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A metallothionein-like (rgMT) gene was isolated from a rice (Oryza sativa L.) root cDNA library that was prepared from plants grown under NaHCO3 stress. The rgMT gene expression was induced in rice leaves and roots under several abiotic stresses from salts (NaCl and NaHCO3), drought (PEG) and metals (CuCl2, ZnCl2, CdCl2). The results suggested that the rgMT gene was expressed in response to environmental stresses. The rgMT gene was expressed in Escherichia coli, and the final yield of the purified rgMT protein was 4.8 mg g−1 dry cells. Tolerance of E. coli expressing GST-rgMT fusion protein to Cu2+, Zn2+ and Cd2+ was enhanced, and cells dry weight increased 0.04 mg, 0.17 mg and 0.07 mg in 1 ml culture treated with either CuCl2, ZnCl2 or CdCl2, respectively, compared with control after 6 h culture. 相似文献
123.
The replacement histone H3 gene and its 5'-flanking sequence were isolated from Italian ryegrass by polymerase chain reaction and inverse polymerase chain reaction, respectively. Expression analysis showed that this gene is constitutively expressed in the entire plant. The expression level in leaves was found to be significantly low when compared with that in other tissues. However, the gene expression level in leaves was increased by the treatment with abscisic acid and abiotic stresses such as cold, heat and high-salinity (NaCl). The motif search of the 5'-flanking sequence of the replacement histone H3 gene revealed the presence of several potential cis-acting elements that could respond to the above-mentioned abiotic stresses. In addition to defence-related elements, we also found type I and II-/III-like elements, which are highly conserved motifs in the 5'-regulatory sequence of plant histone genes that are expressed specifically during the S-phase. Experiments using transgenic Italian ryegrass plants proved that the isolated 5'-flanking sequence of the replacement histone H3 gene, which was fused to a beta-glucuronidase reporter gene, was fully functional for inducing gene expression under various abiotic stress conditions. 相似文献
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Motivated by an important biomarker study in nutritional epidemiology, we consider the combination of the linear mixed measurement error model and the linear seemingly unrelated regression model, hence Seemingly Unrelated Measurement Error Models. In our context, we have data on protein intake and energy (caloric) intake from both a food frequency questionnaire (FFQ) and a biomarker, and wish to understand the measurement error properties of the FFQ for each nutrient. Our idea is to develop separate marginal mixed measurement error models for each nutrient, and then combine them into a larger multivariate measurement error model: the two measurement error models are seemingly unrelated because they concern different nutrients, but aspects of each model are highly correlated. As in any seemingly unrelated regression context, the hope is to achieve gains in statistical efficiency compared to fitting each model separately. We show that if we employ a "full" model (fully parameterized), the combination of the two measurement error models leads to no gain over considering each model separately. However, there is also a scientifically motivated "reduced" model that sets certain parameters in the "full" model equal to zero, and for which the combination of the two measurement error models leads to considerable gain over considering each model separately, e.g., 40% decrease in standard errors. We use the Akaike information criterion to distinguish between the two possibilities, and show that the resulting estimates achieve major gains in efficiency. We also describe theoretical and serious practical problems with the Bayes information criterion in this context. 相似文献
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Remans T Thijs S Truyens S Weyens N Schellingen K Keunen E Gielen H Cuypers A Vangronsveld J 《Annals of botany》2012,110(2):239-252
Background and Scope
Plant responses to the toxic effects of soil contaminants, such as excess metals or organic substances, have been studied mainly at physiological, biochemical and molecular levels, but the influence on root system architecture has received little attention. Nevertheless, the precise position, morphology and extent of roots can influence contaminant uptake. Here, data are discussed that aim to increase the molecular and ecological understanding of the influence of contaminants on root system architecture. Furthermore, the potential of plant-associated bacteria to influence root growth by their growth-promoting and stress-relieving capacities is explored.Methods
Root growth parameters of Arabidopsis thaliana seedlings grown in vertical agar plates are quantified. Mutants are used in a reverse genetics approach to identify molecular components underlying quantitative changes in root architecture after exposure to excess cadmium, copper or zinc. Plant-associated bacteria are isolated from contaminated environments, genotypically and phenotypically characterized, and used to test plant root growth improvement in the presence of contaminants.Key Results
The molecular determinants of primary root growth inhibition and effects on lateral root density by cadmium were identified. A vertical split-root system revealed local effects of cadmium and copper on root development. However, systemic effects of zinc exposure on root growth reduced both the avoidance of contaminated areas and colonization of non-contaminated areas. The potential for growth promotion and contaminant degradation of plant-associated bacteria was demonstrated by improved root growth of inoculated plants exposed to 2,4-di-nitro-toluene (DNT) or cadmium.Conclusions
Knowledge concerning the specific influence of different contaminants on root system architecture and the molecular mechanisms by which this is achieved can be combined with the exploitation of plant-associated bacteria to influence root development and increase plant stress tolerance, which should lead to more optimal root systems for application in phytoremediation or safer biomass production. 相似文献127.
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Questions: Is plant species richness, diversity and above‐ground standing biomass enhanced after establishing exclosures on communal grazing lands? What factors influence the effectiveness of exclosures to restore degraded native vegetation in Tigray, Ethiopia? Location: Northern Ethiopia. Methods: We used a space‐for‐time substitution approach to detect changes in plant species richness, diversity and above‐ground standing biomass after conversion of communal grazing lands to exclosures. We selected replicated (n=3) 5‐, 10‐, 15‐ and 20‐year‐old exclosures and paired each exclosure with an adjacent communal grazing land to ensure that soil and terrain conditions were as similar as possible among each pair. Results: All exclosures displayed higher plant species richness, diversity and biomass than the communal grazing lands. Differences in plant species richness and biomass between an exclosure age and adjacent communal grazing land were higher in oldest than in youngest exclosures. In exclosures, much of the variability in plant species composition and biomass was explained by a combination of edaphic (total nitrogen, phosphorus, texture and soil pH) and site (precipitation and altitude) variables (R2=0.72–0.82). Edaphic and site variables also explained much of the variability in plant species composition in communal grazing lands (R2=0.76–0.82). Our study shows that all exclosures are at an early stage of succession. The increase in economically important indigenous shrub and tree species with exclosure age suggests that, with time, a valuable afromontane forest may develop. Conclusions: Establishment of exclosures on communal grazing lands is a viable option to restore degraded native vegetation. However, before expanding exclosures, the ecological consequences of additional exclosures should be investigated as further expansion of exclosures could increase grazing pressure on remaining grazing areas. Furthermore, consideration of edaphic and site variables will help optimize selection of areas for establishment of exclosures and enhance natural regeneration in exclosures in the future. 相似文献
130.