Embedding carotenoids of spheroidene-branch biosynthesis into antenna complexes of sulfur photosynthetic bacteria

Ashikhmin A. A.; Makhneva Z. K.; Bolshakov M. A.; Shastik E. S.; Moskalenko A. A.

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Embedding carotenoids of spheroidene-branch biosynthesis into antenna complexes of sulfur photosynthetic bacteria

机译：将球蛋白分支生物合成的类胡萝卜素嵌入硫光合细菌的天线复合物中

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The possibility of embedding the carotenoids of spheroidene-branch biosynthesis (spheroidene and spheroidenone) from non-sulfur bacteria into the diphenylamine antenna complexes (DPA-complexes) from the sulfur bacteria Allochromatium minutissimum and Ectothiorhodospira haloalkaliphila with carotenoid synthesis inhibited by diphenylamine (DPA) was studied for the first time. It was found that spheroidene was embedded into the DPA-complexes from these bacteria at a level of 75-87%, with spheroidene embedding efficiency being 41-68% for the LH1-RC DPA-complexes and 71-89% for the LH2 DPA-complexes. The energy transfer efficiency from carotenoids to bacteriochlorophyll was shown to depend not only on the type of carotenoid but also on the very structure on the antenna complex.

机译：将非硫细菌中的椭球体分支生物合成类胡萝卜素（球体和球体烯酮）嵌入到硫细菌异绿变色菌和电子烟曲霉螺旋藻卤代碱中的二苯胺触角络合物（DPA-络合物）与类胡萝卜素二苯胺（DPA）抑制了苯二酚对苯二酚合成的抑制作用第一次学习。结果发现，从这些细菌中将球状体埋入DPA-复合物中的比例为75-87％，其中LH1-RC DPA复合物的球状体包埋效率为41-68％，LH2 DPA中的球状体包埋效率为71-89％ -复杂。从类胡萝卜素到细菌叶绿素的能量转移效率不仅取决于类胡萝卜素的类型，还取决于天线复合体的结构。

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《Doklady biochemistry & biophysics》 |2016年第mayajuna期|176-179|共4页
作者
Ashikhmin A. A.; Makhneva Z. K.; Bolshakov M. A.; Shastik E. S.; Moskalenko A. A.;
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Russian Acad Sci, Inst Basic Biol Problems, Ul Inst Skaya 2, Pushchino 142290, Moscow Oblast, Russia;

Russian Acad Sci, Inst Basic Biol Problems, Ul Inst Skaya 2, Pushchino 142290, Moscow Oblast, Russia;

Russian Acad Sci, Inst Basic Biol Problems, Ul Inst Skaya 2, Pushchino 142290, Moscow Oblast, Russia;

Russian Acad Sci, Inst Basic Biol Problems, Ul Inst Skaya 2, Pushchino 142290, Moscow Oblast, Russia;

Russian Acad Sci, Inst Basic Biol Problems, Ul Inst Skaya 2, Pushchino 142290, Moscow Oblast, Russia;

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1. Effect of illumination intensity and inhibition of carotenoid biosynthesis on assembly of peripheral light-harvesting complexes in purple sulfur bacteria Allochromatium vinosum ATCC 17899 [J] . Bolshakov M. A., Ashikhmin A. A., Makhneva Z. K., Microbiology . 2016,第4期

机译：光照强度和类胡萝卜素生物合成的抑制作用对紫色硫细菌异色菌ATCC 17899周围集光复合体组装的影响
2. Low-temperature fluorescence from single chlorosomes, photosynthetic antenna complexes of green filamentous and sulfur bacteria [J] . Shibata Y, Saga Y, Tamiaki H, Biophysical Journal . 2006,第10期

机译：来自单个氯脂质体，绿色丝状和硫细菌的光合天线复合物的低温荧光
3. Rhodopseudomonas acidophila strain 10050 contains photosynthetic LH2 antenna complexes that are not enriched with phosphatidylglycerol, and the phospholipids have a fatty acyl composition that is unusual for purple non-sulfur bacteria [J] . Nicholas J. Russell, Julie K. Coleman, Tina D. Howard, Biochimica et biophysica acta. Bioenergetics . 2002,第2a3期

机译：嗜酸红假单胞菌菌株10050包含不富含磷脂酰甘油的光合作用LH2天线复合物，并且磷脂具有脂肪酰基组成，这对于紫色非硫细菌而言是不寻常的
4. CHLOROPHYLL AND CAROTENOID BIOSYNTHESIS IN GREEN SULFUR BACTERIA: A. GENOMIC PERSPECTIVE [C] . Donald A. Bryant, Niels-Ulrik Frigaard, Julia A. Maresca, International Congress of Photosynthesis . 2005

机译：绿色硫酸细菌中叶绿素和类胡萝卜素生物合成：A。基因组视角
5. Discovery, biosynthesis and evolutionary history of sioxanthin, a novel glycosylated carotenoid from marine bacteria Salinispora [D] . Richter, Taylor Kristen Stratton 2014

机译：氧黄素的发现，生物合成和进化史，它是一种来自海洋细菌Salinispora的新型糖基化类胡萝卜素
6. Low-Temperature Fluorescence from Single Chlorosomes Photosynthetic Antenna Complexes of Green Filamentous and Sulfur Bacteria [O] . Yutaka Shibata, Yoshitaka Saga, Hitoshi Tamiaki, 2006

机译：绿丝状和硫细菌的单染色体光合天线复合物的低温荧光
7. Energies and excited-state dynamics of the 1Bu+, 1Bu– and 3Ag– states of carotenoids bound to LH2 antenna complexes from purple photosynthetic bacteria [O] . Christiana Rebecca, Rebecca Christiana 2009

机译：类胡萝卜素的1Bu +，1Bu-和3ag-状态的能量和激发态动力学与紫色光合细菌的LH2天线复合物结合
8. CAROTENOID BIOSYNTHESIS IN PHOTOSYNTHETIC BACTERIA AND HIGHER PLANTS [R] . T. W. GOODWIN 1963

机译：光合细菌和高等植物的类胡萝卜素生物合成

Embedding carotenoids of spheroidene-branch biosynthesis into antenna complexes of sulfur photosynthetic bacteria

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