盐角草（Salicornia europaea L.）SePSY和SeLCY基因克隆及功能分析

盐角草（Salicornia europaea L.）是一种叶片退化而茎肉质化，不具有盐腺和盐囊泡的真盐生植物，可以在1020 mM NaCl下生存。其特殊的形态适应特点使其成为研究植物抗盐性的良好实验材料。但目前与盐角草抗盐机理相关的生理和分子方面的研究还非常有限。本文以盐角草为材料，首先探讨了盐分和渗透胁迫对其光合作用和渗透平衡的影响，在此基础上进一步克隆了盐角草类胡萝卜素合成途径中的两个关键酶，八氢番茄红素合成酶（SePSY）和番茄红素β-环化酶（SeLCY）基因，并进行了功能分析。该研究对于了解类胡萝卜素在植物抗盐性中所起的作用具有重要意义。 盐分和渗透胁迫对其光合作用和渗透平衡影响的实验结果表明：200 mM NaCl是盐生植物盐角草生长的最适盐浓度，在该盐度下盐角草中叶绿素a/b的比值和光饱和点升高，植株的光合作用表现出增强的效应，植株生长最佳。而27％ PEG-6000所模拟的渗透胁迫显著降低了盐角草中叶绿色a/b的比值，抑制其光合作用和生长。200 mM NaCl下，Na+的含量显著增加，但脯氨酸含量保持不变，说明Na+对盐角草渗透平衡的作用要强于脯氨酸。同时盐角草中液泡H+-ATPase（V-H+-ATPase）活性增强，而盐角草Na+/H+逆向转运蛋白基因（SeNHX1）在盐分和渗透胁迫下却表现为组成型表达;我们因此推断在盐分胁迫下，Na+的吸收是由于液泡H+-ATPase活性的增强，而不是诱导SeNHX1基因的表达。同时Na+的吸收可能进一步诱导了与光合作用相关基因的表达。 盐分对植物的影响涉及植物体内包括光合作用和活性氧代谢在内的多个代谢过程。在植物中，类胡萝卜素是植物捕光天线复合体（LHC）和光系统反应中心叶绿素结合蛋白的重要组成部分。植物体内类胡萝卜素能够清除植物叶绿体，线粒体和过氧化物体在电子传递过程中产生的活性氧。同时类胡萝卜素是植物激素ABA的前体。200 mM NaCl虽然增加了盐角草细胞的渗透势，但并没有对其造成氧化胁迫和离子毒害，相反提高了其光合能力。类胡萝卜素作为植物活性氧的淬灭剂和光系统的组成成分，可能在盐角草抗盐机理中发挥着比较重要的作用。在过去的十年中，类胡萝卜素研究大多集中在其生物合成和提高作物中类胡萝卜素含量方面，可是，在植物对非生物逆境（如氧化和盐分胁迫）的适应机制中，类胡萝卜素合成途径究竟发挥什么作用目前还不是很清楚。为了了解盐角草中类胡萝卜素合成途径在植物逆境的适应机制中所发挥的作用，本文采用RACE的方法克隆了盐角草类胡萝卜素合成途径中的两个关键酶基因 SePSY和SeLCY，将它们构建到植物表达载体SN1301中，转化拟南芥，并对它们进行了初步的功能分析。 研究发现盐角草SePSY基因全长1655 bp，编码419个氨基酸，推测分子量为47.2 kDa，等电点为8.92。其蛋白在1-65个氨基酸处有一个信号肽。在1-19和242-264氨基酸处有2个跨膜区。盐角草SeLCY基因全长1937 bp，编码498个氨基酸，推测分子量为56.1 kDa，等电点为8.41。其蛋白在1-37个氨基酸处有一个信号肽。在79-96，367-385和454-474氨基酸处有3个跨膜区。SePSY和SeLCY基因过量表达均促进转基因拟南芥的生长，转SePSY基因拟南芥次生根数目比野生型拟南芥明显增多。SePSY和SeLCY基因的过量表达还使转基因拟南芥对百草枯的抗性得到提高;SePSY基 因的过量表达增强了植株体内抗氧化保护酶过氧化物酶（POD），超氧化物歧化酶（SOD）活性，但过氧化氢酶 （CAT）的变化不显著;转SeLCY基因株系POD，SOD，CAT的活性都有所增强，但转SePSY基因株系中POD活性明显高于 转SeLCY基因株系。转SePSY和SeLCY基因拟南芥叶片中丙二醛（MDA）和H2O2含量均降低，但转SePSY基因株系中MDA和H2O2含量明显低于转SeLCY基因株系。说明转基因拟南芥对氧化胁迫的抗性得到了提高，同时使得光系统II（PSII）和细胞膜的结构和功能不被破坏。而转SePSY基因株系对盐分和氧化胁迫的抗性明显高于转SeLCY基因株系。SePSY和SeLCY基因的过量表达还提高了转基因拟南芥的光合效率，气孔导度和Fv/Fm比值。 SePSY和SeLCY基因转化拟南芥及其功能分析的初步结果表明，SePSY和SeLCY基因的过量表达提高了转基因拟南芥对体内活性氧（ROS）的清除能力，增强了拟南芥的光合能力，进而提高了拟南芥的抗盐性。

The involvement of the antioxidant system in protection of desert cyanobacterium Nostoc sp against UV-B radiation and the effects of exogenous antioxidants

In this study, we found that UV-B radiation decreased photosynthetic activity and boosted lipid peroxidation of desert Nostoc sp., and exogenous chemicals (ascorbate acid (ASC), N-acetylcysteine (NAC), and sodium nitroprusside (SNP)) had obvious protective effects on photosynthesis and membranes under UV-B radiation. High-concentration SNP boosted the activities of antioxidant enzymes, but low-concentration SNP reduced the activities of antioxidant enzymes. Both NAC and ASC treatments of cells decreased activities of antioxidant enzymes. The results suggested that those chemicals possibly had different mechanisms of protection of algae cells against UV-B radiation. SNP might play double roles as a signal molecule in the formation of algae cell protection of Photosystem 11 under UV-B radiation and as a (reactive oxygen species) scavenger, while NAC and ASC might function as antioxidant reagents or precursors of other antioxidant molecules, which could protect cells directly against ROS initiated by UV-B radiation. (c) 2006 Elsevier Inc. All rights reserved.

高浓度O3和CO2对银杏、油松活性氧代谢的影响

采用开顶箱法模拟大气O3和CO2浓度升高（80 nmol•mol-1，700 μmol•mol-1），对银杏（Ginkgo biloba）和油松（Pinus tabulaeformis）幼树进行了连续两个生长季的熏蒸试验，研究了银杏叶片和油松针叶活性氧产生清除系统的生理变化过程，从活性氧代谢生理机制上揭示其抗性变化规律，为研究城市森林对全球变化的响应与反馈机制提供重要的理论基础。 得出如下结论： 1. 高浓度O3显著增加了银杏叶片ASA含量和抗氧化酶（SOD、APX）活性，增强了活性氧清除能力；但这种抗氧化能力的提高不足以消除高O3带来的氧化逆境，H2O2和MDA含量显著高于对照处理。与银杏相比，高浓度O3在试验初期诱导油松针叶SOD和APX酶活性升高，增强了活性氧清除能力；随着处理时间的延长ASA被耗竭，H2O2过量积累显著地抑制了抗氧化酶活性，加剧了氧化伤害。银杏和油松结果的差异表明，银杏对80 nmol•mol-1浓度的O3具有更高的抗性，而油松针叶活性氧代谢等生理过程受其影响更大。 2. 高浓度CO2对银杏叶片活性氧代谢无显著性影响。然而，高浓度CO2减缓了油松针叶活性氧的产生，抗氧化酶活性呈降低的趋势；但针叶内ASA含量显著高于对照处理，这说明高浓度CO2促进了油松针叶ASA合成，或者是减少了ASA的消耗。在试验处理后期，针叶内H2O2含量和MDA含量显著低于对照处理。 3. 高浓度O3和高浓度CO2复合处理中，高浓度CO2缓解了高浓度O3对银杏叶片和油松针叶造成的氧化胁迫，但其生理机制不同：银杏叶片ASA含量以及抗氧化酶活性普遍低于高浓度O3单因素处理而高于对照处理，并且叶片H2O2含量和膜质过氧化产物MDA含量显著低于高浓度O3单因素处理，这说明高浓度CO2通过减少活性氧的产生来缓解高浓度O3所致的活性氧积累以及膜质过氧化伤害。与银杏不同的是，高浓度CO2使油松针叶内ASA含量显著高于高浓度O3处理，增强了活性氧清除能力，减轻了活性氧对抗氧化酶活性的抑制作用，有效的控制了ROS的产生与清除之间的平衡，缓解了高O3带来的氧化伤害。

Biphasic regulation of H2O2 on angiogenesis implicated NADPH oxidase

ROS (reactive oxygen species) take an important signalling role in angiogenesis. Although there are several ways to produce ROS in cells, multicomponent non-phagocytic NADPH oxidase is an important source of ROS that contribute to angiogenesis. In the present work, we examined the effects of H2O2 on angiogenesis including proliferation and migration in HUVECs (human umbilical vein endothelial cells), new vessel formation in chicken embryo CAM (chorioallantoic membrane) and endothelial cell apoptosis, which is closely related to anti-angiogenesis. Our results showed that H2O2 dose-dependently increased the generation of O-2(-) (superoxide anion) in HUVECs, which was suppressed by DPI (diphenylene iodonium) and APO (apocynin), two inhibitors of NADPH oxidase. H2O2 at low concentrations (10 mu M) stimulated cell proliferation and migration, but at higher concentrations, inhibited both. Similarly, H2O2 at 4 nmol/cm(2) strongly induced new vessel formation in CAM, while it suppressed at high concentrations (higher than 4 nmol/cm(2)). Also, H2O2 (200 similar to 500 mu M) could stimulate apoptosis in HUVECs. All the effects of H2O2 on angiogenesis could be suppressed by NADPH oxidase inhibitors, which suggests that NADPH oxidase acts downstream of H2O2 to produce O-2(-) and then to regulate angiogenesis. In summary, our results suggest that H2O2 as well as O-2(-) mediated by NADPH oxidase have biphasic effects on angiogenesis in vitro and in vivo.

Production of active oxygen species from Taxus cuspidata induced by far-UV radiation

In order to understand the role of active oxygen species in mediating plant injuries induced by far-UV radiation, seedlings of Taxus cuspidata Sieb. et Zucc. were irradiated by far-UV rays in laboratory for 4 weeks. The production of organic free-radicals in detached needles, and the production of O-2(radical anion) and O-1(2) in isolated chloroplasts were detected weekly by electron spin resonance (ESR) to evaluate their relative importance. The results show that the cumulative effect of far-UV irradiation, is best indicated by the production of organic free radicals in the needles, O-2(radical anion) production in chloroplasts is the next. The enhancement of O-1(2) production in chloroplasts by the cumulative far-UV irradiation seems to be not so important as O-2(radical anion) in mediating injuries induced by, far-UV radiation because of its high background value.

A STUDY OF SURFACE OXYGEN SPECIES FROM LA-ME-O (ME=MG, CA, SR, BA) CATALYSTS FOR METHANE OXIDATIVE COUPLING

CO2-TPD was used to study the surface basicity of La-Me-O mixed oxides and O-2-TPD, CH4-TPD were employed to study the surface active oxygen species. Comparing the CO2-TPD with O-2-TPD, we can see that the basicity of catalyst is in parallel with the catalystic activity. The stronger basicity is more profitable for the catalyst to adsorb oxygen to form active oxygen species and to activate CH4 by breaking a C-H bond, By comparing the catalytic activity, the results showed that La-Ba-O(La/Ba=7/3) catalyst had the strongest basicity, and it gave the highest CH4 conversion and C-2 selectivity, The results from the pulse reaction showed that the lattice oxygen participated in the OCM reaction without gas oxygen, and it was the selective oxygen species.

A STUDY OF CATALYTIC PROPERTIES OF PEROVSKITE-TYPE OXIDES LAMNYCO1-YO3 .1. THE RELATIONSHIP BETWEEN THE TYPE OF OXYGEN SPECIES AND THE CATALYTIC PROPERTY IN AMMONIA OXIDATION

The type of oxygen species in perovskite-type oxides LaMnyCo1-yO3 (y = 0.0, 0.1, 0.3, 0.5, 0.7, 0.9, 1.0) has been studied by means of XRD, XPS and TPD. The catalytic activity in ammonia oxidation was also investigated. It was found that there were three desorption peaks in TPD curve corresponding to three types of oxygen species (alpha, beta, beta'). The desorption temperatures were 293 K less-than-or-equal-to T(alpha) less-than-or-equal-to 773 K, 773 K less-than-or-equal-to T(beta) less-than-or-equal-to K and T(beta') greater-than-or-equal-to 1073 K respectively. The relationship among the composition, structure and the catalytic property of.the catalyst was correlated and could be explainned with a model based on solid defect reaction and the interaction between Co and Mn ions. The adsorption strength and quantity of a oxygen are proportional to the catalytic activity. The, result indicates that the synergetic effect between B-site ions seems to the benefit of the ammonis oxidation reaction.

Protective immunity induced by CpG ODNs against white spot syndrome virus (WSSV) via intermediation of virus replication indirectly in Litopenaeus vannamei

The worldwide shrimp culture is beset with diseases mainly caused by white spot syndrome virus (WSSV) and suffered huge economic losses, which bring out an urgent need to develop the novel strategies to better protect shrimps against WSSV. In the present study, CpG-rich plasmid pUC57-CpG, plasmid pUC57 and PBS were employed to pretreat shrimps comparatively to evaluate the protective effects of CpG ODNs on shrimps against WSSV. The survival rates, WSSV copy numbers, and antiviral associated factors (Dicer, Argonaute, STAT and ROS) were detected in Litopenaeus vannamei. There were higher survival proportion, lower WSSV copy numbers, and higher mRNA expression of Dicer and STAT in pUC57-CpG-pretreatment shrimps than those in pUC57- and PBS-pretreatment shrimps after WSSV infection. The Argonaute mRNA expression in pUC57-CpG-, pUC57- and PBS-pretreatment shrimps after WSSV infection was significantly higher than that of shrimps post PBS stimulation on the first day. The ROS levels in pUC57-CpG-pretreatment shrimps post secondary stimulation of PBS were significantly higher than those post WSSV infection on the first day. These results together demonstrated that pUC57-CpG induced partial protective immunity in shrimps against WSSV via intermediation of virus replication indirectly and could be used as a potential candidate in the development of therapeutic agents for disease control of WSSV in L. vannamei. (C) 2009 Elsevier Ltd. All rights reserved.

Formation of subsurface oxygen species and its high activity toward CO oxidation over silver catalysts

Silver is well known to show peculiar catalytic activities in several oxidation reactions. In the present paper, we investigate the catalytic activity of silver catalysts toward CO-gelective oxidation in H-2. XRD, TEM, TPD, and in situ FTIR techniques were used to characterize the catalysts. The pretreatment of the catalysts was found to have great influence on their performance. The pretreatment in 02 improves the activity of the silver catalyst, whereas He pretreatment at 700 degreesC or direct hydrogen pretreatment shows an inverse effect. Silver catalysts undergo massive structural change during oxygen pretreatment at high temperatures (> 500 degreesC), and there is solid evidence for the formation of subsurface oxygen species. The existence of this silver-subsurface oxygen structure facilitates the formation of active sites on silver catalysts for CO oxidation, which are related to the size, morphology, and exposed crystal planes of the silver particles. Its formation requires a certain temperature, and a higher pretreatment temperature with oxygen is required for the silver catalyst with a smaller particle size. It is observed, for the first time, that adsorbed CO on the surface of silver particles can directly react with subsurface oxygen species at low temperatures (e.g., RT), and the surface oxygen can migrate into and refill these subsurface sites after the consumption of subsurface oxygen by the reaction with CO. This finding provides a new reaction pathway for CO oxidation on silver catalyst. (C) 2004 Published by Elsevier Inc.

Two Immunoregulatory Peptides with Antioxidant Activity from Tick Salivary Glands

Ticks are blood-feeding arthropods that may secrete immunosuppressant molecules, which inhibit host inflammatory and immune responses and provide survival advantages to pathogens at tick bleeding sites in hosts. In the current work, two families of immunoregulatory peptides, hyalomin-A and -B, were first identified from salivary glands of hard tick Hyalomma asiaticum asiaticum. Three copies of hyalomin-A are encoded by an identical gene and released from the same protein precursor. Both hyalomin-A and -B can exert significant anti-inflammatory functions, either by directly inhibiting host secretion of inflammatory factors such as tumor necrosis factor-alpha, monocyte chemotectic protein-1, and interferon-gamma or by indirectly increasing the secretion of immunosuppressant cytokine of interleukin-10. Hyalomin-A and -B were both found to potently scavenge free radical in vitro in a rapid manner and inhibited adjuvant-induced inflammation in mouse models in vivo. The JNK/SAPK subgroup of the MAPK signaling pathway was involved in such immunoregulatory functions of hyalomin-A and -B. These results showed that immunoregulatory peptides of tick salivary glands suppress host inflammatory response by modulating cytokine secretion and detoxifying reactive oxygen species.

Frog skins keep redox homeostasis by antioxidant peptides with rapid radical scavenging ability

The question of how amphibians can protect themselves from reactive oxygen species when exposed to the sun in an oxygen-rich atmosphere is important and interesting, not only from an evolutionary viewpoint, but also as a primer for researchers interested in mammalian skin biology, in which such peptide systems for antioxidant defense are not well studied. The identification of an antioxidant peptide named antioxidin-RL from frog (Odorrana livida) skin in this report supports the idea that a peptide antioxidant system may be a widespread antioxidant strategy among amphibian skins. Its ability to eliminate most of the 2,2'-azino-bis(3-ethylbenzthiazoline-6-sulfonic acid) radical tested within 2 s, which is much faster than the commercial antioxidant factor butylated hydroxytoluene, suggests that it has a potentially large impact on redox homeostasis in amphibian skins. Cys10 is proven to be responsible for its rapid radical scavenging function and tyrosines take part in the binding of antioxidin-RL to radicals according to our nuclear magnetic resonance assay. (C) 2010 Elsevier Inc. All rights reserved.

Ultraviolet-B exposure induces photo-oxidative damage and subsequent repair strategies in a desert cyanobacterium Microcoleus vaginatus Gom.

Biological soil crusts are important in reversing desertification. Ultraviolet radiation, however, may be detrimental for the development of soil crusts. The cyanobacterium Microcoleus vaginatus can be a dominant species occurring in desert soil crusts all over the world. To investigate the physico-chemical consequences of ultraviolet-B radiation on M. vaginatus, eight parameters including the contents of chlorophyll a, reactive oxygen species, malondialdehyde and proline, as well as the activities of photosynthesis, superoxide dismutase (EC 1.15.1.1), peroxiclase (EC 1.11.1.7) and catalase (EC 1.11.1.6) were determined. As shown by the results of determinations, ultraviolet-B radiation caused decreases both in contents of chlorophyll a and in ratios of variable fluorescence over maximum fluorescence that indicate the growth and photosynthesis of M. vaginatus, besides, increases both in levels of reactive oxygen species and in contents of malondialdehyde and proline, while intensified activities of superoxide dismutase, peroxiclase and catalase reflecting the abilities of enzymatic preventive substances to oxidative stress of the treated cells. Therefore, ultraviolet-B radiation affects the growth of M. vaginatus and leads to oxidative stress in cells. Under ultraviolet-B radiation, the treated cells can improve their antioxidant abilities to alleviate oxidative injury. The change trends of reactive oxygen species, superoxide dismutase, peroxiclase and catalase are synchronous. These results suggest that a balance between the antioxidant system and the reactive oxygen species content may be one part of a complex stress response pathway in which multiple environmental factors including ultraviolet-B radiation affect the Survival of M. vaginatus. (C) 2009 Elsevier Masson SAS. All rights reserved.