中科院物理研究所翁羽翔研究员学术报告会通知
| 报告名称 | 光合膜蛋白结构变化对光合系统高效储能和传能功能调节的超快光谱研究 | 报告人 | 翁羽翔 |
| 报告时间 | 2014年3月20日(周四)上午10:00-11:30 | 地点 | 图书馆中心会议室 |
| 报告类别 | 化学 | 时长 | 1.5小时 |
| 报告内容介绍 | 光合细菌捕光天线色素蛋白复合体LH2是研究光合系统高效吸能和储能的重要模式蛋白. 晶体结构表明, LH2 具有C9对称的圆环状结构.叶绿素分子组成两个色素环,其中一个色素环由单体叶绿素分子构成,吸收光谱位于800 nm;另一个由9对叶绿素二聚体分子构成,吸收光谱在850 nm. 理论研究表明该特殊的细菌叶绿素平面环状结构保证了LH2具有高效吸能和传能的功能. 然而在某些光合细菌生物体中,LH2分布在直径约30-60 nm 的囊泡膜内,由于光合膜的弯曲作用,可能会引起LH2在光合膜上的椭圆畸变,导致传能效率降低。我们通过将LH2与一系列直径不等的SiO2 纳米粒子进行组装,模拟LH2在囊泡上的结构畸变。理论推导和飞秒光谱实验研究均表明当囊泡的直径大于LH2的直径,膜蛋白上的LH2 不发生椭圆畸变,揭示了物理化学规律在生物体内被很好地遵守。 | ||
| 报告人 介绍 | 翁羽翔研究员 翁羽翔,1964年,4月5日出生,中国科学院物理研究所研究员。 85年及88年毕业于华东师范大学化学系,分别获学士和硕士学位。93年获中科院物理所光学博士学位。94-99年分别在香港大学和美国Emory大学从事博士后研究, 99年入选中国科学院物理研究所“百人计划”。 2000,9为物理所研究员,2004,1为软物质物理实验室SM06组课题组长。2009年获国家“杰出青年基金”支持。 长期从事超快时间分辨激光光谱的研究工作,回国后主持建立纳秒时间分辨瞬态可见光光谱测量系统、建成了国际先进水平的飞秒时间分辨瞬态吸收光谱仪,并研制成功飞秒光参量放大器,进一步将150飞秒的激光脉宽压缩到19飞秒。主持国家自然科学重点项目“准单光子放大技术及其在生命科学和遥感测量研究中的应用”,实现了非相干荧光光子的激光放大,直接测量发光材料的可见和近红外飞秒时间光谱, 并实现了量子点飞秒时间分辨的光谱及在流子驰豫动力学的测量。特别是时间分辨中红外激光光谱,立足国内的自主知识产权技术(中红外激光器对中国禁运),建立了能够测定半导体晶格内及束缚态载流子的驰豫动力学的探测设备, 为研究半导体材料的特性提供了有力的手段。 研究方向主要集中在以下几个方向:光合系统及人工模拟系统的能量与电荷转移过程超快光谱研究;蛋白质快速折叠动力学脉冲升温-时间分辨中红外光谱研究及超快光谱新方法探索。在国际/国内核心期刊 (J. Am. Chem. Soc., Phys. Rev. Letter, Biophysical Journal, J. Phys. Chem., Applied. Phys. Letter, J. Optical Soc. Am. B)上发表论文60多余篇。 部分发表论文清单(第一或通讯作者) 1.H. Li, H. Ke, G. Ren, X. Qiu, Y. X. Weng and C.-C.Wang,Thermal-Induced Dissociation and Unfolding of Homodimeric D**C Revealed by Temperature-Jump Time-Resolved Infrared Spectra, Biophysical Journal,, 2009,(97) 2811–2819. 2.Y. Wang, H. Chen, H. Wu, X. Li, and Y. Weng, Fluorescence Quenching in a Perylenetetracarboxylic Diimide Trimer. J. Am. Chem. Soc., 2009, 131 (1), 30-31 3.Y.-Q. Hao, Y.-F. Wang, and Y.-X. Weng, Particle-Size-Dependent Hydrophilicity of TiO2 Nanoparticles Characterized by Marcus Reorganization Energy of Interfacial Charge Recombination. J. Phys. Chem. C 2008, 112, 8995–9000. 4.X.-F. Han, X.-H.Chen, Y.-X.Weng, Jing-Yuan Zhang, Ultra-sensitive femtosecondtime-resolved fluorescence spectroscopy for relaxation processes by using parametric amplification, Journal of Optical Society of America B, 2007, 24(7), 1633-1638. 5.M. Ye, Q.-L. Zhang, H. Li, Y.-X. Weng, W.-C. Wang, X.-G. Qiu, IR Spectroscopic Discrimination between the Loop and α-Helices and Determination of the Loop Diffusion Kinetics by T-jump Time-Resolved IR Spectroscopy for Cytochrome c, Biophysical Journal, 2007, 93, 2756-2766. 6.L.-C. Du, Y. X. Weng. Photoinduced Charge Recombination at Dye-sensitized Individual TiO2 Nanoparticle and Its Application in Probe for the Local Polarity Change around the Nanoparticle in Solution. J. Phys. Chem. C 2007, Vol. 111, 4567-4577. 7.H. Zhao, Q. L. Zhang, Y. X. Weng. Deep Surface Trap Filling by Photoinduced Carriers and Interparticle Electron Transport Observed in TiO2 Nanocrystalline Film with Time-resolved Visible and Mid-IR Transient Spectroscopies, J. Phys. Chem. C 2007,Vol. 111, 3762-3769. 8.Chen, X H.; Han, XF.; Weng, YX.; Zhang J. Y. Transient Spectrometer for Near-IR Fluorescence Based on Parametric Frequency Up-Conversion, Applied Physics Letter 2006, 89, 061127. 9.Xing-hai Chen, Lei Zhang, Yu-Xiang Weng, Lu-Chao Du, Man-Ping Ye, Guo-Zhen Yang, Ritsuko Fujii, Ferdy S. Rondonuwu, Yasushi Koyama, Yi-Shi Wu, J. P. Zhang. Protein Structural Deformation Induced Lifetime Shortening of Photosynthetic Bacteria Light-Harvesting Complex LH2 Excited State. Biophysical Journal, 2005, 88, 4262-4273. 10.Qing-Li Zhang, Lu-Chao Du, Yu-Xiang Weng, Li Wang, Han-Yuan Chen, and Jian-Qi Li. Size-dependent distribution of carboxylate adsorption sites on TiO2 Nanoparticle Surface: Insights into the Surface Modification of Nanostructured TiO2 Electrodes, J. Phys. Chem. B 2004, 108,15077-15083. 11..Lei Zhang, Jian Yang, Li Wang, Guo-Zhen Yang, Yu-Xiang Weng,Direct Observation of Interfacial Charge Recombination to the Excited-Triplet State in All-trans-Retinoic Acid Sensitized TiO2 Nanoparticle by Femtosecond Time-Resolved Difference Absorption Spectroscopy, J. Phys. Chem. B 2003, 107, 13688-13697. 12.Yu-Xiang Weng, Long Li, Yin Liu, Li Wang, Guo-Zhen Yang, Surface Binding Forms of Carboxylic Group on Nano-particulate TiO2 Surface Studied by the Interface-sensitive Transient Triplet-state Molecular Probe, J. Phys. Chem. B 2003, 107, 4356-4363. 13.Yu-Xiang Weng, Long Li, Yin Liu, Li Wang, Guo-Zhen Yang, Jian-Qun Sheng, Interfacial charge recombination via the triplet state? Mimicry of photoprotection in photosynthetic process with a dye-sensitized TiO2 solar cell reaction. Chem. Phys. Lett. 2002,355, 294-300. 14. Yu-Xiang Weng, Hong Xiao, Kwok-Chiu Chan, Chi-Ming Che, Direct Observation of Mass Transfer at Solid-liquid Interface by Laser Flash Photolysis of the Interface Probe Molecules , J. Phys. Chem. B , 2000,104 (32), 7713-7724. 15. Yuxiang Weng, Yong-Qiang Wang, John B. Ashury, Hiren N. Gosh, and Tianquan Lian, Back Electron Transfer from TiO2 Nanoparticles to FeIII(CN)63-: Origin of Non-Single-Exponential and Particle Size Independent Dynamics, J. Phys. Chem. B. 2000,104,93-104. 16.Hirindra, N. Ghosh, John, B. Ashbury, Yuxiang Weng, Tianquan Lian, Interfacial Electron Transfer between Fe(II)(CN)-46 and TiO2 nanoparticle: Direct Electron Injection and nonexponential recombination, J. Phys. Chem. B. 1998, 102,10208-10215. | ||
