Antagonistic Regulation of Arabidopsis Growth by Brassinosteroids and Abiotic Stresses

To withstand ever-changing environmental stresses, plants are equipped with phytohormone-mediated stress resistance mechanisms. Salt stress triggers abscisic acid (ABA) signaling, which enhances stress tolerance at the expense of growth. ABA is thought to inhibit the action of growth-promoting hormones, including brassinosteroids (BRs). However, the regulatory mechanisms that coordinate ABA and BR activity remain to be discovered. We noticed that ABA-treated seedlings exhibited small, round leaves and short roots, a phenotype that is characteristic of the BR signaling mutant, brassinosteroid insensitive1-9 (bri1-9). To identify genes that are antagonistically regulated by ABA and BRs, we examined published Arabidopsis microarray data sets. Of the list of genes identified, those upregulated by ABA but downregulated by BRs were enriched with a BRRE motif in their promoter sequences. After validating the microarray data using quantitative RT-PCR, we focused on RD26, which is induced by salt stress. Histochemical analysis of transgenic Arabidopsis plants expressing RD26pro:GUS revealed that the induction of GUS expression after NaCl treatment was suppressed by co-treatment with BRs, but enhanced by co-treatment with propiconazole, a BR biosynthetic inhibitor. Similarly, treatment with bikinin, an inhibitor of BIN2 kinase, not only inhibited RD26 expression, but also reduced the survival rate of the plant following exposure to salt stress. Our results suggest that ABA and BRs act antagonistically on their target genes at or after the BIN2 step in BR signaling pathways, and suggest a mechanism by which plants fine-tune their growth, particularly when stress responses and growth compete for resources.     

植物对非生物胁迫应答的转录因子及调控机制

植物对非生物胁迫的应答反应涉及到许多基因和生化分子机制,胁迫相关基因、蛋白质及代谢物构成了一个复杂的调控网络,其中转录控制具有举足轻重的作用。本文主要对近年来发现的几种在转录控制中起关键作用的转录因子CBF/DREB、bZIP、MYB/MYC和HSF及其调控机制进行介绍。这几种转录因子可以分别和胁迫应答顺式作用元件CRT/DRE、ABRE、MYB/MYC识别位点及HSE结合,在非生物胁迫条件下调控下游靶基因的表达,进而使一些胁迫保护物质如脯氨酸、可溶性糖类、自由基的清除剂、热休克蛋白和分子伴侣等的表达水平升高,最终增强植物对非生物胁迫的耐受能力。     

过量钠盐胁迫对3种外生菌根真菌生长和钠元素积累的影响*

通过测定3种外生菌根真菌-美味牛肝菌(Boletus edulis)、红绒盖牛肝(Xerocomus chtysenterort)和铆钉菇(Gomphidius viscidus)在Na2SO4和NaCl处理下的菌斑增长特性、生物量积累和菌丝中钠元素积累量显示,2种盐都没有影响菌丝的生长模式。但在0．1mol／L浓度下,NaCl显抑制了X．chrysertterort和G．viscidus的干重增长;在Na2SO4处理下,X．chrysenteron生物增长量比对照显增加,G．viscidus则降低,而2种盐处理对B．edtdis的生物量积累没有显影响。3供试菌种在2种盐处理下,其对钠元素的吸收和积累量差异显。NaCl处理下,X．chtysenteron菌丝积累的钠量最多,而在Na2SO4条件下,B．edulis菌丝中钠积累量显高于其他2菌种。     

脯氨酸在植物生长和非生物胁迫耐受中的作用

脯氨酸是生物界分布最广的渗透保护物质之一,干旱、高盐、高温及重金属等非生物胁迫条件都会导致植物体内脯氨酸含量的增加,其作用是防止渗透胁迫对植物造成的伤害、清除自由基,还可以作为氮、碳以及NADPH的重要来源。近年来,在转化脯氨酸代谢相关基因提高植物胁迫抗性方面也取得了很大进展。本文概要介绍了脯氨酸在植物生长和耐受非生物胁迫中的作用、与植物脯氨酸累积有关的信号转导、胁迫条件下脯氨酸的吸收和器官间的运输途径,以及通过转基因技术过量表达脯氨酸提高植物胁迫耐性的代谢工程的进展。     

非生物胁迫对烟草悬浮细胞胞内和胞外ATP水平的影响

以烟草悬浮细胞BY-2(Nicotiana tabacum ‘Bright Yellow-2’)为材料,研究了NaCl、PEG(6000)、低温3种非生物胁迫对细胞内ATP(intracellular ATP,iATP)和细胞外ATP(extracellular ATP,eATP)水平的影响。结果显示：50～200 mmol·L^-1 NaCl处理导致烟草悬浮细胞膜通透性显著增加(P<0.05),100和200 mmol·L^-1 NaCl处理时iATP和eATP水平显著降低(P<0.05)。随着PEG质量浓度的增加(50、100、200 g·L^-1),烟草悬浮细胞膜通透性和eATP水平逐渐增加,其中在200 g·L^-1 PEG处理时eATP水平显著增加至对照的3.4倍(P<0.05),而iATP水平则在200 g·L^-1 PEG处理时显著降低至对照的0.5倍(P<0.05)。0～10℃低温处理后,烟草悬浮细胞膜通透性和iATP水平呈不同程度增加,其中0℃处...     

逆境胁迫下植物体内活性氧代谢及调控机理研究进展

活性氧(reactive oxygen species, ROS)在植物生长发育中扮演着十分重要的角色。适当浓度的ROS是植物所必需的,而在逆境胁迫下ROS会大量积累,从而抑制植物的生长发育甚至杀死植物。为了维持体内ROS的动态平衡,植物进化出了一系列的ROS产生及清除机制。本文对近年来植物在逆境下的ROS产生、清除及其调节机制的研究进展予以综述,重点介绍转录及翻译后水平的ROS清除及其调节机制,并对植物ROS代谢及调控机理的研究提出了进一步展望。     

Growth and Solute Composition in Two Wheat Species Experiencing Combined Influence of Stress Conditions1

The effects of environmental stress combinations on the soluble metabolites were investigated in several cultivars of Triticum aestivum and T. durum. The seedlings grown at optimum (24/16°C), low (5/–5°C) (LT), and high (40/30°C) (HT) day/night temperature conditions were exposed to waterlogging, drought, and salinity (0.7% NaCl, w/w) stresses for six days. Root and shoot fresh weight significantly decreased under waterlogging, drought and salt stresses. Fresh weight was most reduced at severe drought + HT combinations. The lowest relative water content was found under drought stress + HT combination. Soluble carbohydrate (SC) contents increased under LT conditions, but decreased under HT conditions. Under HT + salt combinations, T. aestivum genotypes showed higher SC content thanT. durum genotypes. Proline content significantly increased in the case of water deficit and salt stress. Under drought and salt stresses, T. aestivum genotypes had lower proline contents than T. durum genotypes. These results indicate that biochemical responses to drought, waterlogging, and salt stresses were significantly changed in wheat seedlings under LT and HT conditions.     

Cross‐Species Alleviation of Biotic and Abiotic Stresses by the Endophyte Pseudomonas aeruginosa PW09

A wheat endophytic bacterium (Pseudomonas aeruginosa PW09) was evaluated for its ability to trigger an induced systemic resistance response in cucumber against biotic and abiotic stresses. PW09 was applied to cucumber seeds, and the seedlings were subjected to Sclerotium rolfsii infection and NaCl (150 mm ). The role of PW09 was evaluated in alleviating the stresses by assessing plant mortality due to S. rolfsii infection and biomass accumulation under NaCl stress as well as at the physiological level through phenylpropanoid metabolism, antioxidant activities and proline accumulation. The endophyte reduced seedling mortality by 60% and increased biomass accumulation significantly under S. rolfsii (7%) and NaCl (18%) stresses, respectively, compared with endophyte‐untreated seedlings. Application of PW09 also induced higher accumulation of proline (1.3‐ and 1.4‐fold) and total phenolics (1.2‐ and 1.1‐fold) and activities of polyphenol oxidase (4.3‐ and 1.5‐fold), phenylalanine ammonia lyase (1.29‐ and 1.27‐fold) and superoxide dismutase (2.5‐ and 1.39‐fold) under S. rolfsii and NaCl stresses, indicating the ability of the wheat endophyte PW09 in alleviating both biotic and abiotic stresses in cucumber.     

Effects of Arsenic on Growth, Photosynthetic Activity, and Accumulation in Two New Hyperaccumulating Populations of Isatis cappadocica Desv.

The effect of arsenic on leaf photosynthetic rate, growth responses, and accumulation capability of Isatis cappadocica Desv., a Brassica collected from Iranian arsenic-contaminated mine spoils and control populations, was investigated. Both populations of I. cappadocica were considerably more tolerant than the reference Brassica species (Descurainia sophia). The 1,000 μM arsenate exposure inhibited root growth completely in D. sophia, but only by 50 and 40 % in the nonmine and mine populations of I. cappadocica, respectively. Furthermore, the chlorophyll contents of both populations of I. cappadocica were not statistically different, especially when plants were exposed to 5–800 μM As. The chlorophyll a fluorescence kinetics (F _v/F _m) and electron transfer rate values of treated I. cappadocica populations remained unaffected, indicating normal photosynthetic efficiency and strength of plants in the presence of arsenic. After 28 days of exposure to 1,300 μM As, shoot arsenic concentrations of mine and nonmine populations reached 310 and 345 mg kg^?1, respectively, with the arsenic transfer factor and bioaccumulation greater than 1.0. According to these results, it was shown that I. cappadocica had strong tolerance to and the capability to hyperaccumulate arsenic; therefore, it is a potential As hyperaccumulator.     

Effects of Brassmosteroids on Growth, Nodulation, Phytohormone Content and Nitrogenase Activity in French Bean Under Water Stress

Effect of pre-treatments of 1 and 5 M epibrassinolide or homobrassinolide prior to water stress induction on changes in root nodulation and contents of endogenous abscisic acid (ABA) and cytokinin trans-zeatin riboside (ZR), and nitrogenase activity was investigated in the nodulated roots of Phaseolus vulgaris L. cv. Arka Suvidha. Brassinosteroids in the unstressed plants increased root nodulation, ZR content and nitrogenase activity, and also ameliorated their stress-induced decline in the nodulated roots. The ABA contents in the nodules of control or stressed plants were not altered by brassinosteroids treatment. There was an increase in pod yield by brassinosteroids treatment (5 M) in the irrigated control as well as stressed plants without influencing pod number or pod length. Among the brassinosteroids, epibrassinolide was relatively more effective.     

锌对盐藻生长与物质积累的调控作用

实验研究了不同浓度的锌对盐藻细胞生长与物质积累的调控作用。结果表明,培养液中供给锌过多或过少都不利于盐藻细胞的生长与物质积累。以培养基中6 mg/L的锌浓度对盐藻细胞生长、蛋白质合成与β-胡萝卜素积累的促进作用最大。这一锌浓度可用于盐藻的生产性培养。当培养液中锌浓度较高(8 mg/L)或较低(2 mg/L)时,单个盐藻细胞中的蛋白质与β-胡萝卜素含量较高。但此时,因培养液中细胞密度较低,盐藻细胞积累的物质总量仍然较少。在锌浓度较高或较低的逆境条件下,盐藻可能通过适应性反应形成了逆境蛋白质与胡萝卜素等。     

微量元素对乙酰乳酸脱羧酶发酵酶活力的影响

目的是通过研究微量元素对乙酰乳酸脱羧酶的影响,来提高乙酰乳酸脱羧酶的活力。在实验室阶段,考察了多种微量元素对乙酰乳酸脱羧酶发酵酶活力的影响,通过单因子实验确定出微量元素的最佳浓度,并通过正交试验来摸索最佳的组合。验证试验结果表明：四种微量元素在最佳浓度分别镁0．0025g／L、锰0．00025g／L、钼0．0025g／L、钡0．0005g／L的组合下,可使酶的激活率达199％以上。     

首云铁矿废弃土壤对2种景天属植物生长的影响

为评价景天属（Sedum）植物在矿山废弃地植被恢复中的应用潜力,以2种景天：德国景天（S. hybridum ‘Immergrunchen’）和胭脂红景天（S. spurium ‘Coccineum’）的扦插苗为试验材料,通过盆栽试验研究其在北京首云铁矿废弃土壤（包括采矿区土壤、排土场土壤、尾矿砂）2个生长季内的各项生长指标,以确定其在各废弃土壤上的适应性,并运用相关分析和典范对应分析,探讨影响2种景天生长的主要土壤理化性质。结果表明：①2种景天在采矿区土壤、排土场土壤和尾矿砂上的存活率分别为40%~66%、68%~90%、33%~46%;②不同废弃土壤对2种景天的地上部分和地下根系的各项生长指标均产生了显著的抑制作用,但德国景天在采矿区土壤的适应性较好,可作为采矿区修复的推荐品种,胭脂红景天在排土场土壤的生长表现较好,可作为排土场的修复品种;③影响景天属植物生长的土壤因子为通气孔隙度和土壤含水量,其中通气孔隙度的解释率为12.4%,土壤含水量的解释率为8.6%。     

Effects of Abiotic and Biotic Stresses on the Internalization and Dissemination of Human Norovirus Surrogates in Growing Romaine Lettuce

Human norovirus (NoV) is the major causative agent of fresh-produce-related outbreaks of gastroenteritis; however, the ecology and persistence of human NoV in produce systems are poorly understood. In this study, the effects of abiotic and biotic stresses on the internalization and dissemination of two human NoV surrogates (murine norovirus 1 [MNV-1] and Tulane virus [TV]) in romaine lettuce were determined. To induce abiotic stress, romaine lettuce was grown under drought and flood conditions that mimic extreme weather events, followed by inoculation of soil with MNV-1 or TV. Independently, lettuce plants were infected with lettuce mosaic virus (LMV) to induce biotic stress, followed by inoculation with TV. Plants were grown for 14 days, and viral titers in harvested tissues were determined by plaque assays. It was found that drought stress significantly decreased the rates of both MNV-1 and TV internalization and dissemination. In contrast, neither flood stress nor biotic stress significantly impacted viral internalization or dissemination. Additionally, the rates of TV internalization and dissemination in soil-grown lettuce were significantly higher than those for MNV-1. Collectively, these results demonstrated that (i) human NoV surrogates can be internalized via roots and disseminated to shoots and leaves of romaine lettuce grown in soil, (ii) abiotic stress (drought) but not biotic stress (LMV infection) affects the rates of viral internalization and dissemination, and (iii) the type of virus affects the efficiency of internalization and dissemination. This study also highlights the need to develop effective measures to eliminate internalized viruses in fresh produce.     

盐胁迫对两种淫羊藿属植物生长及各器官总黄酮含量的影响

采用不同浓度NaCl(0、100、200、300和500 mmol/L)的Hoagland's培养液处理两种淫羊藿属植物--淫羊藿、箭叶淫羊藿幼苗,处理30 d后分别测定其株高、叶表面积、干物质生物量以及根、茎、叶的总黄酮含量,以明确淫羊藿属两种药用植物的抗盐特性.结果显示:(1)盐胁迫对淫羊藿和箭叶淫羊藿的生长均有影响,随着NaCl处理浓度的增加,淫羊藿、箭叶淫羊藿的株高和叶表面积均逐渐显著减小;各器官干物质生物量逐渐降低,但淫羊藿的干物质下降量较小(不显著),且同一处理下淫羊藿的生物量明显小于箭叶淫羊藿.(2)随着NaCl胁迫浓度的增加,除淫羊藿茎的总黄酮含量一直呈下降趋势外,淫羊藿根、叶和箭叶淫羊藿根、茎、叶均呈现在低浓度范围内总黄酮含量增加,且箭叶淫羊藿的含量高于淫羊藿;而在高浓度盐胁迫下,其总黄酮含量均呈下降的趋势,且淫羊藿的含量高于箭叶淫羊藿.研究表明,淫羊藿的抗盐性明显高于箭叶淫羊藿,适于高盐土壤环境种植,但在低盐环境条件下,种植箭叶淫羊藿可显著提高总黄酮产量并提高经济效益.     

2个慈竹bZIP基因的克隆、生物信息学分析及其诱导表达

从慈竹笋转录组数据库中筛选并克隆出2个bZIP基因（BebZIP2和BebZIP6）进行生物信息学分析。分析结果表明,它们编码序列长度分别为504和720 bp,编码167个和239个氨基酸,BebZIP2和BebZIP6属于bZIP相关蛋白,与水稻OsbZIP52/RISBZ5蛋白聚在一枝。组织表达分析表明,这2个慈竹BebZIP基因在慈竹笋、茎、展开叶和未展开叶等部位均有表达,属于组成型表达,同一基因在不同组织中的表达量差异较大,表达量的大小为未展开叶 > 展开叶 > 茎 > 笋。对慈竹幼苗进行ABA、NaCl和PEG6000非生物胁迫处理,结果表明,BebZIP2和BebZIP6对盐、干旱和ABA胁迫均具有不同程度的响应。     

镁肥对马尾松幼苗生长与叶片元素积累的影响

为了探讨上杭种源马尾松Pinus massoniana叶营养与生长对不同镁肥水平的响应,以其优良种源1年生苗为材料,设置4个镁肥梯度(42 g·m-2、85 g·m-2、170 g·m-2、339 g·m-2),测定移栽1年后苗木生长指标及叶内营养含量。结果表明,施镁能够促进元素P、K、Ca、Fe、Cu、Zn积累,抑制N、Mg、Mn积累;镁施肥量为85 g·m-2时,对N、Mg、Mn积累的抑制作用不显著,对P、K、Ca、Fe、Cu、Zn积累的促进作用最大,苗木生长最好,为最佳施肥量。施镁并不能促进苗木对镁的吸收,而是改变了营养供应的土壤环境,从而改变植物对其他营养的吸收比例,进而影响植物的生长。苗木的生长与Fe、P、K的关系最为密切,其次是Mg、Mn、Ca、N、Cu、Zn。     

盐分和水分胁迫对芦荟幼苗渗透调节和渗调物质积累的影响

用不同浓度NaCl和等渗聚乙二醇(PEG 6000)处理芦荟(Aloe vera L.)幼苗,10 d后测定叶片相对生长速率和厚度、叶片中主要有机溶质、无机离子含量及渗透调节能力.结果表明,-0.44、-0.88 MPa NaCl和PEG处理使芦荟叶片的相对生长速率和叶片厚度明显下降,且盐胁迫对幼苗生长的抑制和叶片含水量降低的效应明显高于等渗的水分胁迫,其叶片渗透调节能力随处理渗透势的降低而增加, -0.88 MPa PEG胁迫的芦荟幼苗的渗透调节能力高于等渗盐分胁迫.在主要渗透调节物质可溶性糖、有机酸、K 、Ca2 和Cl-中,-0.88 MPa PEG处理下含量比相同渗透势的NaCl处理下显著增加的是有机溶质,因此推断有机溶质含量高是PEG胁迫下渗透调节能力较强的主要因素.