Expression of sucrose: fructan 6-fructosyltransferase (6-SFT) and myo -inositol 1-phosphate synthase (MIPS) genes in barley (Hordeum vulgare) leaves

Fructan is an important class of non-structural carbohydrates present in cool-season grasses. Sucrose: fructan 6-fructosyltransferase (6-SFT, EC 2.4.1.10), one of the enzymes thought to be involved in grass fructan biosynthesis, catalyzes the initiation and extension of 2,6-linked fructans.Myo-inositol is a central component in several metabolic pathways in higher plants.Myo-inositol 1-phosphate synthase (MIPS) (EC 5.5.1.4), the first enzyme in inositolde novo biosynthesis, catalyzes the formation ofmyo-inositol 1-phosphate (MIP) from glucose-6-phosphate. The expression of 6-SFT and MIPS genes is compared in barley (Hordeum vulgare L.) leaves under various conditions. In cool temperature treatments, both 6-SFT and MIPS mRNAs accumulate within two days and then decline after four days. Under warm temperatures and continuous illumination, the amount of 6-SFT and MIPS mRNA gradually accumulated in detached leaves and increased significantly by 8 h. In contrast, we observed no significant changes over time in attached (control) leaves. Treating detached leaves with glucose or sucrose in the dark resulted in accumulations of both 6-SFT and MIPS mRNA. Homologous expression patterns for 6-SFT and MIPS genes suggest that they may be similarly regulated in barley leaves. Although sucrose and glucose may play important roles in the expression of 6-SFT and MIPS genes, regulation likely involves multiple factors.     

Tobacco-mosaic-virus-induced increase in abscisic-acid concentration in tobacco leaves:

The concentrations of free and bound abscisic acid (ABA and the presumed ABA glucose ester) increased three- to fourfold in leaves of White Burley tobacco (Nicotiana tabacum L.) systemically infected with tobacco mosaic virus. Infected leaves developed a distinct mosaic of light-green and dark-green areas. The largest increases in both free and bound ABA occurred in dark-green areas. In contrast, virus accumulated to a much higher concentration in light-green tissue. Free ABA in healthy leaves was contained predominantly within the chloroplasts while the majority of bound ABA was present in non-chloroplastic fractions. Chloroplasts from light-green or dark-green tissues were able to increase stromal pH on illumination by an amount similar to chloroplasts from healthy leaf. It is unlikely therefore that any virus-induced diminution of pH gradient is responsible for increased ABA accumulation. Tobacco mosaic virus infection had little effect on free ABA concentration in chloroplasts; the virus-induced increase in free ABA occurred predominantly out-side the chloroplast. The proportional distribution of bound ABA in the cell was not changed by infection. Treatment of healthy plants with ABA or water stress increased chlorophyll concentration by an amount similar to that induced by infection in dark-green areas of leaf. A role for increased ABA concentration in the development of mosaic symptoms is suggested.Abbreviations ABA abscisic acid - TMV tobacco mosaic virus     

Spatially regulated genes expressed during seed germination and postgerminative development are activated during embryogeny

Summary We investigated the control of genes expressed primarily during seed germination and postgerminative development in Brassica napus L. We identified cloned mRNA sequences which became prevalent within 1 day after the start of imbibition and were at low or undetectable levels in immature embryos, dry seeds, and leaves. Most postgermination-abundant mRNAs accumulated primarily, though not exclusively, in different parts of the seedling. Of the 14 cloned mRNAs, 8 were prevalent in cotyledons, 2 were abundant in seedling axes, and 4 were approximately equally distributed in both parts. We showed that although these mRNAs reached maximal levels in seedlings, the spatially regulated mRNAs were also detected at distinct embryonic stages; mRNAs prevalent in seedling axes accumulated primarily during early embryogenesis while cotyledon-abundant mRNA concentration increased during late embryogeny. We conclude that the temporal and spatial regulation of gene expression in seedlings reflects similarities and differences in the physiological functions of cotyledons and axes. Furthermore, the regulated expression of cotyledon-abundant genes during late embryogeny suggests that the mRNAs and possibly proteins may accumulate in preparation for subsequent seedling growth. Similarities in the accumulation of cotyledon-abundant mRNAs may indicate coordinate regulation of this gene set.Abbreviations DAF days after flowering - DAI days after the start of imbibition - HAI hours after the start of imbibition - kb kilobase(pairs)     

Differential regulation in tobacco cell suspensions of genes involved in plant-bacteria interactions by pathogen-related signals

Six cDNA clones whose corresponding mRNAs accumulate early during the hypersensitive reaction in tobacco leaves have been classified into 2 groups according to their maximum levels of accumulation in an incompatible versus a compatible interaction withPseudomonas solanacearum. We present evidence that, at least in the first stages of the interaction, tobacco cell suspensions retain the ability to respond differentially to compatible and incompatible isolates ofP. solanacearum.In addition, studies on the effect of a fungal elicitor on the accumulation of the mRNAs corresponding to the cDNA clones in cell suspensions indicate that only one group of genes responds to this treatment.     

Long-distance signals positively regulate the expression of iron uptake genes in tobacco roots

Long-distance signals generated in shoots are thought to be associated with the regulation of iron uptake from roots; however, the signaling mechanism is still unknown. To elucidate whether the signal regulates iron uptake genes in roots positively or negatively, we analyzed the expressions of two representative iron uptake genes: NtIRT1 and NtFRO1 in tobacco (Nicotiana tabacum L.) roots, after shoots were manipulated in vitro. When iron-deficient leaves were treated with Fe(II)-EDTA, the expressions of both genes were significantly reduced; nevertheless iron concentration in the roots maintained a similar level to that in roots grown under iron-deficient conditions. Next, all leaves from tobacco plants grown under the iron-deficient condition were excised. The expression of two genes were quickly reduced below half within 2 h after the leaf excision and gradually disappeared by the end of a 24-h period. The NtIRT1 expression was compared among the plants whose leaves were cut off in various patterns. The expression increased in proportion to the dry weight of iron-deficient leaves, although no relation was observed between the gene expression and the position of excised leaves. Interestingly, the NtIRT1 expression in hairy roots increased under the iron-deficient condition, suggesting that roots also have the signaling mechanism of iron status as well as shoots. Taken together, these results indicate that the long-distance signal generated in iron-deficient tissues including roots is a major factor in positive regulation of the expression of NtIRT1 and NtFRO1 in roots, and that the strength of the signal depends on the size of plants.     

Cloning and expression of distinct nitrite reductases in tobacco leaves and roots

Summary Three tobacco nitrite reductase (NiR) cDNA clones were isolated using spinach NiR cDNA as a probe. Sequence analysis and Southern blot hybridization revealed four genes in tobacco. Two of these genes presumably derived from the ancestral species Nicotiana tomentosiformis, the other two from the ancestor N. sylvestris. Northern blot analysis showed that one gene from each ancestral genome was expressed predominantly in leaves, whilst RNA from the other was detected mostly in roots. The accumulation of both leaf and root NiR mRNAs was induced by nitrate and repressed by nitrate- or ammonium-derived metabolites. In addition, the expression of the root NiR gene was detectable in leaves of a tobacco nitrate reductase (NR)-deficient mutant. Thus, the regulation of expression of tobacco NiR genes is comparable to the regulation of expression of barley NR genes.     

转GhB301基因烟草的防御酶活性及抗病相关基因表达分析

为了明确棉花ERF-B3亚族转录因子基因GhB301在烟草异位表达后(抗枯萎病中)的功能,该研究以过表达GhB301基因烟草和野生型烟草为材料,采用枯萎病菌孢子悬浮液接菌方法,分析病原菌侵染前后防御酶活性变化以及防卫相关基因的表达变化与抗病性的关系。结果显示:(1)棉花枯萎病菌处理15d后,2个转基因株系烟草叶片黄化程度与野生型相比较轻。(2)棉花枯萎病菌处理后,过表达GhB301转基因烟草和野生型烟草叶片过氧化物酶(POD)、苯丙氨酸解氨酶(PAL)、多酚氧化酶(PPO)的活性较未接菌对照显著提高,并且酶活峰值出现均早于野生型材料;转基因材料叶片的POD、PAL、PPO活性均在处理3d后达到峰值,而野生型材料叶片的POD、PAL活性在处理5d后才达到峰值。(3)接种棉花枯萎病菌后活性氧相关基因、乙烯(ET)/茉莉酸(JA)途径相关基因、病程相关基因的表达量在转基因株系OE1和OE2中均受到明显影响。研究推测,GhB301在烟草中的异位表达激活了防卫相关基因的表达,提高了防御酶的活性,从而增强了烟草对枯萎病菌的抗性。     

Differential Expression of Endogenous Ferritin Genes and Iron Homeostasis Alteration in Transgenic Tobacco Overexpressing Soybean Ferritin Gene

For studying the effects of endogenous ferritin gene expressions (NtFer1, GenBank accession number ay083924; and NtFer2, GenBank accession number ay141105) on the iron homeostasis in transgenic tobacco (Nicotiana tabacum L.) plants expressing soybean (Glycine max Merr) ferritin gene (SoyFer1, GenBank accession number m64337), the transgenic tobacco has been produced by placing soybean ferritin cDNA cassette under the control of the CaMV 35S promoter. The exogenous gene expression was examined by both Northern- and Western-blot analyses. Comparison of endogenous ferritin gene expressions between nontransformant and transgenic tobacco plants showed that the expression of NtFer1 was increased in the leaves of transgenic tobacco plants, whereas the NtFer2 expression was unchanged. The iron concentration in the leaves of transgenic tobacco plants was about 1.5-folds higher than that in nontransformant. Enhanced growth of transgenic tobacco was observed at the early development stages, resulting in plant height and fresh weights significantly greater than those in the nontransformant. These results demonstrated that exogenous ferritin expression induced increased expression of at least one of the endogenous ferritin genes in transgenic tobacco plants by enhancing the ferric chelate reductase activity and iron transport ability of the root, and improved the rate of photosynthesis.     

转彩色马铃薯StAN1基因的烟草幼苗耐旱性分析

该研究以转彩色马铃薯StAN1基因烟草为材料、野生型烟草(WT)为对照,测定分析转StAN1基因烟草在种子萌发期、幼苗期和苗期对干旱(甘露醇)处理的耐受情况,并对苗期旱热共同胁迫的耐受情况进行测定分析,以探讨彩色马铃薯StAN1基因的功能,为耐旱彩色马铃薯育种提供新路径。结果显示:(1)转StAN1基因烟草鉴定显示,阳性率为82.6%,且转基因烟草的叶片明显变紫,花青素含量极显著高于野生型烟草。(2)在培养基甘露醇浓度为150 mmol/L时,点播在培养基上的转基因烟草种子第5天时的萌发率达到了7%,是野生型烟草萌发率的2.3倍。(3)在甘露醇浓度为0和100 mmol/L的培养基上竖直培养时,转基因烟草的根长分别是野生型烟草的1.46和1.30倍,根长比野生型烟草显著增长。(4)在干旱胁迫下,转基因烟草幼苗叶片中的脯氨酸含量以及超氧化物歧化酶活性均显著高于野生型烟草,丙二醛含量均显著低于野生型烟草。(5)转基因烟草LEA基因和ERF基因在干旱和旱热处理中的相对表达量均高于野生型烟草。研究表明,StAN1基因在提高植物花青素含量的同时也提高了植物的耐旱性。     

Characterization of tobacco plants expressing a bacterial salicylate hydroxylase gene

Transgenic tobacco plants that express the bacterial nahG gene encoding salicylate hydroxylase have been shown to accumulate very little salicylic acid and to be defective in their ability to induce systemic acquired resistance (SAR). In recent experiments using transgenic NahG tobacco and Arabidopsis plants, we have also demonstrated that salicylic acid plays a central role in both disease susceptibility and genetic resistance. In this paper, we further characterize tobacco plants that express the salicylate hydroxylase enzyme. We show that tobacco mosaic virus (TMV) inoculation of NahG tobacco leaves induces the accumulation of the nahG mRNA in the pathogen infected leaves, presumably due to enhanced stabilization of the bacterial mRNA. SAR-associated genes are expressed in the TMV-infected leaves, but this is localized to the area surrounding necrotic lesions. Localized acquired resistance (LAR) is not induced in the TMV-inoculated NahG plants suggesting that LAR, like SAR, is dependent on SA accumulation. When SA is applied to nahG-expressing leave's SAR gene expression does not result. We have confirmed earlier reports that the salicylate hydroxylase enzyme has a narrow substrate specificity and we find that catechol, the breakdown product of salicylic acid, neither induces acquired resistance nor prevents the SA-dependent induction of the SAR genes.     

Effects of Foliar and Root Applications of Methanol on the Growth of Arabidopsis, Tobacco, and Tomato Plants

The effects of aqueous methanol solutions applied as a foliar spray or via irrigation were investigated in Arabidopsis, tobacco, and tomato plants. Methanol applied to roots leads to phytotoxic damage in all three species tested. Foliar application causes an increase of fresh and dry weight in Arabidopsis and tobacco plants, but not in tomato plants. The increase in fresh and dry weight of Arabidopsis plants does not correlate with increased levels of soluble sugars, suggesting that increased accumulation of other products is responsible for the differences in the methanol-treated leaves. Foliar application of methanol can induce pectin methylesterase (PME) gene expression in Arabidopsis and tomato plants, activating specific PME genes.     

Acidic and basic class III chitinase mRNA accumulation in response to TMV infection of tobacco

Complementary DNA clones encoding acidic and basic isoforms of the class III chitinase were isolated from Nicotiana tabacum. The clones share ca. 65% identity, are equally homologous to the class III chitinases from cucumber and Arabidopsis, and are members of small gene families in tobacco. An acidic class III chitinase was purified from the intercellular fluid of tobacco leaves infected with tobacco mosaic virus (TMV). Partial amino acid sequencing of the protein confirmed that it was encoded by one of the cDNA clones. The mRNAs of the class III chitinases are coordinately expressed in response to TMV infection, both in infected and uninfected tissue. The acidic and basic class III chitinases constitute previously undescribed pathogenesis-related proteins in tobacco.     

Changes in phenolic metabolism of tobacco plants during short-term boron deficiency

The effects of boron (B) deficiency on several phenolics and enzyme activities involved in the biosynthesis of these compounds were investigated in tobacco plants (Nicotiana tabacum L. cv. Gatersleben). The levels of phenylpropanoids (mainly the caffeic acid esters, chlorogenic acid and its isomers) as well as phenylalanine ammonia-lyase (PAL, EC 4.3.1.5) and polyphenoloxidase (PPO, EC 1.14.18.1) activities were determined in plants subjected to B starvation for 1–7 d. The results presented here show that a short-term B deficiency causes both quantitative and qualitative changes in the phenolic metabolism of tobacco plants, which are especially evident after 3 d of B starvation. Although the concentration of B decreased from the onset of B starvation, root B level was less affected than leaf B by a short-term B deficiency. The concentration of phenylpropanoids as well as PAL and PPO activities increased mainly in the leaves of tobacco plants during B starvation. Moreover, leaves starved of B for 7 d showed the accumulation of new compounds, one of which was identified as caffeoylputrescine. In addition, a positive correlation between PAL activity and phenylpropanoid concentration was observed in tobacco leaves, especially after 5–7 d of B starvation, suggesting that an increase in PAL activity during B starvation could be responsible for the enhancement in the levels of phenylpropanoids.     

亚麻荠FUS3转录因子的鉴定及功能分析北大核心CSCD

FUS3转录因子是调控植物种子油脂合成的关键因子。为探讨亚麻荠CsFUS 3基因在脂质合成和积累过程中的作用,该研究对CsFUS 3基因家族进行全基因组鉴定,分析CsFUS 3基因的时空表达模式,并解析CsFUS 3-1和CsFUS 3-2基因在植物油脂合成中的功能,为深入解析CsFUS 3基因在亚麻荠油脂合成中的功能及亚麻荠高油品种选育提供理论基础。结果表明:(1)利用AtFUS3蛋白序列,在亚麻荠基因组数据库中鉴定出2条完整的CsFUS3蛋白序列,分别命名为CsFUS3-1和CsFUS3-2,亚细胞定位发现2个CsFUS3蛋白均位于细胞核。(2)亚麻荠CsFUS3-1和CsFUS3-2蛋白与拟南芥AtFUS3蛋白的亲缘关系最近,具有与拟南芥AtFUS3蛋白相似的理化性质、高级结构以及完整的B3功能域。(3)qRT-PCR结果显示,CsFUS 3-1和CsFUS 3-2基因仅在种子中表达,且随着种子的发育成熟,2个CsFUS 3基因的表达量均呈先增高后降低的变化趋势,并在花后30 d时表达量达到最高。(4)CsFUS3和CsWRI1蛋白互作以及CsFUS 3对OLE和ABI 3基因的转录调控可能是亚麻荠高油性状的关键调控途径。(5)烟草瞬时表达分析表明,与野生型相比,转CsFUS 3-1和CsFUS 3-2基因的烟草叶片总油脂含量分别提高了0.95%和1.12%,表明亚麻荠CsFUS 3基因能够提高烟叶总油脂的合成积累。     

The organisation and expression of the genes encoding the mitochondrial glycine decarboxylase complex and serine hydroxymethyltransferase in pea (Pisum sativum)

Summary Restriction fragment length polymorphisms have been used to determine the chromosomal location of the genes encoding the glycine decarboxylase complex (GDC) and serine hydroxymethyltransferase (SHMT) of pea leaf mitochondria. The genes encoding the H subunit of GDC and the genes encoding SHMT both show linkage to the classical group I marker i. In addition, the genes for the P protein of GDC show linkage to the classic group I marker a. The genes for the L and T proteins of GDC are linked to one another and are probably situated on the satellite of chromosome 7. The mRNAs encoding the five polypeptides that make up GDC and SHMT are strongly induced when dark-grown etiolated pea seedlings are placed in the light. Similarly, when mature plants are placed in the dark for 48 h, the levels of both GDC protein and SHMT mRNAs decline dramatically and then are induced strongly when these plants are returned to the light. During both treatments a similar pattern of mRNA induction is observed, with the mRNA encoding the P protein of GDC being the most rapidly induced and the mRNA for the H protein the slowest. Whereas during the greening of etiolated seedlings the polypeptides of GDC and SHMT show patterns of accumulation similar to those of the corresponding mRNAs, very little change in the level of the polypeptides is seen when mature plants are placed in the dark and then re-exposed to the light.     

Purification and properties of tobacco ferredoxin-dependent glutamate synthase,and isolation of corresponding cDNA clones

Ferredoxin-dependent glutamate synthase (Fd-GOGAT, EC 1.4.7.1) was purified to electrophoretic homogeneity from leaves of tobacco (Nicotiana tabacum L.). The holoenzyme is a monomeric flavoprotein with a molecular weight of 164 kDa. Polyclonal rabbit antibodies against the purified enzyme were used to isolate a 450-bp Fd-GOGAT cDNA clone (C₁₆) from a tobacco gt11 expression library. A longer Fd-GOGAT cDNA clone (C₃₅) encoding about 70% of the amino acids of tobacco Fd-GOGAT was isolated from a tobacco gt10 cDNA library using C₁₆ as the probe. The amino-acid sequence of the protein encoded by the Fd-GOGAT cDNA clone C₃₅ was delineated. It is very likely that Fd-GOGAT is encoded by two genes in the amphidiploid genome of tobacco while only a single Fd-GOGAT gene appears to be present in the diploid genome of Nicotiana sylvestris. Two Fd-GOGAT isoenzymes could be distinguished in extracts of tobacco leaf protein. In contrast, a single Fd-GOGAT protein species was detected in leaves of Nicotiana sylvestris speg. et Comes. In tobacco leaves, the 6-kb Fd-GOGAT mRNA is about 50-fold less abundant than chloroplastic glutamine synthetase (EC 6.3.1.2) mRNA. Both Fd-GOGAT mRNA and Fd-GOGAT protein accumulated during greening of etiolated tobacco leaves, and a concomitant increase in Fd-GOGAT activity was observed. These results indicate that tobacco Fd-GOGAT gene expression is light-inducible. Levels of Fd-GOGAT mRNA in tobacco organs other than leaves were below the detection limit of our Northern-blot analysis. Polypeptides of Fd-GOGAT were present in tobacco leaves and, to a lesser extent, in pistils and anthers, but not in corollas, stems and roots. These results support organ specificity in tobacco Fd-GOGAT gene expression.Abbreviations bp base pairs - Fd-GOGAT ferredoxin-dependent glutamate synthase - GS glutamine synthetase - PAGE polyacrylamide gel electrophoresis - SDS sodium dodecyl sulfate The authors wish to thank Juan Luis Gómez Pinchetti (Marine Plant Biotechnology Laboratory) for his assistance during the experiments. This study was supported by grants received from SAREC (Swedish Agency for Research Cooperation with Developing Countries), Carl Tryggers Fund for Scientific Research (K. Haglund), SJFR (Swedish Council for Forestry and Agricultural Research) (M. Björk, M. Pedersén), CITYT Spain (SAB 89-0091 and MAR 91-1237, M. Pedersén) and CICYT Spain (Z. Ramazanov, invited professor of Ministerio de Educatión y Ciencia, Spain). The planning of this cooperation was facilitated by COST-48.     

Identification of cDNA clones for tomato (Lycopersicon esculentum Mill.) mRNAs that accumulate during fruit ripening and leaf senescence in response to ethylene

Changes in gene expression during foliar senescence and fruit ripening in tomato (Lycopersicon esculentum Mill.) were examined using in-vitro translation of isolated RNA and hybridization against cDNA clones.During the period of chlorophyll loss in leaves, changes occurred in mRNA in-vitro translation products, with some being reduced in prevalence, whilst others increased. Some of the translation products which changed in abundance had similar molecular weights to those known to increase during tomato fruit ripening. By testing RNA from senescing leaves against a tomato fruit ripening-related cDNA library, seven cDNA clones were identified for mRNAs whose prevalence increased during both ripening and leaf senescence. Using dot hybridization, the pattern of expression of the mRNAs corresponding to the seven clones was examined. Maximal expression of the majority of the mRNAs coincided with the time of greatest ethylene production, in both leaves and fruit. Treatment of mature green leaves or unripe fruit with the ethylene antagonist silver thiosulphate prevented the onset of senescence or ripening, and the expression of five of the seven ripening- and senescence-related genes.The results indicate that senescence and ripening in tomato involve the expression of related genes, and that ethylene may be an important factor in controlling their expression.Abbreviations cDNA copy-DNA - MW molecular weight - PAGE polyacrylamide gel electrophoresis - SDS sodium dodecyl sulphate