坛紫菜光合作用对重碳酸盐的利用

为了探讨坛紫菜（POrphyra haitanensis）在海水中进行光合作用时的无机碳源,对其叶状体的碳酸酥酶（CA）和光合放氧特性进行了测定.CA在坛紫菜的细胞外和细胞内都有酶活性.在 pH 8.2或川刀的海水中,CA抑制剂乙酞吐磺胺（acetazolandde,AZ）或已氧苯并喷吐磺胺（6-ethoxyzolandde,EZ）对坛紫菜光合放氧速率有强烈的抑制作用,且 EZ比 AZ抑制作用更大.在 pH 8二海水中观测的光合放氧速率远大于海水中HCO。一离子的理论脱水速率.另外,坛紫菜具有很高的PH补

Dynamics of spontaneous emission from SiN with two-dimensional photonic crystals

We investigated the dynamics of spontaneous emission from a photonic crystal etched into a SiN slab. After fitting the decay curves of the emission to double exponential functions, we divided the dynamic process of the spontaneous emission into a fast process and a slow process. It was observed that the presence of the photonic crystal increased the proportion of the fast decay component, and consequently, the emission rate and time-integrated emission intensity were also enhanced. These enhancements were a result of the coupling of the guide modes to the leaky modes of the photonic crystal slab waveguide. (C) 2008 Optical Society of America.

Two-photon excited fluorescence from CdSe quantum dots on SiN photonic crystals

Two-photon excited fluorescence from CdSe quantum dots on a two-dimensional SiN photonic crystal surface is investigated by using a femtosecond laser. By using a photonic crystal, a 90-fold enhancement in the two-photon excited fluorescence in the vertical direction is achieved. This is the highest enhancement achieved so far in the two-photon excited fluorescence in the vertical direction. The mechanism of the enhancement for two-photon excited fluorescence from quantum dots on photonic crystals is analyzed.

Effect of end substitution on optical properties and molecular orientation of distyrylbenzene derivatives in thin film

Three distyrylbenzene (DSB) derivatives were vacuum-evaporated on a (001) surface of KBr. DSB derivative molecules formed nuclei by interaction between the electron donative methoxyl group and Br- ion of the substrate crystal and oriented their longitudinal axis obliquely to the substrate surface. The peak shift between the emission peaks of solution and film decreased depending on the number of substituent. This phenomenon was originated to reduction of molecular interaction between neighboring molecules by steric hindrance of end substituents. (C) 2000 Elsevier Science S.A. All rights reserved.

Structural and optical properties of distyrylbenzene derivative thin films

In order to understand the relationship between the molecular orientation and optical properties of oligophenylenevinylene film, oriented thin films of 1,4-di(p-methoxystyryl)benzene (DSB-1) and 1,4-di(p-methoxystyryl)-2,5-dimethoxybenzene (DSB-2) were fabricated on a potassium bromide (KBr) (001) surface by the vacuum-evaporation method. The structures and optical properties of DSB films have been investigated by transmission electron microscopy (TEM), atomic force microscopy (AFM) and polarized photoluminescence (PL) spectroscopy, respectively. DSB-1 molecules orient obliquely and/or parallel to the substrate surface depending on the substrate temperature. On the other hand, DSB-2 molecules tend to grow epitaxially with the molecular plane parallel to the substrate surface. The anisotropic molecular orientations represent the polarized PL. The epitaxial growth and molecular orientations observed by TEM and AFM at the local and microscopic scale are confirmed by polarized PL measurement on a macroscopic scale. (C) 1999 American Institute of Physics. [S0021-8979(99)01523-6].

Fabrication and characterization of orientation-controlled thin films of distyryl benzene derivatives

Distyryl benzene derivatives (DSB-1 and DSB-2) were deposited on a KBr (001) surface. DSB-1 molecules took two kinds of orientations depending on the substrate temperature. On the other hand, DSB-2 grew epitaxially. The longitudinal axes of DSB-2 molecules were oriented parallel to the substrate surface.

Transforming kelp into a marine bioreactor

The past decade has seen the genetic engineering of various types of seaweed. To date, genetic transformation studies have been carried out in several seaweeds, including the red seaweeds Porphyra, Gracilaria, Grateloupia, Kappaphyclus and Ceramium and the green seaweed Ulva. A genetic transformation model system has been established in the most commonly cultivated seaweed, the brown seaweed Laminaria japonica (kelp), based on the transfer of technology used in land plant transformation and also by modulating the seaweed life cycle. This model showed the potential for application of transgenic kelp to the production of valuable products and an indoor cultivation system for transgenic kelp was proposed, taking into account necessary factors for bio-safety. In this review, the establishment at use of the kelp transformation model is introduced, highlighting the potential for transforming kelp into a marine bioreactor.

Solving the coastal eutrophication problem by large scale seaweed cultivation

Eutrophication is becoming a serious problem in coastal waters in many parts of the world. It induces the phytoplankton blooms including 'Red Tides', followed by heavy economic losses to extensive aquaculture area. Some cultivated seaweeds have very high productivity and could absorb large quantities of N, P, CO2, produce large amount of O-2 and have excellent effect on decreasing eutrophication. The author believes that seaweed cultivation in large scale should be a good solution to the eutrophication problem in coastal waters. To put this idea into practice, four conditions should be fulfilled: (a) Large-scale cultivation could be conducted within the region experiencing eutrophication. (b) Fundamental scientific and technological problems for cultivation should have been solved. (c) Cultivation should not impose any harmful ecological effects. (d) Cultivation must be economically feasible and profitable. In northern China, large-scale cultivation of Laminaria japonica Aresch. has been encouraged for years to balance the negative effects from scallop cultivation. Preliminary research in recent years has shown that Gracilaria lemaneiformis (Bory) Daws. and Porphyra haitanensis Chang et Zheng are the two best candidates for this purpose along the Chinese southeast to southern coast from Fujian to Guangdong, Guangxi and Hong Kong. Gracilaria tenuistipitata var. liui Chang et Xia is promising for use in pond culture condition with shrimps and fish.

Molecular biotechnology of marine algae in China

Molecular biotechnology of marine algae is referred to as the biotechnology on the identification, modification, production and utilization of marine algal molecules. It involves not only the manipulation of macromolecules such as DNA, RNA and proteins, but also deals with low molecular weight compounds such as secondary metabolites. In the last decade, molecular systematic researches to investigate the relationship and to examine the evolutionary divergence among Chinese marine algae have been carried out by Chinese scientists. For example, RAPD has been widely used in several laboratories to elucidate genetic variations of the reds, such as Porphyra, Gracilaria, Grateloupia and the greens such as Ulva and Enteromorpha. Some important data have been obtained. The study on molecular genetic markers for strain improvement is now in progress. In 1990s, genetic engineering of economic seaweeds such as Laminaria, Undaria, Porphyra, Gracilaria and Grateloupia has been studied in China. For Laminaria japonica, the successfully cultivated kelp in China, a model transformation system has been set up based on the application of plant genetic techniques and knowledge of the algal life history. Progress has been made recently in incorporating a vaccine gene into kelp genome. Evidence has been provided showing the expression of gene products as detectable vaccines. In the present paper, the progress of molecular biotechnological studies of marine algae in China, especially researches on elucidating and manipulating nucleic acids of marine algae, are reviewed.

Algal biotechnology industries and research activities in China

In old China there were very few people engaged in the study of the algae, but in new China, freshwater and marine algae are studied by over one hundred old and new phycologists. There is now an algal biotechnology industry consisting of an aquaculture industry, producing large amounts of the seaweeds Laminaria, Porphyra, Undaria, Gracilaria, eucheumoids, and the microalgae Dunaliella and Spirulina. There is also a phycocolloid industry, producing algin, agar and carrageenan; an industry producing chemicals and drugs, such as iodine, mannitol, phycocyanin, beta -carotene, PSS (propylene glycol alginate sulfate) and FPS (fucose-containing sulfated polysaccharides) and an industry producing food, feed and fertilizer. The Laminaria cultivation industry produces about 900,000 t dry Laminaria, probably the largest producer in the world and 13,000 t algin, undoubtedly one of the largest algin producer in the world.

坛紫菜丝状体细胞在光生物反应器中的营养增殖

紫菜作为一种经济海藻, 具有重要的经济价值和生物学价值，可作为海洋生物学研究中的模式生物。我们将生物反应器等生化工程技术用于紫菜无性丝状体细胞的培养和增殖，以实现迅速大量的为育种提供优质苗源，并为紫菜基础和应用研究提供材料、建立细胞培养技术。 适合大型藻类细胞增殖的光生物反应器需要五个基本因素：光照、温度控制、气体传输、营养物质传输、混合。针对大型藻类细胞生长特点，本文以坛紫菜(Porphyra haitanensis)丝状体为研究对象，采用本实验室自行设计的光生物反应器进行培养，得到的主要结果为： 1)摇瓶悬浮培养丝状体细胞，发现丝状体细胞营养增殖的生长特性是细胞分裂而不分开，由丝状藻丝生长为细胞团，容易聚团、贴壁。 2)本实验室开发了300 mL 鼓泡式光生物反应器。它具有结构简单、操作方便、适合藻细胞生长、制作成本廉价等特点。通过运行本系统验证了光生物反应器培养紫菜丝状体的可行性，并优化了过程参数，得到的结果为：初始密度为700 mg DCW/L，通气量为 1.2 L air min-1 L-1(vvm)，氮和磷浓度为：15 mM和0.6 mM, 培养时间为20天。在此培养条件下坛紫菜丝状体最大生物产量达到4000 mg DCW/L。 3)将鼓泡式光生物反应器的实验体系扩大到2500 mL，研究了不同光强及光周期对丝状体细胞生长的影响，结果发现光暗周期为14h light/10h dark、光强为80 μmol m-2s-1是最佳光照条件，最大生物量4350mg DCW/L。 4)对光生物反应器体系进行改进，设计了2500 mL气升式光生物反应器，进行了鼓泡式光生物反应器和气升式光生物反应器对坛紫菜丝状体细胞培养的比较研究，发现气升式光生物反应器更适合丝状体的生长，最大生物产量达到4850 mg DCW/L。

不同分子量坛紫菜多糖的制备及其抗衰老活性研究

坛紫菜（Porphyra haitanensis），属红藻门（Rhodophyta），红毛菜科（Bangiacease）紫菜属（Porphyra），是我国大规模养殖的重要经济海藻之一，主要产于我国南方沿海如福建、广东、浙江等地。紫菜作为中药，具有“补肾养心，利水消肿”的功效，实验室前期所作的工作表明，坛紫菜多糖具有良好的抗衰老作用。分子量对多糖生物活性有重大影响，本文以福建沿海的坛紫菜为原料，对坛紫菜多糖（P）的降解方法和该紫菜多糖的抗衰老活性与分子量的关系展开了研究。 本论文首次将植物生长发育过程中发生的抗坏血酸和过氧化氢反应体系应用于坛紫菜多糖的降解。抗坏血酸和过氧化氢的浓度及两者的比例是该降解方法的主要影响因素。采用该法制备了分子量分别为50、30、13、8.2和2.7 kD 的P1、P2、 P3、P4和P5五种产品。其中P1、P2和P3产品的红外图谱与原料多糖的红外图谱一致，表明这两种多糖的化学结构在降解过程中并未发生改变，而P4和P5样品的红外图谱显示该样品中出现了少量的羧基。 本论文还首次对各产物进行了抗氧化、免疫调节、抗疲劳、延长寿命、抗老年痴呆等活性的筛选与研究，具体结果如下： 采用化学法对五种降解多糖和原料多糖的抗氧化活性进行研究。结果表明分子量对坛紫菜多糖清除各种自由基能力的影响是不同的。降解之后，坛紫菜多糖清除超氧阴离子的能力有所下降，与金属离子的螯合能力几乎全部丧失，但是多糖清除羟基自由基的能力变化甚微。降解之后，坛紫菜多糖清除有机自由基的能力和还原能力显著提高，随分子量的降低这两种能力明显加强，其中P4样品清除有机自由基能力最强，而分子量最小的P5样品还原能力最突出。 通过测定T、B淋巴细胞增殖率考察了五种降解多糖和原料多糖的免疫调节作用。研究表明：不同分子量坛紫菜多糖均具有免疫调节作用，可显著促进小鼠脾脏T淋巴细胞增殖，显著抑制小鼠脾脏B淋巴细胞增殖。P2和P4样品效果强于其它降解产品和原料。 通过测定小鼠游泳和爬杆时间考察了三种降解多糖P1、P2、P4和原料多糖的耐疲劳作用。研究表明：坛紫菜多糖降解产品耐疲劳作用要优于原料多糖P。P1、P2和P4通过提高小鼠肝糖原储备从而达到显著延长小鼠爬杆时间和负重游泳时间的功效。 通过测定D. melanogaster果蝇寿命、热耐受时间和性活力考察了三种降解多糖P1、P2、P4和原料多糖对寿命及生命活力的影响。研究表明：分子量对坛紫菜多糖对果蝇的寿命和生命活力有很大影响。降解使坛紫菜原料多糖P对果蝇的延长寿命和提高生命活力作用得到加强。在果蝇正常代谢状态下，降解产品中分子量较大的P1和P2作用更显著，而在热应激状态下，降解产品中分子量较小的P4作用更突出。 采用小鼠侧脑室注射Aβ1-40致痴呆模型考察了样品P1改善认知功能的作用。研究表明：P1通过降低皮层和海马组织乙酰胆碱酯酶活性，显著提高乙酰胆碱转移酶的活性，有效改善痴呆小鼠的认知能力，使之水迷宫游泳时间缩短，使避暗潜伏期延长。 为探讨P1样品改善小鼠认知功能的作用机制，本文采用Aβ25-35损伤神经母细胞瘤株SH-SY5Y模型对P1样品的神经细胞的保护作用进行了研究。结果显示低浓度下P1对该损伤模型具有显著保护作用，高浓度下表现出显著的抑制作用。 本文的研究表明坛紫菜多糖在降解之后生物活性得到显著改善。分子量对坛紫菜多糖活性影响很大。总的看来，在体外实验中，分子量越低其体外抗氧化活性和免疫调节作用越显著，但是，在体内实验中，降解产品中分子量最大的P1样品能更有效地改善小鼠疲劳程度、延长果蝇的寿命及热耐受时间，P1样品还能显著改善痴呆小鼠记忆功能。不同分子量坛紫菜多糖体内和体外生物活性的这种差异还需要进行深入研究。