Nitric oxide modulates ozone-induced cell death, hormone biosynthesis and gene expression in Arabidopsis thaliana

Nitric oxide (NO) is involved together with reactive oxygen species (ROS) in the activation of various stress responses in plants. We have used ozone (O₃) as a tool to elicit ROS-activated stress responses, and to activate cell death in plant leaves. Here, we have investigated the roles and interactions of ROS and NO in the induction and regulation of O₃-induced cell death. Treatment with O₃ induced a rapid accumulation of NO, which started from guard cells, spread to adjacent epidermal cells and eventually moved to mesophyll cells. During the later time points, NO production coincided with the formation of hypersensitive response (HR)-like lesions. The NO donor sodium nitroprusside (SNP) and O₃ individually induced a large set of defence-related genes; however, in a combined treatment SNP attenuated the O₃ induction of salicylic acid (SA) biosynthesis and other defence-related genes. Consistent with this, SNP treatment also decreased O₃-induced SA accumulation. The O₃-sensitive mutant rcd1 was found to be an NO overproducer; in contrast, Atnoa1/rif1 ( Arabidopsis nitric oxide associated 1/resistant to inhibition by FSM1 ), a mutant with decreased production of NO, was also O₃ sensitive. This, together with experiments combining O₃ and the NO donor SNP suggested that NO can modify signalling, hormone biosynthesis and gene expression in plants during O₃ exposure, and that a functional NO production is needed for a proper O₃ response. In summary, NO is an important signalling molecule in the response to O₃.     

Integrated metabolite and gene expression profiling revealing phytochrome A regulation of polyamine biosynthesis of Arabidopsis thaliana

In this study, metabolite profiling was demonstrated as a usefultool to plot a specific metabolic pathway, which is regulatedby phytochrome A (phyA). Etiolated Arabidopsis wild-type (WT)and phyA mutant seedlings were irradiated with either far-redlight (FR) or white light (W). Primary metabolites of the irradiatedseedlings were profiled by gas chromatography time-of-flightmass spectrometry (GC/TOF-MS) to obtain new insights on phyA-regulatedmetabolic pathways. Comparison of metabolite profiles in phyAand WT seedlings grown under FR revealed a number of metabolitesthat contribute to the differences between phyA and the WT.Several metabolites, including some amino acids, organic acids,and major sugars, as well as putrescine, were found in smalleramounts in WT compared with the content in phyA seedlings grownunder FR. There were also significant differences between metaboliteprofiles of WT and phyA seedlings during de-etiolation underW. The polyamine biosynthetic pathway was investigated further,because putrescine, one of the polyamines existing in a widevariety of living organisms, was found to be present in loweramounts in WT than in phyA under both light conditions. Theexpression levels of polyamine biosynthesis-related genes wereinvestigated by quantitative real-time RT-PCR. The gene expressionprofiles revealed that the arginine decarboxylase 2 (ADC2) genewas transcribed less in the WT than in phyA seedlings underboth light conditions. This finding suggests that ADC2 is negativelyregulated by phyA during photomorphogenesis. In addition, S-adenosylmethioninedecarboxylase 2 and 4 (SAMDC2 and SAMDC4) were found to be regulatedby phyA but in a different manner from the regulation of ADC2. Key words: Arabidopsis thaliana, gene expression profiling, metabolite profiling, phytochrome A, polyamine biosynthesis Received 19 October 2007; Revised 17 January 2008 Accepted 18 January 2008     

干旱胁迫下拟南芥中H_2S与ABA信号关系研究

以野生型拟南芥(WT)、硫化氢(H_2S)合成酶缺失型突变体lcd、脱落酸(ABA)合成缺失型突变体aba1实生苗为材料,以0.3 mol·L^-1甘露醇模拟干旱胁迫,研究干旱胁迫对ABA含量、H_2S含量的影响,及其在拟南芥抵抗干旱胁迫中的作用及信号关系。结果显示:干旱胁迫显著提高LCD和ABA1基因相对表达以及H_2S含量,ABA含量;干旱胁迫显著抑制突变体lcd、aba1的种子萌发;干旱胁迫下,外施NaHS促进干旱胁迫下WT、lcd和aba1中內源H_2S的产生及上调LCD、ABA1基因相对表达,而外施ABA提高干旱胁迫下WT、aba1中H_2S含量及LCD、ABA1基因相对表达,但是对lcd中H_2S含量及LCD基因相对表达没有显著影响。研究结果表明,信号分子H_2S和ABA在拟南芥的干旱胁迫响应中发挥一定的作用,且H_2S位于ABA的下游参与调控拟南芥的信号过程。     

Enhancer-mediated reporter gene expression in Arabidopsis thaliana: a forward genetic screen

Gene expression is controlled and regulated by interactions between cis-regulatory DNA elements (CREs) and regulatory proteins. Enhancers are one of the most important classes of CREs in eukaryotes. Eukaryotic genes, especially those related to development or responses to environmental cues, are often regulated by multiple enhancers in different tissues and/or at different developmental stages. Remarkably, little is known about the molecular mechanisms by which enhancers regulate gene expression in plants. We identified a distal enhancer, CREβ, which regulates the expression of AtDGK7, which encodes a diacylglycerol kinase in Arabidopsis. We developed a transgenic line containing the luciferase reporter gene (LUC) driven by CREβ fused with a minimal cauliflower mosaic virus (CaMV) 35S promoter. The CREβ enhancer was shown to play a role in the response to osmotic pressure of the LUC reporter gene. A forward genetic screen pipeline based on the transgenic line was established to generate mutations associated with altered expression of the LUC reporter gene. We identified a suite of mutants with variable LUC expression levels as well as different segregation patterns of the mutations in populations. We demonstrate that this pipeline will allow us to identify trans-regulatory factors associated with CREβ function as well as those acting in the regulation of the endogenous AtDGK7 gene.     

细菌卤代烷烃脱卤酶基因在拟南芥菜中的高效表达

报道了细菌Xanthobacter autotrophicus编码卤代烷烃脱卤酶基因在拟南芥菜中的高效表达。以土壤农杆菌介导将该基因整合到拟南芥菜基因组中,经数代筛选得到了转基因纯合种子,Northern印迹和气相色谱检测表明,转基因的表达程度很高,酶量占细胞总可溶性蛋白的8%,酶活力达7.8mU·ml^-1提取物。转基因植株在含二氯乙烷的培养基上不能生长。     

Cloning,expression and directed mutagenesis of the genes for ribulose bisphosphate carboxylase/oxygenase

The dominant natural form of ribulose-1,5-bisphosphate carboxylase/oxygenase (RuBisCO) is composed of large (L) 55-kDa and small (S) 15-kDa subunits. This enzyme (as the L₈S₈ form) is widely distributed among oxygenic photosynthetic species and among chemosynthetic bacteria. Another form lacking small subunits is found as an L₂ dimer in Rhodospirillum rubrum or an L oligomer of uncertain aggregation state from Rhodopseudomonas spharoides. The present article reviews two basically different approaches in cloning the R. rubrum gene for RuBisCO. One results in high level expression of this gene product fused with a limited aminoterminal stretch of -galactosidase and the other results in expression of wild-type enzyme in Escherichia coli. Also reviewed are a number of reports of cloning and assembly of the L₈S₈ enzyme in using E. coli L and S subunit genes from Anacystis nidulans, Anabaena 7120, Chromatium vinosum and Rps. sphaeroides.In vitro oligonucleotide-directed mutagenesis has been applied to the gene for RuBisCO from R. rubrum. In terms of contributing new information to our understanding of the catalytic mechanism for RuBisCO, the most significant replacement has been of lys 166 by a number of neutral amino acids or by arg or his. Results establish that lys 166 is a catalytically essential residue and illustrate the power of directed mutagenesis in understanding structure-function correlates for RuBisCO.Oligonucleotide-directed mutagenesis has also been applied to the first and second conserved regions of the S subunit gene for RuBisCO from A. nidulans. In the latter region, corresponding amino acid changes of trp 55 and trp 58 to phe, singly or together, had little or no effect upon enzyme activity. In contrast, mutagenesis in the first conserved region leading to the following pairs of substitutions: arg10 arg 11 to gly 10 gly11; thr14 phe 15 ser 16 to ala 14 phe 15 ala 16; ser 16 tyr 17 to ala 16 asp 17; or pro 19 pro 20 to ala 19 ala 20, are all deleterious.Advances are anticpated in the introduction and expression of interesting modifications of S (and L) subunit genes in plants. A new method of introducing and expressing foreign genes in isolated etiochloroplasts is identified.Abbreviations RuBisCO ribulose bisphosphate carboxylase/oxygenase - 2-CABP 2-carboxyarabinitol-1,5-bisphosphate - 4-CABP 4-carboxyarabinitol-1,5-bisphosphate     

Nucleotide sequence of psbQ gene for 16-kDa protein of oxygen-evolving complex from Arabidopsis thaliana and regulation of its expression.

The psbQ gene encoding a 16-kDa polypeptide of the oxygen-evolving complex of photosystem II has been isolated from Arabidopsis thaliana and characterized. The gene consists of a 28 nucleotide long leader sequence, two introns and three exons encoding a 223-amino-acid precursor polypeptide. The first 75 amino acids act as a transit peptide for the translocation of the polypeptide into the thylakoid lumen. Expression studies show that the gene is light-inducible and expresses only in green tissues with high steady-state mRNA levels in leaves. Using this gene as a probe, restriction fragment length polymorphism between two ecotypes, Columbia and Estland, has also been detected.     

外源海藻糖对PEG渗透胁迫下小麦Rubisco及其活化酶的影响

以抗旱品种‘晋麦47’和干旱敏感品种‘郑引1号’为材料,通过室内水培试验研究了外源海藻糖对PEG渗透胁迫下小麦叶片净光合速率、1,5-二磷酸核酮糖羧化酶/加氧酶(Rubisco)和1,5-二磷酸核酮糖羧化酶/加氧酶活化酶(RCA)含量和相关基因表达特性的影响。结果表明:(1)外源海藻糖和渗透胁迫均能显著增加2个小麦品种叶片海藻糖含量。(2)渗透胁迫显著降低了2个品种小麦叶片的净光合速率,而外源海藻糖能显著缓解受胁迫小麦叶片净光合速率的降低幅度。(3)渗透胁迫仅使‘郑引1号’Rubisco大亚基基因(rbcL)相对表达量及相应蛋白含量显著降低;渗透胁迫显著降低了小麦RCAα和β亚基基因相对表达量,并显著降低RCA蛋白含量,而外源海藻糖不能缓解RCA蛋白含量的降低;渗透胁迫显著降低了Rubisco总活性、初始活性、活化状态及RCA活性,而外源海藻糖则能显著缓解上述酶活性的下降。(4)小麦叶片净光合速率与其rbcL、RCAα和β亚基基因相对表达量及Rubisco总活性、初始活性、活化状态及RCA活性均呈极显著正相关关系。研究发现,在渗透胁迫条件下,外源海藻糖主要从翻译后层面对小麦叶片Rubisco和RCA的活性发挥显著保护作用,从而缓解了小麦净光合速率的降低。     

Isolation of precise plastid deletion mutants by homology-based excision: a resource for site-directed mutagenesis, multi-gene changes and high-throughput plastid transformation

We describe a simple and efficient homology-based excision method to delete plastid genes. The procedure allows one or more adjacent plastid genes to be deleted without the retention of a marker gene. We used aad A-based transformation to duplicate a 649 bp region of plastid DNA corresponding to the atp B promoter region. Efficient recombination between atp B repeats deletes the intervening foreign genes and 1984 bp of plastid DNA (co-ordinates 57 424–59 317) containing the rbc L gene. Only five foreign bases are present in Δ rbc L plants illustrating the precision of homology-based excision. Sequence analysis of non-functional rbc L-related sequences in Δ rbc L plants indicated an extra-plastidic origin. Mutant Δ rbc L plants were heterotrophic, pale-green and contained round plastids with reduced amounts of thylakoids. Restoration of autotrophy and leaf pigmentation following aad A-based transformation with the wild-type rbc L gene ruled out mutations in other genes. Excision and re-use of aadA shows that, despite the multiplicity of plastid genomes, homology-based excision ensures complete removal of functional aad A genes. Rescue of the Δ rbc L mutation and autotrophic growth stabilizes transgenic plastids in heteroplasmic transformants following antibiotic withdrawal, enhancing the overall efficiency of plastid transformation. Unlike the available set of homoplasmic knockout mutants in 25 plastid genes, the rbc L deletion mutant isolated here is readily transformed with the efficient aad A marker gene. This improvement in deletion design facilitates advanced studies that require the isolation of double mutants in distant plastid genes and the replacement of the deleted locus with site-directed mutant alleles and is not easily achieved using other methods.     

Role of growth regulators in the senescence of Arabidopsis thaliana leaves

A homozygous, dominant, C₂H₄-resistant line of Arabidopsis thaliana (L.) Heynh (cv. Columbia; er ) was selected from ethylmethylsulfonate-mutagenized seed, and used to test the role of C₂H₄ and other growth regulators in senescence of mature leaves. Chlorophyll (Chl) loss from disks excised from leaves of er was much slower than that from wild-type (WT) disks, whether they were held in the light or in the dark. C₂H₄ accelerated Che loss from WT disks but had no effect on the yellowing of mutant disks. C₂H₄ biosynthesis was higher in disks from the mutant plants, particularly in the light. In the dark, treatment with the cytokinin, 6-benzyladenine (BA), reduced Chl loss from wild-type disks, but had no effect on mutant disks. In the light, BA treatment stimulated chlorophyll breakdown in both wild type and mutant disks. Treatment with abscisic acid (ABA) stimulated chlorophyll loss in wild-type and mutant disks, whether they were held in the light or the dark. C₂H₄ production was stimulated in ABA-treated disks, but they still yellowed even when C₂H₄ production was inhibited by application of aminooxyacetic acid (AOA). These data indicate that C₂H₄ is only one of the factors involved in leaf senescence, and that the promotion of senescence by ABA is not mediated through its stimulation of C₂H₄ production.     

Arabidopsis thaliana ggt1 photorespiratory mutants maintain leaf carbon/nitrogen balance by reducing RuBisCO content and plant growth

Metabolic and physiological analyses of glutamate:glyoxylate aminotransferase 1 (GGT1) mutants were performed at the global leaf scale to elucidate the mechanisms involved in their photorespiratory growth phenotype. Air‐grown ggt1 mutants showed retarded growth and development, that was not observed at high CO₂ (3000 μL L^?1). When compared to wild‐type (WT) plants, air‐grown ggt1 plants exhibited glyoxylate accumulation, global changes in amino acid amounts including a decrease in serine content, lower organic acid levels, and modified ATP/ADP and NADP⁺/NADPH ratios. When compared to WT plants, their net CO₂ assimilation rates (A_n) were 50% lower and this mirrored decreases in ribulose‐1,5‐bisphosphate carboxylase/oxygenase (RuBisCO) contents. High CO₂‐grown ggt1 plants transferred to air revealed a rapid decrease of A_n and photosynthetic electron transfer rate while maintaining a high energetic state. Short‐term (a night period and 4 h of light) transferred ggt1 leaves accumulated glyoxylate and exhibited low serine contents, while other amino acid levels were not modified. RuBisCO content, activity and activation state were not altered after a short‐term transfer while the ATP/ADP ratio was lowered in ggt1 rosettes. However, plant growth and RuBisCO levels were both reduced in ggt1 leaves after a long‐term (12 days) acclimation to air from high CO₂ when compared to WT plants. The data are discussed with respect to a reduced photorespiratory carbon recycling in the mutants. It is proposed that the low A_n limits nitrogen‐assimilation, this decreases leaf RuBisCO content until plants attain a new homeostatic state that maintains a constant C/N balance and leads to smaller, slower growing plants.     

Differential regulation of the accumulation of the light-harvesting chlorophyll a/b complex and ribulose bisphosphate carboxylase/oxygenase in greening pea leaves

The photoregulation of chloroplast development in pea leaves has been studied by reference to three polypeptides and their mRNAs. The polypeptides were the large subunit (LSU) and the small subunit (SSU) of ribulose 1,5-bisphosphate carboxylase/oxygenase (RUBISCO), and the light-harvesting chlorophyll a/b protein (LHCP). The polypeptides were assayed by a sensitive radioimmune assay, and the mRNAs were assayed by hybridization to cloned DNA probes. LSU, LSU mRNA, and LHCP mRNA were detectable in etiolated seedlings but LHCP, SSU, and SSU mRNA were at or below the limit of detection. During the first 48 hr of de-etiolation under continuous white light, the mRNAs for LSU, SSU, and LHCP increased in concentration per apical bud by about 40-fold, at least 200-fold, and about 25-fold, respectively, while the total RNA content per apical bud increased only 3.5-fold. In the same period, the LSU, SSU, and LHCP contents per bud increased at least 60-, 100-, and 200-fold, respectively. The LHCP increased steadily in concentration during de-etiolation, whereas the accumulation LSU, SSU, and SSU mRNA showed a 24-hr lag. The accumulation of SSU, SSU mRNA, and LHCP mRNA showed classical red/far-red reversibility, indicating the involvement of phytochrome in the regulatory mechanism. LSU and LSU mRNA were induced equally well by red and far-red light. The LHCP failed to accumulate except under continuous illumination. These results indicate that the accumulation of SSU is controlled largely through the steady-state level of its mRNA, which is in turn almost totally dependent on light as an inducer and on phytochrome as one of the photoreceptors. The accumulation of LSU is largely but not totally determined by the level of its mRNA, which appears to be under strong photoregulation, which has yet to be shown to involve phytochrome. Phytochrome is involved in the regulation of LHCP mRNA levels but substantial levels of the mRNA also occur in the dark. LHCP accumulation is not primarily governed by the levels of LHCP mRNA but by posttranslational stabilization in which chlorophyll synthesis plays a necessary but not sufficient role.     

拟南芥ABA不敏感型突变体及其ABA结合特性

拟南芥的脱落醚（ABA）不敏感型突变体abi2,在对ABA的敏感性、气孔开度及种子休眠方面,与野生型有明显差异。通过3H－ABA与野生型对的亚细胞组分的结合分析,表明38000×g组分特异结合活性最高,结合最适温度为20℃,最适保温时间：20℃时为70min;0℃时为90min。由饱和曲线的Scatchard分析表明：abi2存在一种ABA结合位点,野生型有两种ABA结合位点。对3H－ABA结合的38000×g组分的SDS－PAGE电泳分析表明：野生型有3个结合活性峰,而abi2只有1个结合活性峰。     

拟南芥不定芽发生早期的数字基因表达谱分析

目前,有关不定芽发生的研究主要集中在单基因的调控方面,缺乏转录组方面的系统研究.利用RNA-seq高通量测序技术在全基因组范围内检测了不定芽发生早期的基因表达谱,共检测到2457个差异表达基因.这些基因参与了激素代谢和信号转导、愈伤组织和侧根的形成、茎顶端分生组织的发育和光合作用等过程.进一步的途径富集分析表明,不定芽发生早期苯丙氨酸代谢和苯丙胺素合成等途径相关的基因显著富集.并且苯丙氨酸可以显著抑制不定芽的发生,暗示了苯丙氨酸代谢和苯丙胺素的合成可能在不定芽发生过程起着重要的作用.     

Effects of gene expression on molecular evolution in Arabidopsis thaliana and Arabidopsis lyrata

We analyzed the complete genome sequence of Arabidopsis thaliana and sequence data from 83 genes in the outcrossing A. lyrata, to better understand the role of gene expression on the strength of natural selection on synonymous and replacement sites in Arabidopsis. From data on tRNA gene abundance, we find a good concordance between codon preferences and the relative abundance of isoaccepting tRNAs in the complete A. thaliana genome, consistent with models of translational selection. Both EST-based and new quantitative measures of gene expression (MPSS) suggest that codon preferences derived from information on tRNA abundance are more strongly associated with gene expression than those obtained from multivariate analysis, which provides further support for the hypothesis that codon bias in Arabidopsis is under selection mediated by tRNA abundance. Consistent with previous results, analysis of protein evolution reveals a significant correlation between gene expression level and amino acid substitution rate. Analysis by MPSS estimates of gene expression suggests that this effect is primarily the result of a correlation between the number of tissues in which a gene is expressed and the rate of amino acid substitution, which indicates that the degree of tissue specialization may be an important determinant of the rate of protein evolution in Arabidopsis.