Photophysical characterization of the B800-depleted light harvesting complex B850 of Rhodobacter sphaeroides Implications to the ultrafast energy transfer 800 -> 850 nm

D. Leupold; H. Stiel; J. Ehlert; F. Nowak; K. Teuchner; B. Voigt; M. Bandilla; B. Ucker; H. Scheer

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Photophysical characterization of the B800-depleted light harvesting complex B850 of Rhodobacter sphaeroides Implications to the ultrafast energy transfer 800 -> 850 nm

机译：球形红球菌耗尽B800的光收集复合物B850的光物理特征对超快能量转移800-> 850 nm的影响

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From the isolated LH2 antenna of Rhodobacter sphaeroides, called B800-850, the bacteriochlorophyll a pigment complement BChl-B800, mainly responsible for the 800 nm absorption band, has been extracted. The remaining complex, with the main NIR absorption peaking at 850 nm (termed pure (p) B850), has a small but distinct sideband in the 800 nm region and contributes there about 20% to the total absorption of the integral B800-850 antenna. In the latter the energy transfer 800 -> 850 nm is per se (at least) biphasic with the pB850 intra-aggregate relaxation as the fastest component known so far (k approx= 10~(13) s~(-1)).

机译：从球形球形红细菌分离的LH2天线（称为B800-850）中提取了主要负责800 nm吸收带的细菌叶绿素a色素补体BChl-B800。其余的复合物，其主要NIR吸收在850 nm处达到峰值（称为纯（p）B850），在800 nm区域具有较小但截然不同的边带，并在其中贡献了约800％的整体B800-850天线。在后者中，能量转移800-> 850 nm本身（至少）是两相的，而pB850聚集体内部弛豫是迄今为止已知的最快成分（k大约= 10〜（13）s〜（-1））。

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《Chemical Physics Letters》 |1999年第6期|共9页
作者
D. Leupold; H. Stiel; J. Ehlert; F. Nowak; K. Teuchner; B. Voigt; M. Bandilla; B. Ucker; H. Scheer;
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中图分类物理化学（理论化学）、化学物理学;
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1. Photophysical characterization of the B800-depleted light harvesting complex B850 of Rhodobacter sphaeroides Implications to the ultrafast energy transfer 800 -> 850 nm [J] . D. Leupold, H. Stiel, J. Ehlert, Chemical Physics Letters . 1999,第5a6期

机译：球形红球菌耗尽B800的光收集复合物B850的光物理特征对超快能量转移800-> 850 nm的影响
2. Determination of the Molar Extinction Coefficients of the B800 and B850 Absorption Bands in Light-harvesting Complexes 2 Derived from Three Purple Photosynthetic Bacteria Rhodoblastus acidophilus, Rhodobacter sphaeroides, and Phaeospirillum molischianum by Extraction of Bacteriochlorophyll a [J] . Yoshitaka SAGA, Keiya HIROTA Analytical Sciences . 2016,第7期

机译：提取细菌性叶绿素a测定三种紫色光合细菌嗜酸红球菌，球形红球菌和软体螺旋藻的采光复合物2中B800和B850吸收带的摩尔消光系数
3. Cloning, nucleotide sequence and transfer of genes for the B800–850 light harvesting complex of Rhodobacter sphaeroides [J] . Ashby Mark K., Coomber Shirley A., Hunter C.Neil FEBS Letters . 1987,第2期

机译：球形球形红球菌B800-850光收集复合物的克隆，核苷酸序列和基因转移
4. HISTIDINES PROBE SUPRAMOLECULAR INTERACTION OF B850 COFACTORS IN LIGHT-HARVESTING COMPLEX II [C] . Ido de Boer, Peter Gast, Jorg Matysik, International Congress of Photosynthesis . 2005

机译：组氨酸探针B850辅助剂在光收获综合体中的超分子相互作用II
5. Temperature dependence of electron transfer in photosynthetic reaction centers from Rhodobacter sphaeroides: Trapping and characterization of conformational substates. [D] . Xu, Qiang. 2001

机译：球形球形红细菌在光合作用中心的电子转移的温度依赖性：构象亚型的捕获和表征。
6. Femtosecond dynamics of energy transfer in B800-850 light-harvesting complexes of Rhodobacter sphaeroides. [O] . J K Trautman, A P Shreve, C A Violette, 1990

机译：飞秒级球形红细菌B800-850采光复合物中能量转移的飞秒动力学。
7. Light harvesting by carotenoids incorporated into the B850 light-harvesting complex from Rhodobacter sphaeroides R-26.1: Excited-state relaxation, ultrafast triplet formation, and energy transfer to bacteriochlorophyll [O] . Papagiannakis E., Das S.K., Gall A., 2003

机译：球形红球菌R-26.1掺入B850采光复合物中的类胡萝卜素进行的光收集：激发态弛豫，超快三重态形成和能量转移至细菌叶绿素
8. Studies of Structure and Dynamics of Light Harvesting Complex 1 of R. Sphaeroides by Solid State NMR. [R] . McDermott, A. E. 2014

机译：固态核磁共振研究R. sphaeroides光捕获复合物1的结构和动力学。

Photophysical characterization of the B800-depleted light harvesting complex B850 of Rhodobacter sphaeroides Implications to the ultrafast energy transfer 800 -> 850 nm

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