Yu J J, Dai S J. Research advances in plant proteomics. Chinese Bulletin of Botany, 2009, 44(4): 410-425. (in Chinese)[14]Richards F J. A flexible growth function for empirical use. Journal of Experimental Botany, 1959, 10: 290-300.[15]Nordhoff E, Egelhofer V, Giavalisco P, Eickhoff H, Horn M, Przewieslik T, Theiss D, Schneider U, Lehrach H, Gobom J. Large-gel two-dimensional electrophoresis-matrix assisted laser desorption/ ionization-time of flight-mass spectrometry: An analytical challenge for studying complex protein mixtures. Electrophoresis, 2001, 22(14): 2844-2855.[16]Bradford M M. A rapid and sensitive method for the quantization of microgram quantities of protein using the principle of protein-dye binding. Analytical Biochemistry, 1976, 72: 248-254.[17]Bouley J, Chambon C, Pieard B. Mapping of bovine skeletal musele proteins using two-dimensional gel electrophoresis and mass spectrometry. Proteomics, 2004, 4(6): 1811-1824.[18]贾永光, 张立军, 刘淳, 宋超, 崔震海, 朱延姝. 丙酮酸磷酸双激酶及其基因结构. 植物生理学通讯, 2009, 45(3): 305-311.Jia Y G, Zhang L J, Liu C, Song C, Cui Z H, Zhu Y S. Pyruvate orthophosphate dikinases and their gene structure. Plant Physiology Communications, 2009, 45(3): 305-311. (in Chinese)[19]Serdler A. The extrinsic polypeptides of photosystem II. Biochimica et Biophysica Acta,1996, 1277: 35-60.[20]Danshina P V, Schmalhausen E V, Avetisyan A V, Muronetz V I. Mildly oxidized glyceraldehydes-3-phosphate dehydrogenase as a possible regulator of glycolysis. IUBMB Life, 2001, 51: 309-314.[21]郭春芳, 孙云, 赖呈纯, 张木清. 聚乙二醇胁迫下茶树叶片的蛋白质组分析. 茶叶科学, 2009, 29(2): 79-88.Guo C F, Sun Y, Lai C C, Zhang M Q. Proteomic analysis of tea leaf under polyethylene glycol Stress. Journal of Tea Science, 2009, 29(2): 79-88. (in Chinese)[22]Riccardi F, Gazeau P, Vienne D, Zivy M. Protein changes in response to progressive water deficit in maize: quantitative variation and polypeptide identification. Plant Physiology, 1998, 117: 1253-1263.[23]赵敏. 水稻两优培九不同氮素处理叶片和籽粒蛋白质组学研究[D]. 福建: 福建农林大学, 2008: 48-50.Zhao M. Proteomic analysis on leaf and grain in different nitrogen treatments of the rice Liangyoupeijiu[D]. Fujian: Fujian Agiculture and Forestry University, 2008: 48-50. (in Chinese)[24]Tarczynski M C, Jensen R G, Bohnert H J. Stress protection of transgenic tobacco by production of the osmolyte mannitol. Science, 1993, 259: 508-510.[25]Everard J D, Gucci R, Kann S C, Flore J A, Loescher W H. Gas exchange and carbon partitioning in the leaves of celery(Apium graveolens L.) at various levels of root zone salinity. Plant Physiology, 1994, 106: 281-292.[26]Dinges J R, Colleoni C, James M G, Myers A M. Mutational analysis of the pullulanase-type debranching enzyme of maize indicates multiple functions in starch metabolism. Plant Cell, 2003, 15: 666-680.[27]宁文彬, 刘菊华, 贾彩红, 徐碧玉, 金志强. 香蕉果实采后乙醇脱氢酶活性与乙烯代谢的关系. 果树学报, 2009, 26(3): 386-389.Ning W B, Liu J H, Jia C H, Xu B Y, Jin Z Q. Study on the relationship between activity of alcohol dehydrogenase and ethylene metabolism for postharvest banana fruit. Journal of Fruit Science, 2009, 26(3): 386-389. (in Chinese)[28]Mayne M B, Coleman J R, Bluwald E. Differential expression during drought conditioning of a root-specific S-adnosylmethionine synthetase from jack pine (Pinus banksiasna Lamb.) seedling. Plant Cell and Environment, 1996, 19: 958-966.[29]刘进元, 吴雪萍. 植物磷酸化蛋白质组学的研究进展. 中国农业科技导报, 2007, 9(4): 43-48. Liu J Y, Wu X P. Research progress on plant phosphoproteomics. Journal of Agricultural and Science Technology, 2007, 9(4): 43-48. (in Chinese)[30]曾富华, 罗泽民. 赤霉素对杂交水稻生育后期剑叶中活性氧清除剂的影响. 作物学报, 1994, 20(3): 347-350.Zeng F H, Luo Z M. The effects of gibbereliic acid (GA3) on the factors scavenging active oxygens in the flag leaves of hybrid rice during the later growth stages. Acta Agronomica Sinica, 1994, 20(3): 347-350. (in Chinese)[31]张志兴, 李忠, 陈军, 李奇松, 陈龙怀, 陈鸿飞, 黄锦文, 林文雄. 氮肥运筹对大穗型水稻品种金恢809灌浆期叶片蛋白质表达的影响. 作物学报, 2011, 37(5): 842-854.Zhang Z X, Li Z, Chen J, Li Q S, Chen L H, Chen H F, Huang J W, Lin W X. Effects of nitrogen management on protein expression of flag leaves during grain-filling period in large panicle rice (Oryza sativa L.). Acta Agronomica Sinica, 2011, 37(5): 842-854. (in Chinese)[32]任洪林, 柳增善, 王克坚. 鲍免疫相关基因和蛋白的研究进展. 遗传, 2009, 31(4): 348-358.Ren H L, Liu Z S, Wang K J. Progresses on immune-related genes and proteins of abalones. Hereditas, 2009, 31(4): 348-358. (in Chinese)[33]李波, 倪志勇, 王娟, 吕萌, 范玲. 木质素生物合成关键酶咖啡酸-O-甲基转移酶基因(COMT)的研究进展. 分子植物育种, 2010, 1(8): 117-124.Li B, Ni Z Y, Wang J, Lv M, Fan L. Advances on key enzyme gene (COMT) involved in lignin biosynthesis. Molecular Plant Breeding, 2010, 1(8): 117-124. (in Chinese)[34]Boerjan W, Ralph J, Baucher M. Lignin biosynthesis. Annual Review of Plant Biology, 2003, 54(1): 519-546.[35]Zhang H, Li H W, Yuan L M, Wang Z Q, Yang J C, Zhang J H. Post-anthesis alternate wetting and moderate soil drying enhances activities of key enzymes in sucrose-to-starch conversion in inferior spikelets of rice. Journal of Experimental Botany, 2012, 63: 215-227.[36]Yang J C, Zhang J H, Liu K, Wang Z Q, Liu L J. Abscisic acid and ethylene interact in wheat grains in response to soil drying during grain filling. New Phytologist, 2006, 271: 293-303.[37]Janssen E, Dzeja P P, Oerlemans F, Simonetti A W, Heerschap A, de Haan A, Rush P S, Terjung R R, Wieringa B, Terzic A . Adenylate kinase1 gene deletion disrupts muscle energetic economy despite metabolic rearrangement. EMBO Journal, 2000, 19: 63-71.[38]Tjaden J, Mohlmann T, Kampfenkel K, Henrichs G, Neuhaus E, Tjaden J, Mohlmann T, Kampfenkel. Altered plastidic ATP/ADP- transporter activity influences potato(Solanum tuberosum L.) tuber morphology, yield and composition of tuber starch. The Plant Journal, 1998, 16(5): 531-540.[39]Simon M I, Strathmann M P, Gautanm N. Diversity of G proteins in signal transduction. Science, 1991, 252: 802-808.[40]Masaru N, Yayoi W, Yoko S, Yuka H, Masahiro M, Yohsuke T, Toshio S. Germin-like protein gene family of a moss. Physcomitrella patens, phylogenetically falls into two characteristic new clades. Plant Molecular Biology,2004, 56: 381-395.[41]Mo L, Ying P H, Ji G G, Xiang J W, Wen B L. Identification and analysis of the germin-like gene family in soybean. BMC Genomics, 2010, 11(620): 1-15. |