Abscisic acid alleviates iron deficiency by promoting root iron reutilization and transport from root to shoot in Arabidopsis

Abscisic acid (ABA) has been demonstrated to be involved in iron (Fe) homeostasis, but the underlying mechanism is largely unknown. Here, we found that Fe deficiency induced ABA accumulation rapidly (within 6 h) in the roots of Arabidopsis. Exogenous ABA at 0.5 μM decreased the amount of root apoplastic Fe bound to pectin and hemicellulose, and increased the shoot Fe content significantly, thus alleviating Fe deficiency‐induced chlorosis. Exogenous ABA promoted the secretion of phenolics to release apoplastic Fe and up‐regulated the expression of AtNRAMP3 to enhance reutilization of Fe stored in the vacuoles, leading to a higher level of soluble Fe and lower ferric–chelate reductase (FCR) activity in roots. Treatment with ABA also led to increased Fe concentrations in the xylem sap, partially because of the up‐regulation of AtFRD3, AtYSL2 and AtNAS1, genes related to long‐distance transport of Fe. Exogenous ABA could not alleviate the chlorosis of abi5 mutant resulting from the significantly low expression of AtYSL2 and low transport of Fe from root to shoot. Taken together, our data support the conclusion that ABA is involved in the reutilization and transport of Fe from root to shoot under Fe deficiency conditions in Arabidopsis.     

Lakes as nitrous oxide sources in the boreal landscape

Estimates of regional and global freshwater N₂O emissions have remained inaccurate due to scarce data and complexity of the multiple processes driving N₂O fluxes the focus predominantly being on summer time measurements from emission hot spots, agricultural streams. Here, we present four‐season data of N₂O concentrations in the water columns of randomly selected boreal lakes covering a large variation in latitude, lake type, area, depth, water chemistry, and land use cover. Nitrate was the key driver for N₂O dynamics, explaining as much as 78% of the variation of the seasonal mean N₂O concentrations across all lakes. Nitrate concentrations varied among seasons being highest in winter and lowest in summer. Of the surface water samples, 71% were oversaturated with N₂O relative to the atmosphere. Largest oversaturation was measured in winter and lowest in summer stressing the importance to include full year N₂O measurements in annual emission estimates. Including winter data resulted in fourfold annual N₂O emission estimates compared to summer only measurements. Nutrient‐rich calcareous and large humic lakes had the highest annual N₂O emissions. Our emission estimates for Finnish and boreal lakes are 0.6 and 29 Gg N₂O‐N/year, respectively. The global warming potential of N₂O from lakes cannot be neglected in the boreal landscape, being 35% of that of diffusive CH₄ emission in Finnish lakes.     

Presence and possible origin of positive Eu anomaly in shoot samples of Juncus effusus L

BackgroundThe rare earth elements (REE) are non-essential elements for plants. They stimulate plant growth at low doses, but at high levels are phytotoxic. There are differences in concentrations of REE in various organs of the same plant species, but the normalized REE patterns can be very similar in samples of the same species collected in different locations. Here we compare normalized REE curves in above-ground samples of Juncus effusus L. (common rush, soft rush) collected from sites with different land-use types.MethodsThe concentrations of rare earth elements were measured in 55 shoot samples of J. effusus L. The samples were collected from 15 sampling sites located in the Holy Cross Mts., south-central Poland and analyzed with the use of inductively coupled plasma mass spectrometry (ICP-MS). The results were normalized to the North American Shale Composite and anomalies of different elements were calculated.ResultsTotal REE concentrations varied from 0.028 mg/kg to 2.7 mg/kg. The samples were enriched in the light REE (from La to Eu) with the highest concentrations of La and Ce. The North American Shale Composite (NASC)-normalized REE curves were roughly similar in all samples except for two samples collected in the acid mine drainageaffected areas.ConclusionAll samples showed positive europium anomalies in NASC-normalized REE concentration patterns. The most probable explanation of this is that the uptake and translocation of Eu in J. effusus (and possibly in other wetland plants) is caused by a short-term decrease of the redox potential in a rhizosphere favoring reduction of Eu³⁺ to Eu²⁺ and thus enhancing Eu mobility in the soil-plant environment.     

哺乳动物细胞高效表达载体的优化

目的:优化哺乳动物细胞表达系统,提高目的基因的表达效率。方法:以组织型纤溶酶原激活剂(tPA)为报告基因,利用本实验室建立的CHOfrt/dhfr-细胞定点整合表达系统,对多种表达调控元件(包括hCMV和hEF-1α启动子、hCMV增强子、hEF-1α1st内含子及翻译增强子H213和V163等)及其多种组合的表达效率进行了系统的比较和评价。结果:hCMV启动子与H213组合以及hEF-1α启动子与V163组合的表达效率分别是仅含hCMV启动子的156.6%和139.5%。结论:该研究为构建高效的哺乳动物细胞表达载体奠定了基础。     

五种矿质元素对草菇菌丝生长和活性氧清除能力的影响

【背景】菌种退化是草菇生产中面临的难题,探究一种简单高效的复壮方法是草菇产业亟须解决的问题。【目的】探讨外源添加5种矿质元素对草菇退化菌株的菌丝性状和活性氧(reactive oxygen species, ROS)清除能力的影响。【方法】筛选出5种矿质元素的最佳浓度并添加于PDA培养基中,测定草菇菌落形态、菌丝生长速度、菌丝生物量、ROS含量、抗氧化酶活性及抗氧化物质含量。【结果】MnSO4、Na2SeO3、CaSO4、FeSO4可有效提高草菇退化菌株D1和D2的菌丝生长速度和生物量;降低O2·-、H2O2等ROS的含量,并增加还原型谷胱甘肽(glutathione, GSH)、氧化型谷胱甘肽(glutathionedisulfide,GSSG)的含量及超氧化物歧化酶(superoxidedismutase,SOD)、过氧化氢酶(catalase, CAT)、谷胱甘肽...     

Essential Elements as a Distinguishing Factor between Mycorrhizal Potentials of Two Cohabiting Truffle Species in Riparian Forest Habitat in Serbia

True truffles (Tuber sp.) that establish ectomycorrhizal symbiosis (ECM) with trees in the Mediterranean and temporal regions have species specific abilities to assimilate soil born elements. Suitable habitats are usually inhabited by few truffle species, while distinguishing their symbiotic potentials appeared very difficult. Two species that commonly inhabit riparian forests in Serbia are the most prized one, Tuber magnatum Pico (Piedmont white truffle) and not so highly valued Tuber brumale Vitt . In order to assess potential differences between their assimilation and accumulation abilities, the differences between contents of elements that may be the subjects of the symbiotic trade between the host plant and fungi were evaluated in accumulation target (ascocarps) and their source (the soil). Essential (K, Na, Ca, Mg, Fe, P, S, and Zn) and essential trace elements (Co, Cr, Cu, Mn, and Se) in truffles and soil samples were determined by means of inductively coupled plasma with optical emission spectrometry (ICP‐OES). Their concentrations (mg/kg) in ascocarps were in the range from 1.364±0.591 (Cr) to 10760.862±16.058 (K), while in soil ranged from 23.035±0.010 (Cr) to 20809.300±122.934 (Fe). Element accumulation potential (bioaccumulation factor) was calculated in the system truffle/soil. The statistical approaches were used for establishing the differences, while the possible differentiation between symbiotic potentials of two mycelia in the defined soil conditions was discussed.     

浙江镜湖湿地3种菌根植物根部真菌群落多样性及对金属元素富集能力的研究

城市湿地（urban wetland）植物多样性水平高,并具有积极的净化和美化环境的作用。本研究以浙江绍兴镜湖城市湿地公园为研究样地,通过ICP-AES检测了人工园区和次生林土壤中几种金属元素（Al、Cr、Cu、K和Zn）的含量,比较不同类型的菌根植物——黑麦草（Lolium perenne L.）（AM）、六月霜（Monochasma sauatieri Franch）（AM）和乌饭树（Vaccinium bracteatum Thunb）（ERM）对金属元素的富集作用。通过高通量测序分析各宿主植物根部真菌群落的组成和结构,比较其对宿主植物金属富集能力的影响。结果表明：（1）人工园区土壤中5种金属元素的含量均显著高于次生林下的土壤;（2）乌饭树对Al的富集能力较强,黑麦草和六月霜富集Cr能力都较强;（3）3种植物根部真菌主要来自Ascomycota,而乌饭树根部Basidiomycota也是优势真菌,AM真菌在黑麦草和六月霜根部真菌群落结构中较少,而公认的ERM真菌Helotiales和Sebacinales在乌饭树根部真菌群落中的比例较高,且与所测金属元素无显著相关性。绍兴镜湖城市湿地公园次生林土壤环境保持良好。