拟南芥ABC转运类蛋白家族的分子进化、表达模式和蛋白功能网络预测分析

ABC转运蛋白又称腺苷三磷酸结合盒转运蛋白(ATP-binding cassette transporters),该基因家族是目前已知最大、最古老的蛋白家族之一,在植物中ABC转运蛋白种类繁多、结构复杂、功能多样,涉及植物一切的生命活动过程。本研究系统介绍了拟南芥中131个ABC转运蛋白的亚家族分类、系统命名、蛋白大小以及蛋白亚细胞定位等基因信息,在此基础上,分析了ABC转运蛋白基因在染色体分布以及进化过程中发生的复制事件;其次在47个组织器官或发育阶段中聚类分析了ABC转运蛋白的表达模式和各个亚家族分布规律,结果表明ABC转运蛋白基因的表达具有明显的组织特异性和时空特异性,说明在进化过程中该类蛋白功能也进一步发生分化;我们以花药发育过程为例,说明ABC转运蛋白在花药发育过程中具有较高的协调性,在时空和组织上表达受到严格的调控;最后我们分析了ABC转运蛋白亚家族内部和各个亚家族之间可能存在的蛋白相互作用关系,推测ABC半分子转运蛋白形成同源或异源二聚体发挥功能的可能性,进一步说明ABC转运蛋白在蛋白互作水平上也存在功能多样性和严格的调控关系。     

An ABC transporter gene of Arabidopsis thaliana, AtWBC11, is involved in cuticle development and prevention of organ fusion

Cuticle, including wax and cutin, is the barrier covering plant aerial organs and protecting the inner tissues. The Arabidopsis thaliana ATP-binding cassette (ABC) transporter CER5 (AtWBC12) has been identified as a wax exporter. In agreement with the latest report of another wax exporter, AtWBC11, here we show that atwbc11 mutants displayed organ fusions and stunted growth, and became vulnerable to chlorophyll leaching and toluidine blue staining. Chemical analysis showed that wax and cutin monomers were both reduced in the atwbc11 mutant. AtWBC11 was widely expressed in aerial organs. Interestingly, we found that the expression was light dependent, and the phytohormone ABA up-regulated AtWBC11 expression. We also found that while the AtWBC11 promoter had a broad pattern of activity, the expression was converted to epidermis specific when the reporter gene was fused to AtWBC11 cDNA. Furthermore, RNA blot analysis supported epidermis-specific expression of AtWBC11. Our results support that AtWBC11 is involved in cuticle development.     

Natural Variation at the FRD3 MATE Transporter Locus Reveals Cross-Talk between Fe Homeostasis and Zn Tolerance in Arabidopsis thaliana

Zinc (Zn) is essential for the optimal growth of plants but is toxic if present in excess, so Zn homeostasis needs to be finely tuned. Understanding Zn homeostasis mechanisms in plants will help in the development of innovative approaches for the phytoremediation of Zn-contaminated sites. In this study, Zn tolerance quantitative trait loci (QTL) were identified by analyzing differences in the Bay-0 and Shahdara accessions of Arabidopsis thaliana. Fine-scale mapping showed that a variant of the Fe homeostasis-related FERRIC REDUCTASE DEFECTIVE3 (FRD3) gene, which encodes a multidrug and toxin efflux (MATE) transporter, is responsible for reduced Zn tolerance in A. thaliana. Allelic variation in FRD3 revealed which amino acids are necessary for FRD3 function. In addition, the results of allele-specific expression assays in F1 individuals provide evidence for the existence of at least one putative metal-responsive cis-regulatory element. Our results suggest that FRD3 works as a multimer and is involved in loading Zn into xylem. Cross-homeostasis between Fe and Zn therefore appears to be important for Zn tolerance in A. thaliana with FRD3 acting as an essential regulator.     

Functional Analysis of an Arabidopsis thaliana Abiotic Stress-inducible Facilitated Diffusion Transporter for Monosaccharides

Sugars play indispensable roles in biological reactions and are distributed into various tissues or organelles via transporters in plants. Under abiotic stress conditions, plants accumulate sugars as a means to increase stress tolerance. Here, we report an abiotic stress-inducible transporter for monosaccharides from Arabidopsis thaliana that is termed ESL1 (ERD six-like 1). Expression of ESL1 was induced under drought and high salinity conditions and with exogenous application of abscisic acid. Promoter analyses using β-glucuronidase and green fluorescent protein reporters revealed that ESL1 is mainly expressed in pericycle and xylem parenchyma cells. The fluorescence of ESL1-green fluorescent protein-fused protein was detected at tonoplast in transgenic Arabidopsis plants and tobacco BY-2 cells. Furthermore, alanine-scanning mutagenesis revealed that an N-terminal LXXXLL motif in ESL1 was essential for its localization at the tonoplast. Transgenic BY-2 cells expressing mutated ESL1, which was localized at the plasma membrane, showed an uptake ability for monosaccharides. Moreover, the value of K_m for glucose uptake activity of mutated ESL1 in the transgenic BY-2 cells was extraordinarily high, and the transport activity was independent from a proton gradient. These results indicate that ESL1 is a low affinity facilitated diffusion transporter. Finally, we detected that vacuolar invertase activity was increased under abiotic stress conditions, and the expression patterns of vacuolar invertase genes were similar to that of ESL1. Under abiotic stress conditions, ESL1 might function coordinately with the vacuolar invertase to regulate osmotic pressure by affecting the accumulation of sugar in plant cells.     

拟南芥幼苗超低温保存后DNA甲基化的遗传变异

运用MSAP技术分析了拟南芥（Arabidopsis thaliana）幼苗超低温保存后DNA甲基化的遗传变异情况。结果表明,在扩增的662条带中,对照和2个处理及其第2代间完全一致的带型有598条：发生变化的带型有64条,其中能遗传给第2代的有48条,占变异条带的75％。与对照相比,经超低温保存的样品新产生的甲基化位点有14个,而去甲基化的位点有22个。经过处理但未冷冻的与冷冻处理组之间带型一致的有624条,差异条带有38条,占5.7％,而对照与未冷冻处理组的差异率是7．45％,对照与冷冻处理组之间的差异率是6。63％。可见,拟南芥在超低温保存中,无论是经液氮冷冻还是未经冷冻处理,对材料的甲基化状态均有影响,而这种甲基化变化大部分是可以遗传的。     

拟南芥幼苗超低温保存后DNA甲基化的遗传变异

运用MSAP技术分析了拟南芥(Arabidopsis thaliana)幼苗超低温保存后DNA甲基化的遗传变异情况。结果表明, 在扩增的662条带中, 对照和2个处理及其第2代间完全一致的带型有598条; 发生变化的带型有64条, 其中能遗传给第2代的有48条, 占变异条带的75%。与对照相比, 经超低温保存的样品新产生的甲基化位点有14个, 而去甲基化的位点有22个。经过处理但未冷冻的与冷冻处理组之间带型一致的有624条, 差异条带有38条, 占5.7%, 而对照与未冷冻处理组的差异率是7.45%, 对照与冷冻处理组之间的差异率是6.63%。可见, 拟南芥在超低温保存中, 无论是经液氮冷冻还是未经冷冻处理, 对材料的甲基化状态均有影响, 而这种甲基化变化大部分是可以遗传的。     

外源钙降低拟南芥幼苗盐害效应

用5mmol／L CaCl2喷叶后的拟南芥幼苗,在100mmol／L NaCl胁迫下,SOD、CAT和POD的活性以及叶绿素含量降低幅度明显低于对照,MDA含量增加幅度显著低于对照,由此表明钙与拟南芥幼苗盐害效应的降低有关。     

Effect of benzothiadiazole on the metabolome of Arabidopsis thaliana

Benzothiadiazole (BTH) is a functional analog of the plant endogenous hormone-like compound, salicylic acid (SA), which is required for the induction of plant defense genes leading to systemic acquired resistance (SAR). Previous molecular and genetic studies have suggested that BTH itself might potentiate SAR resulting in the induction of several pathogenesis-related (PR) genes. However, the changes in the metabolome, which occur as a result of BTH-treatment, remain unclear. In this study, metabolic alterations in BTH-treated Arabidopsis thaliana were investigated using nuclear magnetic resonance (NMR) spectroscopy followed by multivariate data analyses such as principal component analysis (PCA) and partial least square-discriminant analysis (PLS-DA). Both PCA and PLS-DA show that increase of glucose, glutamine, inositol, malic acid, sucrose, and threonine as well as BTH and its degraded metabolites contribute to the clear discrimination of the metabolome of BTH-treated Arabidopsis from control plants. However, the levels of phenolic metabolites, which have generally been observed to be induced by other signaling molecules were significantly reduced in BTH-treated Arabidopsis. In addition to these changes due to BTH-treatment, it was also found that the EtOH used as a solvent in this treatment may per se act as an inducer of the accumulation of a flavonoid.     

Molecular Organization and ATP-Induced Conformational Changes of ABCA4, the Photoreceptor-Specific ABC Transporter

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Highlights? Structure of ABCA4 was determined by electron microscopy to a resolution of 18 Å ? Binding of ATP induced conformational changes in cytoplasmic and transmembrane regions ? Transport mechanism is proposed based on EM and hydrogen/deuterium exchange data     

Variation in selenium tolerance and accumulation among 19 Arabidopsis thaliana accessions

Selenium (Se) is an essential element for many organisms but also toxic at higher levels. The objective of this study was to identify accessions from the model species Arabidopsis thaliana that differ in Se tolerance and accumulation. Nineteen Arabidopsis accessions were grown from seed on agar medium with or without selenate (50 microM) or selenite (20 microM), followed by analysis of Se tolerance and accumulation. Tissue sulfur levels were also compared. The Se Tolerance Index (root length+Se/root length control) varied among the accessions from 0.11 to 0.44 for selenite and from 0.05 to 0.24 for selenate. When treated with selenite, the accessions differed by two-fold in shoot Se concentration (up to 250 mgkg(-1)) and three-fold in root Se concentration (up to 1000 mgkg(-1)). Selenium accumulation from selenate varied 1.7-fold in shoot (up to 1000 mgkg(-1)) and two-fold in root (up to 650 mgkg(-1)). Across all accessions, a strong correlation was observed between Se and S concentration in both shoot and root under selenate treatment, and in roots of selenite-treated plants. Shoot Se accumulation from selenate and selenite were also correlated. There was no correlation between Se tolerance and accumulation, either for selenate or selenite. The F(1) offspring from a cross between the extreme selenate-sensitive Dijon G and the extreme selenate-tolerant Estland accessions showed intermediate selenate tolerance. In contrast, the F(1) offspring from a cross between selenite-sensitive and -tolerant accessions (Dijon GxCol-PRL) were selenite tolerant. The results from this study give new insight into the mechanisms of plant selenium (Se) tolerance and accumulation, which may help develop better plants for selenium phytoremediation or as fortified foods.     

Effects of Abscisic Acid and Cytoplasmic pH on Potassium and Chloride Efflux in Arabidopsis thaliana Seedlings

The effects of ABA, isobutyric acid (IBA) and nicotine on K⁺and Cl⁺ efflux were studied in Arabidopsis thaliana seedlings,and the role of pH_cyt, and E_m in the regulation of the effluxof these ions was discussed. The data show that treatments withIBA and nicotine influenced in opposite directions the effluxof either K⁺ or Cl^–: K⁺ efflux was increased by nicotineand reduced in the presence of IBA, whereas Cl^– effluxwas stimulated by IBA and decreased by nicotine treatment. Underall the conditions tested ABA induced cytoplasmic acidificationand inhibition of K⁺ and Cl^– net efflux. Experiments aimedto estimate the individual contribution of pH_cyt and E_m in modulatingK^– efflux indicated that, within the range of acidic pH_cytvalues, a regulation of K⁺ efflux was imposed by pH_cyt on thecontrol exerted by E_m, the efflux being inhibited by lower pH_cytvalues. Conversely, in the alkaline side of pH_cyt K⁺ effluxseemed linked only to the E_m values. These results are consistentwith the hypothesis that the decrease in K⁺ efflux observedin non-stomatal tissues in the presence of ABA may be mediatedby the cytoplasmic acidification induced by the hormone. (Received August 6, 1996; Accepted January 19, 1997)     

Effect of light on the NADPH-protochlorophyllide oxidoreductase of Arabidopsis thaliana

A cDNA encoding the NADPH-protochlorophyllide oxidoreductase (Pchlide reductase) of Arabidopsis thaliana has been isolated and sequenced. The cDNA contains the complete reading frame for the precursor of the Pchlide reductase. The deduced amino acid sequence of the Arabidopsis enzyme closely resembles the corresponding sequences of barley and oat. The cDNA has been used as a template for the synthesis of the enzyme protein in Escherichia coli. An antiserum was raised against this enzyme protein and both the antiserum and the cDNA were used as experimental tools to study the effects of light on the Pchlide reductase in A. thaliana.When etiolated seedlings of Arabidopsis were exposed to light the enzyme activity and the concentration of the enzyme protein rapidly declined. Similar light effects have been described previously for other angiosperms. In contrast to most of these species, however, in Arabidopsis only minor changes in Pchlide reductase mRNA content could be observed when etiolated seedlings were exposed to light.     

Characterization of the Arabidopsis Nitrate Transporter NRT1.6 Reveals a Role of Nitrate in Early Embryo Development

This study of the Arabidopsis thaliana nitrate transporter NRT1.6 indicated that nitrate is important for early embryo development. Functional analysis of cDNA-injected Xenopus laevis oocytes showed that NRT1.6 is a low-affinity nitrate transporter and does not transport dipeptides. RT-PCR, in situ hybridization, and β-glucuronidase reporter gene analysis showed that expression of NRT1.6 is only detectable in reproductive tissue (the vascular tissue of the silique and funiculus) and that expression increases immediately after pollination, suggesting that NRT1.6 is involved in delivering nitrate from maternal tissue to the developing embryo. In nrt1.6 mutants, the amount of nitrate accumulated in mature seeds was reduced and the seed abortion rate increased. In the mutants, abnormalities (i.e., excessive cell division and loss of turgidity), were found mainly in the suspensor cells at the one- or two-cell stages of embryo development. The phenotype of the nrt1.6 mutants revealed a novel role of nitrate in early embryo development. Interestingly, the seed abortion rate of the mutant was reduced when grown under N-deficient conditions, suggesting that nitrate requirements in early embryo development can be modulated in response to external nitrogen changes.