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三种海洋硅藻胞外多聚物形态、微细结构及组成的初步研究
王大志1,2, 黄世玉3, 程兆第4
1.厦门大学海洋环境科学教育部重点实验室;2.厦门大学环境科学研究中心;3.集美大学水产学院;4.厦门大学生命科学学院
摘要:
利用光镜和扫描电镜对厦门近海三种常见附着硅藻——爪哇曲壳藻亚缢变种(Achnanthesjavanica var.subconstricta)、咖啡形双眉藻(Amphora coffeaeformis)和多枝舟形藻(Navicula ramosissima)胞外多聚物(Extracellular polymeric substances,EPSs)的形态和微细结构进行了研究,并初步分析了其化学组成。结果表明,A.javanica var.subconstncta的胞外多聚物为透明的长柄,分为领、柄及垫状物三部分,电镜显示其徽细结构为由许多纤维组成的双层实心管;Amphora coffeaeformis分泌的EPS为由串连的小节组成的实心管状结构,许多管交织成厚的胶质块;Navicula ramosissima的EPSs则为透明的薄膜并形成胶质膜。三种硅藻胞外多聚物的水溶性和水不溶性的主要成分均为多糖类,达总量的70% 以上,蛋白质含量次之,不含脂类物质,但不同藻类EPS的组成差异较大。此外,还探讨了EPSs的功能及其分泌机理。
关键词:  海洋硅藻, 胞外多聚物, 形态, 徽细结构, 化学组成
DOI:
分类号:
基金项目:国家自然科学基金资助项目,39900020号
MORPHOLOGY, FINE STRUCTURE AND CHEMICAL COMPOSITION OF EXTRACELLULAR POLYMERIC SUBSTANCES IN THREE MARINE DIATOM SPECIES
WANG Da-Zhi1,2, HUANG Shi-Yu3, CHENG Zhao-Di4
1.The Key Laboratory of Marine Environmental Science of Ministry of Education;2.Environmental Science Research Center,Xiamen University;3.Fisheries College,Jimei University;4.College of Life Sciences,Xiamen University
Abstract:
Extracellular polymeric substances (EPSs) of diatoms that exist in the form of stalks, apical pads, adhering films and fibrils, are a type of mucilaginous substance secreted in the exterior of cells. EPSs which play important roles in the life of diatoms in their marine eco-system. This paper investigated the morphology and detailed structure of EPSs in three marine diatoms, Achnanthes javanica var. subconstrict, Amphora cofeaeformis and Navicula ramosissima, isolated from the surface of seaweed collected in the Xiamen offshore. These samples were analyzed using microscope and scanning electronic microscope (SEM) methods. Their chemical compositions were also analyzed preliminary. The results showed that the morphology of EPS varied significantly among species with individual feature. EPS of A.javanica var. subconstricta has a long transparent stalk-liked EPS, which usually lies on one end of cells and is composed of three parts: collar, stalk and pad. Cells of A.javanica var. subconstricta were attached to the surface of cultured vessel through the pad and many of the cells formed a cell-line. The results from SEM showed that the close-up of the EPS had a double layered solid tube structure made of fine fibers. Moreover, some cells have two or more stalks were observed under microscope. The EPS secreted by A.coffeaeformis was a solid tube, which is assembled by small-tandemed segments with many interlaced tubes and gathered as colloid agglomeration, cell moved through the solid tubes and formed the lump. The EPS of N.ramosissima was a transparent and colloid mucous membrane, which covered on the surface of culture vessel and cells moved the membrane. There were many hollow cell hull liked membranes among of them, and spot veins were observed clearly. The preliminary results on EPS composition indicated that the compositions of both water-soluble and water-insoluble potions of EPS in the three diatoms were dominated by polysaccharides. Their contents exceeded 70% of total EPS, along with a small amount of protein, accounting for 3.2%一28% of total EPS. No lipid was found in the EPSs. Composition of polysaccharides and protein in EPSs varied greatly among different species, especially for the water insoluble potion: major composition of EPS in A.coffeaeformis was polysaccharides, up to 97% of total EPS content, protein content was very low, however the protein contents of EPS in A.javanica var. subconstricta and N.ramosissima were higher, 18.6% and 28% respectively. These data reflected different abilities in EPS production. The results indicate that the morphology of EPSs in different species are related to their habit, which is a result of long time adaptation, while chemical compositions of EPSs are species-specific, which varies with species. The function of EPSs among species is different, which is determined by their structure and algal habit, stalks are apt to those life-fixed species, tubes and membranes are apt to the motive species. Moreover, this paper also discuss the excretion mechanisms of EPSs in diatoms.
Key words:  Marine diatom, Extracelular polymeric substances(EPSs), Morphology, Fine structure, Chemistry constitution
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