原绿球藻对环境胁迫的生理和分子响应机制

原绿球藻(Prochlorococcus)作为海洋丰度最高的浮游植物,对海洋生态系统的物质循环和能量流动起着重要的驱动作用。原绿球藻生长和光合作用活性容易受到环境胁迫的影响,进而影响整个海洋生态系统的稳定性。因此,研究原绿球藻应对环境胁迫的响应机制具有重要的生态意义。原绿球藻主要通过分化出不同的生态型来适应不同光照和营养盐的海洋环境,但仍然会很难快速适应各种突如其来的海洋环境变化。本文从原绿球藻应对环境胁迫的角度,探讨了其生理和分子响应机制的最新研究进展,包括光系统I循环电子传递在光照变化时发挥的重要作用,通过RNA快速响应而调控基因表达应对环境胁迫,以及在辅助异养细菌的保护下应对活性氧的胁迫等。本文也展望了原绿球藻对环境胁迫响应的生理和分子机制的未来研究方向,旨在为原绿球藻抗逆机制的深入研究提供参考。     

一株枯草芽孢杆菌的生长特性及抑藻效果研究

溶藻微生物能引起水华蓝藻的快速消亡,从而达到控制水华之目的。为了探讨枯草芽孢杆菌(Bacillus subtilis)对铜绿微囊藻(Microcystis aeruginosa)及小球藻(Chlorell)的抑制效果,在实验室条件下研究了枯草芽孢杆菌对两种藻类生长的影响、抑制藻类生长的作用方式以及发酵液处理下铜绿微囊藻丙二醛(MDA)及谷胱甘肽(GSH)含量、超氧化物歧化酶(SOD)及过氧化氢酶(CAT)活性。试验结果表明,筛选出的菌株具有较好的环境适应性和抑制藻类生长的能力,其抑制效果是通过分泌胞外物质实现的。经过枯草芽孢杆菌处理后,铜绿微囊藻的叶绿素a及藻体蛋白含量均显著低于对照组,而胞内MDA及GSH含量显著升高,SOD及CAT活性也有增高的趋势。     

氢气调节植物生长发育和提高植物抗逆性的研究进展

氢气作为新发现的活性气体被广泛研究。在植物生长发育方面,氢气具有促进种子发芽、幼苗发育、不定根生长等作用;在植物遭受逆境胁迫过程中,氢气通过调控抗氧化酶活性、抗氧化物质的生成及其相应的转录本来应对胁迫带来的氧化损伤,提高植物对干旱、盐胁迫、重金属胁迫、除草剂、紫外照射等胁迫的抗性,同时氢气还可以调控与抗病虫害等胁迫相关基因的表达。该文对国内外有关氢气在促进植物生长发育和提高植物抗性方面的作用,以及逆境胁迫下氢气作为信号分子通过调控抗氧化防御系统提高植物抗逆性的机制进行综述,以期更好地了解和促进氢气在农业科学上的研究与应用。     

植物中的活性氧研究概述

活性氧作为有氧代谢的副产物不断在植物体内产生。在正常的生长环境条件下,植物将产生活性氧(reaction oxygen species, ROS)作为信号代谢分子以调控不同的代谢反应,例如病毒防御、细胞程序性死亡和气孔开闭等;当氧化胁迫发生时,胞内活性氧稳态受到严重破坏,影响作物的生长发育,从而降低作物产量及品质。为了降低因过量活性氧对植物体所造成的伤害,植物体内进化出了两种活性氧清除系统:酶清除系统和非酶清除系统。本文就此对植物在生长发育过程中ROS的产生、利弊、清除机制以及在作物改良上应用的可能性进行了系统的讨论。     

外源24-表油菜素内酯对高温胁迫下茄子幼苗生长和抗氧化系统的影响

本文研究了高温胁迫下外源24-表油菜素内酯（EBR）对茄子幼苗生长和抗氧化系统的影响。结果表明,外源EBR处理显著促进了高温胁迫下茄子幼苗生长,提高了SOD、POD、CAT和APXS活性,AsA和GSH含量及可溶性蛋白和脯氨酸含量,降低了MDA、O2^-及H2O含量。表明,外源EBR处理通过促进高温胁迫下茄子幼苗抗氧化酶活性、抗氧化剂含量及渗透调节物质的提高,降低ROS水平,缓解高温胁迫对茄子幼苗生长的抑制作用,增强植株抗高温胁迫的能力。     

植物质膜H+-ATPase的研究进展

质膜H -ATPase参与植物细胞的物质跨膜转运、细胞的伸长生长、气孔的开闭以及植物对环境胁迫的响应等生理过程,是植物生命活动的“主宰酶”。其活性调节涉及激素、环境因子等多种因素,可发生在转录、翻译和酶分子等多级水平。因此,在植物生长发育过程中,质膜H -ATPase活性的调节对生理活动起重要作用。本文就植物质膜H -ATPase的结构特征、生理功能、活性变化及其调节机理等的研究进展进行综述,以进一步揭示该酶的生理功能及其调节机理与植物生命活动过程的关系。     

信号分子介导藻类细胞程序性死亡的研究进展

藻类是水生态系统中的重要初级生产者, 在物质转换和能量迁移过程中发挥重要作用。细胞程序性死亡(PCD)作为一种细胞自我调控的死亡模式, 受到多种信号分子的控制。研究发现藻类细胞在遭受环境胁迫的情况下, 在形态和生理上均表现出类PCD的特征, 同时伴随着活性氧/一氧化氮/钙离子(ROS/NO/Ca2+)水平的变化。研究认为, ROS/NO/Ca2+作为信号分子介导藻细胞内的caspase-like酶活性变化, 从而触发藻细胞的类程序性死亡。然而, 对信号分子是如何在环境胁迫下的藻类细胞中引发类PCD仍知之甚少。文章综述了信号分子ROS/NO/Ca2+介导藻类类PCD的研究进展以及信号分子间的级联关系, 并对今后类PCD在该领域待开展的研究进行了展望。     

不同生境下木麻黄脯氨酸含量和质膜ATPase活性的研究

采集生长于恶劣环境和中生环境的普通木麻黄(Casuarina)小枝,超速离心提取粗质膜制剂后,用两相系统法纯化得到质膜微囊,研究不同生境下木麻黄的质膜ATPase活性,并测定木麻黄小枝的游离脯氨酸含量。实验结果表明:同一生境中的木麻黄ATPase活性相对一致,而同一树种木麻黄不同生境下质膜微囊H~+-ATPase、Ca~(2+)-ATPase、K~+-ATPase活性有显著差异,表现出以渗透胁迫为主的恶劣环境下的木麻黄质膜微囊ATPase活性和木麻黄细胞内游离脯氨酸明显高于中生环境下生长的木麻黄。说明普通木麻黄在干旱和盐胁迫下能调整生理生化过程来提高其质膜ATPase活性和增加细胞内脯氨酸含量提高渗透调节能力以保证其在恶劣环境的正常生长。     

环境汞污染对藻类的毒性效应及其影响因素

综述了汞污染对藻类的毒性效应及影响因素。水环境中汞主要以元素汞、无机汞和有机汞3种形式存在。藻类吸附汞主要分为胞外的快速吸附和胞内的缓慢富集,在安全浓度内,金属汞对藻生长有一定的促进作用,随着浓度增大,抑制藻生长或致死。汞进入藻体细胞后,藻类为了存活会产生一系列保护机制。藻类对汞的排斥和排出作用可能就是对汞耐性的一种重要机制。藻类也可以通过多种方式减少汞进入藻类细胞,以及通过与其他物质结合汞使其排出胞外。温度、pH、生物学因素等影响重金属对藻类的毒性作用。并就藻类对汞耐性和适应机理、利用藻类修复和监测重金属污染、藻类响应汞胁迫的信号转导途径及其保护机制等未来研究领域进行了展望。     

煤污病菌表皮生态位适应性进化机制研究进展

煤污病是一类外寄生性植物真菌病害。煤污病菌在果实表面形成黑色污斑和污点,导致外观品质降低影响销售,给果农造成严重经济损失。真菌的适应性进化分子机制一直是植物病原真菌生态学领域的研究前沿。煤污病菌在进化过程中为适应寄主表面营养贫瘠、干旱、紫外线照射等非生物胁迫,以及与表面其他微生物竞争生物胁迫等极端环境,进化出一系列独特机制,从而成功定殖于植物表皮。本文从基因组结构趋同进化、致病相关基因家族收缩与扩张和胁迫响应等方面,系统综述了煤污菌群对表皮生态位的适应性进化分子机制。     

Waste molasses alone displaces glucose-based medium for microalgal fermentation towards cost-saving biodiesel production

The by-product of sugar refinery—waste molasses was explored as alternative to glucose-based medium of Chlorella protothecoides in this study. Enzymatic hydrolysis is required for waste molasses suitable for algal growth. Waste molasses hydrolysate was confirmed as a sole source of full nutrients to totally replace glucose-based medium in support of rapid growth and high oil yield from algae. Under optimized conditions, the maximum algal cell density, oil content, and oil yield were respectively 70.9 g/L, 57.6%, and 40.8 g/L. The scalability of the waste molasses-fed algal system was confirmed from 0.5 L flasks to 5 L fermenters. The quality of biodiesel from waste molasses-fed algae was probably comparable to that from glucose-fed ones. Economic analysis indicated the cost of oil production from waste molasses-fed algae reduced by 50%. Significant cost reduction of algal biodiesel production through fermentation engineering based on the approach is expected.     

光生物反应器培养微藻研究进展

微藻具有固定CO2和净化有机废水的能力,在环保、食品饲（饵）料、医药和生物能源开发等领域备受关注,但规模化培养及其产业化仍是研究的难点,亟待解决。就常用于大规模培养微藻的光生物反应器的特点和结构进行了综述。其中,封闭式微藻光生物反应器能够较好地调控藻种的培养条件、不易遭受污染,藻种的纯度容易控制,但培养规模小,生产成本较高;而开放式微藻光生物反应器无法精确控制藻种生长环境,但生产规模大、产量高、生产成本低,因此应用广泛。最佳的方法是综合两者优点,即首先利用封闭式微藻光生物反应器进行中试放大,大量繁殖藻种,然后投入开放式微藻光生物反应器内进行大规模商业生产,此方法有望成为微藻光生物反应器的发展方向,以期为微藻大规模培养提供参考借鉴。     

Algal flora and its importance in the economy of rice fields

Summary The growth of algae has been studied simultaneously in nature and in soil culture of some of the paddy fields. Although some of them are common to both, there are conspicuous differences in the algal vegetation under the two conditions. The algal growth is mainly governed by the seasonal and other ecological conditions of their habitat.The growth of algae effects the paddy crop in various ways i.e. by nitrogen fixation and secretion of growth promoting substances etc.Read at the annual meeting of the Sci. and Techn. Society, Kanpur, Dec. 1963.     

Stoichiometric impacts of increased carbon dioxide on a planktonic herbivore

The partial pressure of carbon dioxide (pCO₂) in lake ecosystems varies over four orders of magnitude and is affected by local and global environmental perturbations associated with both natural and anthropogenic processes. Little is known, however, about how changes in pCO₂ extend into the function and structure of food webs in freshwater ecosystems. To fill this gap, we performed laboratory experiments using the ecologically important planktonic herbivore Daphnia and its algal prey under a natural range of pCO₂ with low light and phosphorus supplies. The experiment showed that increased pCO₂ stimulated algal growth but reduced algal P : C ratio. When feeding on algae grown under high pCO₂, herbivore growth decreased regardless of algal abundance. Thus, high CO₂‐raised algae were poor food for Daphnia. Short‐term experimental supplementation of PO₄ raised the P content of the high CO₂‐raised algae and improved Daphnia growth, indicating that low Daphnia growth rates under high pCO₂ conditions were due to lowered P content in the algal food. These results suggest that, in freshwater ecosystems with low nutrient supplies, natural processes as well as anthropogenic perturbations resulting in increased pCO₂ enhance algal production but reduce energy and mass transfer efficiency to herbivores by decreasing algal nutritional quality.     

Microalgal triacylglycerols as feedstocks for biofuel production: perspectives and advances

Microalgae represent an exceptionally diverse but highly specialized group of micro-organisms adapted to various ecological habitats. Many microalgae have the ability to produce substantial amounts (e.g. 20–50% dry cell weight) of triacylglycerols (TAG) as a storage lipid under photo-oxidative stress or other adverse environmental conditions. Fatty acids, the building blocks for TAGs and all other cellular lipids, are synthesized in the chloroplast using a single set of enzymes, of which acetyl CoA carboxylase (ACCase) is key in regulating fatty acid synthesis rates. However, the expression of genes involved in fatty acid synthesis is poorly understood in microalgae. Synthesis and sequestration of TAG into cytosolic lipid bodies appear to be a protective mechanism by which algal cells cope with stress conditions, but little is known about regulation of TAG formation at the molecular and cellular level. While the concept of using microalgae as an alternative and renewable source of lipid-rich biomass feedstock for biofuels has been explored over the past few decades, a scalable, commercially viable system has yet to emerge. Today, the production of algal oil is primarily confined to high-value specialty oils with nutritional value, rather than commodity oils for biofuel. This review provides a brief summary of the current knowledge on oleaginous algae and their fatty acid and TAG biosynthesis, algal model systems and genomic approaches to a better understanding of TAG production, and a historical perspective and path forward for microalgae-based biofuel research and commercialization.     

赤潮藻毒素生物合成研究进展

合成毒素是赤潮藻类的一个常见特征,已知能够产生毒素的微藻有70多种。作为次级代谢产物,藻毒素的产生可能是一种压制或清除其它藻类竞争者的一种反应,在群落演替、种间竞争中发挥重要作用。目前,人们对藻毒素生物合成机理依然知之甚少,相关基因的研究仍无明显突破。利用环境因子诱导毒素生成变化进而分离差异表达基因或者比较不同产毒藻株间基因表达的差异,从中克隆藻毒素生物合成基因似乎是一种极具潜力的研究方向。     

藻类挥发性有机化合物研究进展

在水域生态系统中, 藻类释放的挥发性有机化合物(VOCs)种类众多, 主要有萜烯类、醛类、醇类、酯类、酮类、脂肪族烃、芳香族、硫化物和卤化物。这些VOCs通过不同的次生代谢途径形成, 可为多种环境因素所诱导产生。在逆境胁迫下, VOCs具有提高藻细胞抗逆性的作用。当VOCs释放到水体中后, 可为同种藻细胞传递胁迫信息, 使感受细胞做好防御准备。对于异种藻细胞, VOCs通过化感作用抑制其生长, 从而保证VOCs释放者的竞争优势。此外, VOCs还可驱避捕食者, 保护藻细胞免受伤害。未被感受者利用的VOCs经挥发进入大气层后, 会参与水域上空二次有机气溶胶的形成。通过对藻类VOCs的种类、形成途径、诱导释放因素及其生态作用进行综述, 以期对藻类VOCs的研究有所帮助。     

Resistance of the brown alga Fucus vesiculosus to herbivory

Herbivory is typically intense in marine littoral environments; thus, macrophytes are expected to evolve defenses against grazing. Although putative defenses of macrophytes are widely studied, there is lack of studies demonstrating the main premises of defense adaptations: the consequences of herbivory to macrophytes, genetic variation of defense traits and the costs and benefits of defenses in natural environment. We conducted a factorial experiment, where we manipulated amount of herbivory, growing depth and nutrient availability, and measured resistance to herbivory as well as genetic variation and costs of phlorotannins, putative defensive secondary metabolites, in the brown alga Fucus vesiculosus . Herbivory on algae varied with depth: grazing did not cause losses close to the surface, but, most of the algal production was consumed at the deeper end of the algal belt. The higher the genotypic phlorotannin content the less damage the genotype received implying that phlorotannins acted as a resistance trait. Production of phlorotannins was associated with costs for growth. Consistent with the prediction that the cost of defense will be greatest when resources are limiting, the cost appeared only in the deep end of the algal belt where growth was slowed down. Phlorotannins displayed phenotypic plasticity; the three factors influenced phlorotannins interactively, with the main tendencies of nutrient enrichment decreasing and herbivory and increasing depth increasing phlorotannins. Despite this plasticity, variation of phlorotannins was mainly due to the genotype of algae. These results emphasize the role of herbivory as a selective agent for algal defenses and the importance of genetic variation in the constitutive level of phlorotannins in interactions with natural enemies. The cost of phlorotannins may constrain the evolution of resistance in environments where growth is limited by light availability.     

管道式光生物反应器的设计和性能

该文概述了管道式光生物反应器在设计上对性能的要求,对影响光生物反应器培养效率的各种生长条件如光能利用效率、CO2利用效率、环境温度、溶解氧等问题进行了探讨,指出高效并可自动调节的藻液循环混合系统对于高密度海藻培养是非常重要的,提出了能否自动清洗光生物反应器内壁是判断光生物反应器是否可用于工业化生产的关键。