NtMTP1基因过表达对增强烟草Zn胁迫耐受性的研究

该研究采用实时荧光定量PCR（qRT PCR）技术,对烟草金属耐受蛋白1（MTP1）基因（NtMTP1）在烟草不同组织以及不同质量浓度ZnSO4处理下的表达进行了分析;利用农杆菌介导法,将NtMTP1基因植物过表达载体pBI121 35S∶∶MTP1转化野生型烟草,筛选得到NtMTP1基因过表达的转基因烟草植株,并进行不同质量浓度ZnSO₄处理,检测NtMTP1基因过表达对烟草Zn胁迫耐受性的影响。结果表明：NtMTP1基因在烟草中呈现组织特异性表达,主要在花与叶中表达;NtMTP1基因的表达受到Zn²⁺诱导,在400 μmol/L ZnSO₄处理后,表达量达到最高,为对照组的3.81倍;3株转基因烟草植株中NtMTP1基因表达量分别为野生型的10.42、7.61和11.84倍,与野生型相比,过表达植株对Zn胁迫的耐受性显著增强。研究结果为阐明NtMTP1基因在烟草体内Zn²⁺转运过程中的生物学功能提供了重要依据。     

Naturally occurring neuronal NO-synthase inactivators found in Nicotiana tabacum (Solanaceae) and other plants

NO-synthase (NOS) is a heme-containing enzyme that catalyzes the oxidation of L-arginine to nitric oxide, an important cellular signaling molecule. Recently, it was found that aqueous extracts of tobacco cigarettes cause the inactivation of the neuronal isoform of NOS (nNOS) and that this may explain some of the toxicological effects of smoking. Although the exact identity of the chemical inactivator(s) is not known, we wondered if extracts prepared from other plants, including those closely related to tobacco, Nicotiana tabacum (Solanaceae), would similarly inactivate nNOS. We examined 33 plants, representing diverse members of the plant kingdom ranging from whisk fern, Psilotum nudum (Psilotaceae) to tobacco and discovered 18 plants that contain a chemical inactivator(s) of nNOS. Of these plants, 16 are members of the core asterids flowering plant group. Of these asterids, 6 are members of the Solanaceae family, of which tobacco is a member. Based on the phylogenetic relationship of the plants, it is possible that the same chemical or related chemical inactivator(s) exist. This, in turn, may help elucidate the structure of the chemical(s), as well as provide a source of a potentially novel inactivator of nNOS. The alkaloid nicotine can be excluded as putative nNOS inhibitor.     

巴西橡胶树HbWRKY1基因的克隆及转化烟草的初步研究

利用RACE结合RT-PCR技术,从巴西橡胶树(Hevea brasiliensis)总RNA中扩增得到长度为1234 bp的WRKY基因cDNA全长编码序列。通过氨基酸同源性比对,该序列推导的氨基酸序列与蓖麻、白杨的WRKY同源性分别为79%和73%,表明分离的cDNA序列为橡胶树WRKY基因,命名为HbWRKY1。通过构建pCAMBIA1304-HbWRKY1植物表达载体,经农杆菌GV3101介导,将HbWRKY1基因导入烟草(Nicotiana tabacum)中,对所获得的潮霉素抗性烟草株系进行PCR鉴定。结果表明,HbWRKY1基因已整合到65株转基因植株中。干旱胁迫试验表明,HbWRKY1的过量表达可以明显提高转基因烟草对干旱胁迫的耐受能力。这说明WRKY基因与橡胶树抗旱能力之间存在一定的关系。     

烟草花青素苷转运相关基因NtAN9的分离与表达分析

为研究花青素苷的转运,利用电子克隆和RT-PCR方法,从普通烟草(Nicotiana tabacum)花中分离了1个编码谷胱甘肽转移酶(GST)基因,命名为NtAN9(GenBank登录号KX356542)。NtAN9包含一个690bp的开放阅读框,编码229个氨基酸残基,属于phi型GST。NtAN9基因组结构由3个外显子和2个内含子组成。多序列比对分析表明,NtAN9与矮牵牛(Petunia hybrida)花青素苷转运相关的GST基因PhAN9具有88%的一致性。系统进化分析显示,NtAN9与花青素苷转运相关的GST基因聚为一支,是PhAN9的直系同源基因。定量PCR分析表明,NtAN9基因在含有花青素苷的四个花发育时期中均有表达,其中在开花前的第Ⅲ期(2cm花芽4cm)表达丰度达到最高,而在不含花青素苷的根、茎和叶中不表达。由此推测,分离得到的NtAN9可能具有类似PhAN9的功能,与烟草花青素苷的转运与积累相关。NtAN9基因的分离与表达分析,为进一步研究烟草花青素苷的转运奠定了基础。     

Characterization of the Nicotiana tabacum L. genome by molecular cytogenetics

Nicotiana tabacum (2n=48) is a natural amphidiploid with component genomes S and T. We used non-radioactive in situ hybridization to provide physical chromosome markers for N. tabacum, and to determine the extant species most similar to the S and T genomes. Chromosomes of the S genome hybridized strongly to biotinylated total DNA from N. sylvestris, and showed the same physical localization of a tandemly repeated DNA sequence, HRS 60.1, confirming the close relationship between the S genome and N. sylvesfris. Results of dot blot and in situ hybridizations of N. tabacum DNA to biotinylated total genomic DNA from N. tomentosiformis and N. otophora suggested that the T genome may derive from an introgressive hybrid between these two species. Moreover, a comparison of nucleolus-organizing chromosomes revealed that the nucleolus organizer region (NOR) most strongly expressed in N. tabacum had a very similar counterpart in N. otophora. Three different N. tabacum genotypes each had up to 9 homozygous translocations between chromosomes of the S and T genomes. Such translocations, which were either unilateral or reciprocal, demonstrate that intergenomic transfer of DNA has occurred in the amphidiploid, possibly accounting for some results of previous genetic and molecular analyses. Molecular cytogenetics of N. tabacum has identified new chromosome markers, providing a basis for physical gene mapping and showing that the amphidiploid genome has diverged structurally from its ancestral components.     

Marker rescue from the Nicotiana tabacum plastid genome using a plastid/Escherichia coli shuttle vector

We recently reported an 868-bp plastid DNA minicircle, NICE1, that formed during transformation in a transplastomic Nicotiana tabacum line. Shuttle plasmids containing NICEI sequences were maintained extrachromosomally in plastids and shown to undergo recombination with NICE1 sequences on the plastid genome. To prove the general utility of the shuttle plasmids, we tested whether plastid genes outside the NICE1 region could be rescued in Escherichia coli. The NICE1-based rescue plasmid, pNICER1, carries NICE1 sequences for maintenance in plastids, the CoIE1 ori for maintenance in E. coli and a spectinomcyin resistance gene (aadA) for selection in both systems. In addition, pNICERl carries a defective kanamycin resistance gene, kan*, to target the rescue of a functional kanamycin resistance gene, kan, from the recipient plastid genome. pNICERl was introduced into plastids where recombination could occur between the homologous kan/kan* sequences, and subsequently rescued in E. coli to recover the products of recombination. Based on the expression of kanamycin resistance in E. coli and the analysis of three restriction fragment polymorphisms, recombinant kan genes were recovered at a high frequency. Efficient rescue of kan from the plastid genome in E. coli indicates that NICE 1-based plasmids are suitable for rescuing mutations from any part of the plastid genome, expanding the repertoire of genetic tools available for plastid biology.     

施氮肥和钙肥对烤烟根系形态、生理代谢及产量的影响

为了解氮肥和钙肥对烤烟(Nicotiana tabacum)生长的影响,对成熟期烤烟的根系形态、生理代谢指标和产量进行了研究。结果表明,与施0.12 g kg^-1氮相比,施0.20 g kg^-1氮的烤烟根系最长侧根长、根系体积、根干重、叶干重和可溶性蛋白质含量均极显著升高,MDA含量极显著下降,SOD活性显著下降,但对侧根数、CAT活性和O₂^·的影响均不显著。施钙0.40 g kg^-1,根系体积、侧根数、CAT和SOD活性以及可溶性蛋白质含量均比对照提高,MDA含量和O₂^·则降低;施钙1.00 g kg^-1,最长侧根长、根干重和叶干重均提高。氮×钙互作对烤烟的最长侧根长、根系体积、根干重、叶干重和生理代谢指标的影响均极显著,但对侧根数的影响不显著。因此,施0.20 g kg^-1氮和0.40 g kg^-1钙能最大限度地改善烤烟根系形态、生理状况及提高产量。     

Accumulation of an organic anticancer selenium compound in a transgenic Solanaceous species shows wider applicability of the selenocysteine methyltransferase transgene from selenium hyperaccumulators

Tolerance to high selenium (Se) soils in Se-hyperaccumulating plant species is correlated with the ability to biosynthesise methylselenocysteine (MeSeCys), due to the activity of selenocysteine methyltransferase (SMT). In mammals, inclusion of MeSeCys in the diet reduces the incidence of certain cancers, so increasing the range of crop plants that can produce this compound is an attractive biotechnology target. However, in the non-Se accumulator Arabidopsis, overexpression of SMT does not result in biosynthesis of MeSeCys from selenate because the rate at which selenate is reduced to selenite by ATP sulfurylase (ATPS) is low. This limitation is less problematic in other species of the Brassicaceae that can produce MeSeCys naturally. We investigated the potential for biosynthesis of MeSeCys in other plant families using Nicotiana tabacum L., a member of the Solanaceae. When plants were watered with 200 μM selenate, overexpression of a SMT transgene caused a 2- to 4-fold increase in Se accumulation (resulting in increased numbers of leaf lesions and areas of necrosis), production of MeSeCys (up to 20% of total Se) and generation of volatile dimethyl diselenide derived directly from MeSeCys. Despite the greatly increased accumulation of total Se, this did not result in increased Se toxicity effects on growth. Overexpression of ATPS did not increase Se accumulation from selenate. Accordingly, lines overexpressing both ATPS and SMT did not show a further increase in total Se accumulation or in leaf toxicity symptoms relative to overexpression of SMT alone, but directed a greater proportion of Se into MeSeCys. This work demonstrates that the production of the cancer-preventing compound MeSeCys in plants outside the Brassicaceae is possible. We conclude that while the SMT gene from Se hyperaccumulators can probably be utilised universally to increase the metabolism of Se into MeSeCys, the effects of enhancing ATPS activity will vary depending on the species involved.     

Differential sensitivity of CG and CCG DNA sequences to ethionine-induced hypomethylation of the Nicotiana tabacum genome

Plant DNA is distinguished from the DNA of all other organisms by its high content of 5-methylcytosine (5mC). 5mC levels may amount to 30% of total cytosines, distributed between the sequences CG and CXG. The results presented here show that the methylation status of CXG sequences could be influenced by culturing tobacco tissues on subtoxic concentrations of ethionine. The hypomethylating effect of ethionine, evaluated as the capability of MspI or HpaII to cleave the DNA, proved to be rather specific for CCG and differed from that or 5-azacytidine which did not discriminate between CG and CXG sequences.     

The Nicotiana tabacum genome encodes two cytoplasmic thioredoxin genes which are differently expressed

A Nicotiana tabacum thioredoxin h gene (EMBL Accession No. Z11803) encoding a new thioredoxin (called h₂) was isolated using thioredoxin h₁ cDNA (X58527), and represents the first thioredoxin h gene isolated from a higher plant. It encodes a polypeptide of 118 amino acids with the conserved thioredoxin active site Trp-Cys-Gly-Pro-Cys. This gene comprises two introns which have lengths of 1071 and 147 by respectively, and three exons which encode peptides of 29, 41 and 48 amino acids, respectively. This thioredoxin h shows 66% identity with the amino acid sequence of thioredoxin h₁ (X58527) and only around 35% with the choroplastic thioredoxins. The two thioredoxins, h₁ and h₂, do not have any signal peptides and are most probably cytoplasmic. Using the 3 regions of the mRNAs, two probes specific for thioredoxins h₁ and h₂ have been prepared. Southern blot analysis shows that thioredoxin sequences are present in only two genomic EcoRI fragments: a 3.3 kb fragment encodes h₁ and a 4.5 kb fragment encodes h₂. Analysis of the ancestors of the allotetraploid N. tabacum shows that thioredoxin h₂ is present in N. sylvestris and N. tomentosiformis but that thioredoxin h₁ is absent from both putative ancestors. Thus, the thioredoxin h₁ gene has probably been recently introduced in to N. tabacum as a gene of agronomic importance, or linked to such genes. Northern blot analysis shows that both genes are expressed in N. tabacum, mostly in organs or tissues that contain growing cells. Thioredoxin h₁ is always expressed at a lower level than h₂ in tobacco plants. In contrast, the thioredoxin hl gene is abundantly expressed in freshly isolated protoplasts, while h₂ mRNAs are not detectable.     

Somatic hybridization of Nicotiana tabacum and Petunia hybrida

Summary Leaf mesophyll protoplasts of a nitrate reductase deficient streptomycin resistant mutant of Nicotiana tabacum were fused with cell suspension protoplasts of wild type Petunia hybrida. Somatic hybrid cell colonies were selected for streptomycin resistance and nitrate reductase proficiency. Six independent cell lines, capable of growth in selection medium, were analysed by electrophoresis of callus peroxidases and leucine aminopeptidases and also by hybridization with rDNA and a chloroplast encoded gene as molecular probes. The results show that all six lines represented nuclear somatic hybrids, possessing the chloroplast of N. tabacum, at an early stage of development. However, after 6–12 months in culture, genomic incompatibility was observed resulting in the loss of most of the tobacco nuclear genome in the majority of the cell lines. One of the latter cell lines regenerated plants which possessed the chloroplast of N. tabacum in a predominantly P. hybrida nuclear background.     

温度对斯托克通氏烟草雄配子体形成和发育的影响

为探究低温对斯托克通氏烟草(Nicotiana stocktonii)花粉母细胞(PMC)减数分裂及其雄配子体发育过程的影响,采用卡宝品红染色法,研究不同温度条件下该材料雄配子体形成和发育的过程。结果表明:种植于昼温(31±0.5)℃、夜温(11±0.5)℃人工气候箱中的Nicotiana stocktonii花粉母细胞减数分裂过程异常现象较少,出现微核的比率较低,用新鲜成熟的花粉做萌发实验花粉萌发率较高,为(71±3)%; 而种植于昼温(25±0.5)℃、夜温(3±0.5)℃条件下的Nicotiana stocktonii开花后花药大多干瘪,用新鲜成熟花粉做萌发实验花粉萌发率低,为(13.67±3)%,花粉母细胞减数分裂过程出现染色体桥、染色体不同步、染色体断片、落后染色体等现象,存在微核的细胞比率较高。因此,Nicotiana stocktonii花粉母细胞减数分裂与小孢子发育过程易受温度影响,从而影响花粉的可育性。     

A maize Ds transposable element containing a dihydrofolate reductase gene transposes in Nicotiana tabacum and Arabidopsis thaliana

Summary A mouse dihydrofolate reductase gene (DHFR), encoding an enzyme conferring methotrexate (MTX) resistance, under the control of the cauliflower mosaic virus (CaMV) 35 S promoter, was inserted within a maize nonautonomous Ds transposable element. The presence of at least one element (Ds-DHFR) can easily be monitored using methotrexate selection in plants. This chimeric element is able to transpose at a frequency similar to its unmodified progenitor in transgenic tobacco callus containing an autonomous Ac element. The orientation of the selectable marker cassette in the Ds element does not affect relative excision frequencies. Approximately two-thirds of these elements can be detected after excision while the remaining one-third cannot. The Ds-DHFR element is useful in elucidating the mechanism by which Ac/Ds transposition occurs, and allows for a rapid identification of mutants in which methotrexate resistance cosegregates with a mutant phenotype.     

Transposition of the maize autonomous element Activator in transgenic Nicotiana plumbaginifolia plants

The maize autonomous transposable element Ac was introduced into haploid Nicotiana plumbaginifolia via Agrobacterium tumefaciens transformation of leaf disks. All the regenerated transformants (R0) were diploid and either homozygous or heterozygous for the hygromycin resistance gene used to select primary transformants. The Ac excision frequency was determined using the phenotypic assay of restoration of neomycin phosphotransferase activity and expression of kanamycin resistance among progeny seedlings. Some of the R0 plants segregated kanamycin-resistant seedlings in selfed progeny at a high frequency (34 to 100%) and contained one or more transposed Ac elements. In the primary transformants Ac transposition probably occurred during plant regeneration or early development. Other R0 transformants segregated kanamycin-resistant plants at a low frequency ( 4%). Two transformants of this latter class, containing a unique unexcised Ac element, were chosen for further study in the expectation that their kanamycin resistant progeny would result from independent germinal transposition events. Southern blot analysis of 32 kanamycin-resistant plants (R1 or R2), selected after respectively one or two selfings of these primary transformants, showed that 27 had a transposed Ac at a new location and 5 did not have any Ac element. Transposed Ac copy number varied from one to six and almost all transposition events were independent. Southern analysis of the R2 and R3 progeny of these kanamycin-resistant plants showed that Ac continued to transpose during four generations, and its activity increased with its copy number. The frequency of Ac transposition, from different loci, remained low ( 7%) from R0 to R3 generations when only one Ac copy was present. The strategy of choosing R0 plants that undergo a low frequency of germinal excision will provide a means to avoid screening non-independent transpositions and increase the efficiency of transposon tagging.     

烟草大小孢子发生和雌雄配子体发育研究

采用卡宝品红染色压片和石蜡切片法对迪勃纳氏烟草(Nicotiana debneyi)大小孢子发生和雌雄配子体发育过程进行了研究.结果发现:(1)迪勃纳氏烟草为两性花,其小孢子发生和雄配子体发育早于大孢子.(2)迪勃纳氏烟草小孢子发生和发育过程基本正常,减数分裂过程有少数细胞出现滞后染色体、染色体断片和染色体桥等异常现象;其胞质分裂为同时型,四分体为十字交叉型和正四面体型,成熟的花粉粒为2细胞型.(3)迪勃纳氏烟草为2室子房,中轴胎座,倒生胚珠,胚珠多数,胚囊发育为蓼型,大孢子发生和发育过程未观察到异常现象.     

Transgenic tobacco (Nicotiana tabacum L. cv. Samsun-NN) plants over-expressing a synthetic HRP-C gene are altered in growth, development and susceptibility to abiotic stress

The physiological role of class III peroxidases (EC 1.11.1.7) in controlling plant growth and development has been investigated by over-expression of both native and heterologous peroxidases. However, it has remained an enigma as to why the phenotypes of different peroxidase over-expressing transgenics vary. In order to resolve the conflicting information about the consequences of peroxidase over-expression, we have explored the role of the subcellular targeting of HRP-C in controlling stem growth, root development, axillary branching and abiotic stress tolerance in tobacco (Nicotiana tabacum L.). Altering the sub-cellular targeting of vacuolar HRP-C, such that over-expressed peroxidase accumulates in the cytoplasm and cell wall, induced phenotypic changes that are typically associated with altered auxin homeostasis, and over-expression of cell wall located peroxidases. We conclude that sub-cellular targeting is a determinant of the phenotype of peroxidase over-expressing plants.     

Immunological evidence for transfer of the barley nitrate reductase structural gene to Nicotiana tabacum by protoplast fusion

Summary A protoplast fusion experiment was designed in which the selectable marker, nitrate reductase (NR), also served as a biochemical marker to provide direct evidence for intergeneric specific gene transfer. NR-deficient tobacco (Nicotiana tabacum) mutant Nia30 protoplasts were the recipients for the attempted transfer of the NR structural gene from 50 krad -irradiated barley (Hordeum vulgare L.) protoplasts. Barley protoplasts did not form colonies and Nia30 protoplasts could not grow on nitrate medium; therefore, selection was for correction of NR deficiency allowing tobacco colonies to grow on nitrate medium. Colonies were selected from protoplast fusion treatments at an approximate frequency of 10^-5. This frequency was similar to the Nia30 reversion frequency, and thus provided little evidence for transfer of the barley NR gene to tobacco. Plants regenerated from colonies had NR activity and were analyzed by western blotting using barley NR antiserum to determine the characteristics of the NR conferring growth on nitrate. Ten plants exhibited tobacco NR indicating reversion of a Nia30 mutant NR locus. Twelve of 26 regenerated tobacco plants analyzed had NR subunits with the electrophoretic mobility and antigenic properties of barley NR. These included plants regenerated from colonies selected from 1) co-culturing a mixture of Nia30 protoplasts with irradiated barley protoplasts without a fusion treatment, 2) a protoplast fusion treatment of Nia30 and barley protoplasts, and 3) a fusion treatment of Nia30 protoplasts with irradiated barley protoplasts. No barley-like NR was detected in plants regenerated from a colony that grew on nitrate following selfed fusion of Nia30 protoplasts. Because tobacco plants expressing barley-like NR were recovered from mixture controls as well as fusion treatments, explanations for these results other than protoplast fusionmediated gene transfer are discussed.