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Search Results: 1 - 10 of 22538 matches for " Kuang Ting-yun "
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The Lipid-protein Interaction in Chloroplast Thylakoid Membrane
叶绿体类囊体膜脂-膜蛋白的相互作用

Chen Zhi-qiang,Xu Chun-hui,Kuang Ting-Yun,
陈志强
,许春辉,匡廷云

植物学报 , 1994,
Abstract:
Book Review: Pacon Ke: Photosynthesis-Photons, Excitons, Electrons, Protons, Ions and Their Interactions With Photosynthetic Membrane
评葛培根编著:《光合作用——光手、激子、电子、质子、离手与光合膜之间的相互作用》

Tang Pei-song,Dai Yun-ling,Kuang Ting-yun,
汤佩松
,戴云玲,匡廷云

植物学报 , 1992,
Abstract:
Effects of the Rising CO2 Levels on Photosynthesis
大气CO2浓度升高对光合作用的影响

Zhang Qi-de,Lu Cong-ming,Kuang Ting-yun,
张其德
,卢从明,匡廷云

植物学报 , 1992,
Abstract:
Global Climate Change and Rice
全球气候变化与水稻

Lin Wei-hong,Bai Ke-zhi,Kuang Ting-yun,
林伟宏
,白克智,匡廷云

植物学报 , 1995,
Abstract:
Freezing Hardiness in Alpine Plants
高山植物的抗寒抗冻特性

LU Cun-Fu,JIAN Ling-Cheng,KUANG Ting-Yun,
卢存福
,简令成,匡廷云

植物学报 , 1998,
Abstract: Living conditions for plants in the mountains, become increasingly less favorable with increasing altitude. In the alpine region, the plants are commonly exposed to daily rather than seasonal temperature fluctuations and by frequent freezing temperature. Alpine plants as compared with general plain plants, possess special acclimation mechanisims that allow them to survive freezing temperatures. Adaptation mechanisms of photosynthesis and respiration to freezing stress for alpine plants are reviewed in this paper. Contrasting physiological and morphological adaptations related to the avoidance or tolerance of tissue-freezing have been described and discussed in plants growing in geographically isolated regions of the high-elevation, where nocturnal freezing temperatures may occur thoughout the year.
Effect of Water Stress on The Photosynthetic Electron Transport of Mesophyll Cells of Ipomonea Betatas
水分胁迫对甘薯叶肉细胞光合电子传递的影响

Lu Cong-ming,Zheng Qi-de,Kuang Ting-yun,Gao Yu-zhu,
卢从明
,张其德,匡廷云

植物学报 , 1994,
Abstract: Water stress, induced by adding polyethyleneglycol (PEG) 6000, reduced the rate of CO2-dependent O2 evolution.In the Presence of uncoupling reagents water stress had little effect on the photosynthetic electron transport in mesophyll cells of Iwpoea batatas, but in the absence of uncoupling reagents it promoted the electron transport and displayed pronounced uncoupling effect. Water stress iujured the structure of chloroplast coupling factor, inhibited ATP synthesis, deplayed the photosynthetic lag phase of mesophyll cells of Impoea batatas.
Transformation of Potato Plants Via Agrobacterium and Gene Engineering for Virus Resistance
农杆菌转化马铃薯与抗病毒基因工程

Yang Wen-yu Song,Yan-ru,Kuang Ting-yun,
杨文玉
,宋艳茹,匡廷云

植物学报 , 1993,
Abstract:
Recent Advances of Studies on the Structure and Function of the Light_harvesting Chlorophyll A/B-Protein Complex
高等植物光系统Ⅱ捕光色素蛋白复合体结构与功能研究的新进展

SUN Qin-Miao,LENG Jing,LI Liang-Bi,KUANG Ting-Yun,
孙钦秒
,冷静,李良璧,匡廷云

植物学报 , 2000,
Abstract: Recent advances of studies on the structure and function of the light-harvesting chlorophyll-protein complex from photosystem II in higher plants were presented on the basis of systematic nomenclature, and the problems in the study were discussed.
Effects of CO2 enrichment on rice photosynthesis,transpiration and water use efficiency
大气CO2增加对水稻光合、蒸腾及水分利用率的影响

Lin Wei-hong,Bai Ke-zhi,Kuang Ting-yun,
林伟宏
,白克智,匡廷云

中国生态农业学报 , 1996,
Abstract: 本研究采用开顶式培养室对两个水稻品种矮香糯(O.sativa var.aixiangnuo)和安农S(O.satica var. anong-S) 在模拟大气CO2浓度升高环境中叶片光合速率、蒸腾速率及水分利用率的变化作了初步研究。结果表明 ,生长在650±30mg.kg-1CO2浓度下的水稻其光合速率、水分利用率提高,蒸腾速率降低 ,气孔阻力增加,且品种间差异极显著。
Energy transfer in core complex of PSII by femtosecond fluorescence spectra technique
PSII核心复合物能量传递的飞秒时间分辩荧光光谱学研究

Liu Xiao,Wang Shui-cai,He Jun-fang,Peng Ju-fang,Kuang Ting-yun,
刘晓
,王水长,贺俊芳,彭菊芳,匡廷云

生物物理学报 , 2004,
Abstract: Exicitation energy transfer in the core complex of PSII was studied by femtosecond fluorescence spectra technique,
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