藻胆蛋白生物合成研究进展  被引量：9

作　　者：马丞博 秦松[1] 李文军[1] 葛保胜 Chenbo Ma;Song Qin;Wenjun Li;Baosheng Ge(Yantai Institute of Coastal Zone Research,Chinese Academy of Sciences,Yantai 264003,China;College of Life Sciences,Yantai University,Yantai 264005,China;Center for Bioengineering and Biotechnology,China University of Petroleum (East China),Qingdao 266580,China)

机构地区：[1]中国科学院烟台海岸带研究所,烟台264003 [2]烟台大学生命科学学院,烟台264005 [3]中国石油大学(华东)化学工程学院生物工程与技术中心,青岛266580

出　　处：《科学通报》2019年第1期49-59,共11页Chinese Science Bulletin

基　　金：国家海洋经济创新发展示范项目(海洋经济发展创新示范城市启动资金)(YHCX-SW-Y-201701);国家重点研发计划政府间科技创新合作重点专项(2016YFE0106700)资助

摘　　要：藻胆蛋白作为藻类特殊的捕光色素蛋白复合体,有着独特的结构和功能.目前藻胆蛋白主要有2个来源:一是直接从天然藻体中分离提取;二是将合成藻胆蛋白的基因转到基因工程宿主中,通过体外重组方法获得.通过从天然藻体提取藻胆蛋白不但生产成本较高,而且副产物较多.通过体外重组来实现藻胆蛋白的生产不仅可以降低经济和时间成本,而且可以对藻胆蛋白的生物合成过程进行研究.此外,通过体外重组获得具有光学活性的藻胆蛋白时,可以添加不同的分子标签,从而拓展藻胆蛋白的应用范围.本文对藻胆蛋白的体内生物合成和体外重组研究的最新进展做了综述.Photosynthesis has existed on the earth for about 4 billion years, and the photosynthetic organisms have emerged with the production of photosynthesis. In order to effectively capture light energy and adapt their living environment, algae and higher plants have evolved different light-harvesting antenna systems during the long evolution, one is the chlorophyll based light harvesting systems present mainly in terrestrial organisms, such as higher plants;and the other is the phycobiliprotein(PBP) based phycobilisome system mainly in aquatic organisms, such as cyanobacteria, red algae and cryptophytes. As a special light-harvesting pigment-protein complex, PBP can not only capture light energy, also shows many unique characteristics, such as good fluorescent properties and lots of pharmaceutical activities. Therefore, PBPs have been extensively studied and commercially used in foods, cosmetics, biotechnology detection, pharmacological and medicine fields. Due to its broad excitation spectrum, nontoxic, stable fluorescence and high quantum yield, PBPs have also employed as valuable fluorescent probes for immunological diagnosis. At present, there are mainly two ways to obtain fluorescent PBPs, one is to purify PBP directly from natural algae, and the other is to express recombinant PBP using genetic engineered host cells. Purification of PBPs from natural algae has many disadvantages, such as higher cost, complicated processes, and many by-products. Using genetically engineered cell biotechnology, large-scale and low-cost production of recombinant PBPs can be achieved, which can help solve problems such as source, quality control and so on. Since natural PBPs are mostly in the form of polymers such as trimers or hexamers, it is difficult to study the assembly process. Through genetic engineering techniques, monomers or subunits can be obtained, which will help to study the assembly process of PBP. In addition, novel recombinant PBPs can be produced by molecular design to improve their fluorescence and biological acti

关 键 词：藻胆蛋白 生物合成 体外重组 抗氧化 荧光 

分 类 号：Q945.11[生物学—植物学]