The Application of Nicotiana benthamiana as a Transient Expression Host to Clone the Coding Sequences of Plant Genes

Coding sequences (CDS) are commonly used for transient gene expression, in yeast two-hybrid screening, to verify protein interactions and in prokaryotic gene expression studies. CDS are most commonly obtained using complementary DNA (cDNA) derived from messenger RNA (mRNA) extracted from plant tissues and generated by reverse transcription. However, some CDS are difficult to acquire through this process as they are expressed at extremely low levels or have specific spatial and/or temporal expression patterns in vivo. These challenges require the development of alternative CDS cloning technologies. In this study, we found that the genomic intron-containing gene coding sequences (gDNA) from Arabidopsis thaliana, Oryza sativa, Brassica napus, and Glycine max can be correctly transcribed and spliced into mRNA in Nicotiana benthamiana. In contrast, gDNAs from Triticum aestivum and Sorghum bicolor did not function correctly. In transient expression experiments, the target DNA sequence is driven by a constitutive promoter. Theoretically, a sufficient amount of mRNA can be extracted from the N. benthamiana leaves, making it conducive to the cloning of CDS target genes. Our data demonstrate that N. benthamiana can be used as an effective host for the cloning CDS of plant genes.

Structural and Functional Insights into an Arabidopsis NBS-LRR Receptor in Nicotiana benthamiana

Nucleotide-binding site leucine-rich repeat receptors (NBS-LRR/NLRs) are crucial intracellular immune proteins in plants. Previous article reported a novel NLR protein SUT1 (SUPPRESSORS OF TOPP4-1, 1), which is involved in autoimmunity initiated by type one protein phosphatase 4 mutation (topp4-1) in Arabidopsis, however, its role in planta is still unclear. This study employed Nicotiana benthamiana, a model platform, to conduct an overall structural and functional analysis of SUT1 protein. The transient expression results revealed that SUT1 is a typical CNL (CC-NBS-LRR) receptor, both fluorescence data and biochemical results showed the protein is mainly anchored on the plasma membrane due to its N-terminal acylation site. Further truncation experiments announced that its CC (coiled-coil) domain possessed cell-death-inducing activity. The outcomes of point mutations analysis revealed that not only the CC domain, but also the full-length SUT1 protein, whose function and subcellular localization are influenced by highly conserved hydrophobic residues. These research outcomes provided favorable clues for elucidating the activation mechanism of SUT1.

Transcriptome and Metabolome Revealed the Mechanism of NtBRL3 Overexpression Tobacco(Nicotiana tabacum L.K326)in Response to Drought Stress

Drought has severely affected the yield and quality of commercial crops.The BRI1 family plays an important role in plant response to drought stress,and BRL3 gene plays an important role in the study of drought in Arabidopsis thaliana.In this study,NtBRL3 was constructed as a vector and genetically transformed to obtain‘N.Tobacco K326’overexpression of NtBRL3.The enzyme activities of transgenic tobacco and wild-type tobacco were measured and transcriptome and metabolome analyses were performed.The results showed that the antioxidant enzymes of transgenic tobacco were more active under drought conditions,and 85 significantly differentially metabolites and 106 significantly differentially expressed genes were identified in the metabolome and transcriptome analyses,respectively.Transgenic tobacco NtBRL3ox demonstrated an excessive accumulation of droughtrelated metabolites,sugars such as sucrose and maltotetraose,and amino acids such as proline,compared with WT.We discovered drought-related differential genes in the root transcriptome,among which LOX6,RD22,WSD1,CCD8,and UGT were key genes which play an important role in plant response to drought stress.Our results demonstrate that NtBRL3 overexpression in K326 enhances drought resistance in transgenic tobacco.

Antibacterial Activity and Mechanisms of Ethanol Extracts from Scutellaria baicalensis Georgi and Magnolia officinalis against Phytophthora nicotianae

Phytophthora nicotianae causes substantial economic losses in most countries where tobacco is produced.At present,the control of P.nicotianae mainly depends on chemical methods,with considerable environmental and health issues.We investigated the effects of ethanol extracts from Scutellaria baicalensis Georgi(SBG)and Magnolia officinalis(MO).On mycelial growth,sporangium formation,and zoospore release of P.nicotianae.Both extracts inhibited the growth of P.nicotianae,with mycelial growth inhibition rates of 88.92%and 93.92%,respectively,at 40 mg/mL,and EC50 values of 5.39 and 5.74 mg/mL,respectively.The underlying mechanisms were the inhibition of sporangium formation,the reduction of zoospore number,and the destruction of the mycelium structure.At an SBG extract concentration of 16.17 mg/mL,the inhibition rates for sporangia and zoospores were 98.66%and 99.39%,respectively.At an MO extract concentration of 2.87 mg/mL,the production of sporangia and zoospores was completely inhibited.The hyphae treated with the two plant extracts showed different degrees of deformation and damage.Hyphae treated with SBG extract showed adhesion and local swelling,whereas treatment with MO extract resulted in broken hyphae.Mixture of the extracts resulted in a good synergistic effect.

黄花烟草(Nicotiana rustica)、迪勃纳氏烟草(Nicotiana debneyi)与Nicotiana tabacum K326互交亲和性的荧光鉴定

利用荧光显微镜对烟草互交组合Nicotiana tabacum K326×Nicotiana rustica与Nicotiana tabacum K326×Nicotiana debneyi授粉后花粉管生长部位和形态进行观察比较。结果显示,在正交组合中,N.rustica、N.debneyi花粉管大量生长进入Nicotiana tabacum K326花柱离柱头3/4区间后停止生长,在停止生长部位弯曲、膨胀,形成大量不规则胼胝质颗粒;用蒙导法、切割花柱法、已开放花朵授粉及已开花朵重复涂抹授粉等方法均未能有效促进2个父本花粉管在K326花柱中生长,而蕾期授粉花粉管可以生长进入子房,但授粉后没有获得种子;在反交组合中,K326花粉管可以在N.rustica、N.debneyi花柱中大量生长并进入子房,N.debneyi授粉后获得种子,种子萌发率为(49.67±1.53)%。

烟草黑胫病原菌(Phytophthora parasitica Var·nicotianae)生理生化特性的研究

本文主要介绍了用人工合成培养基测定烟草黑胫病原菌的致死温度、最适生长的pH值和能够生长的pH值范围的方法及结果。对黄河等“适宜于马铃薯晚疫病菌的一种液体合成培养基”,在配方和实验方法上做了一些改进。通过实验,进一步证实了该菌在营养生长过程中钙素的重要性和三羧酸循环(TCA)中有机酸的重要性;该菌的营养生长并不需要较复杂的营养条件。

烟草Nicotiana glauca遗传瘤的诱导

以往的研究证明一些烟草杂种能自发形成遗传瘤,而正常条件下杂交亲本各自本身并不能自发形成遗传瘤。该研究首次从烟草Nicotiana glauca品种中诱导产生出遗传瘤,这些N.glauca遗传瘤与杂种N.glauca×N.langsdorffii遗传瘤具有相同的特征,即在无激素的培养基上能正常分化、对外源植物激素不敏感等特点。该研究结果同时还进一步证明种间杂交并不是诱导烟草产生遗传瘤的唯一因素。

基于SSR分子标记的Nicotiana tobacum–N.plumbaginifolia异源染色体植株的鉴定与筛选

以烟草(Nicotiana tabacum)品种云烟87的八倍体(2n=8x=96)和野生烟草N. plumbaginifolia (2n=2x=20)的基因组DNA为模板,对340对烟草SSR引物进行筛选以获得能扩增多态性条带的引物。利用多态性引物对种间杂交后代及190株回交后代的基因组DNA进行扩增,并对N.plumbaginifolia中的SSR标记的连锁情况进行简要分析。经筛选获得了多态性引物29对。结果显示,在190株后代中, 159株的基因组DNA能扩增出N. plumbaginifolia的特异SSR位点,可以判定该159株为N. tabacum的N. plumbaginifolia异源染色体植株,其余31株植株可能不含有N. plumbaginifolia的染色体。经UPGMA聚类分析,本群体中植株的遗传多样性较为丰富,部分分子标记在后代中的出现具有完全相关性。29个标记中14个可确定来源于5条不同染色体,N.plumbaginifolia的29个位点在回交后代中的扩增效率并不相同,且效率均较低(低于31.00%),说明该杂种中N. plumbaginifolia基因组的垂直传递效率较低。利用SSR分子标记可以判定云烟87八倍体与N.plumbaginifolia杂交获得的后代为真杂种,且自该远缘杂种回交后代中筛选获得大量异源染色体植株。这些结果和筛选获得异源染色体植株为进一步创制N.tabacum-N.plumbaginifolia抗黑胫病单体附加系以及易位系奠定了基础。

枯草芽孢杆菌(Bacillus subtilis)cspB基因转化烟草(Nicotiana tabacuum)的研究

细菌冷休克蛋白cspB是原核生物RNA的分子伴侣,含有原始型的冷休克结构域,具有与核酸结合功能,可以防止RNase对mRNA的降解,也能纠正mRNA的折叠错误。为了寻找作物改良的潜在基因资源,从枯草芽孢杆菌XS-01基因组中克隆出cspB基因,并与pBI121构建成pBI121-cspB植物表达载体。利用叶圆盘转化法转化烟草,通过卡那霉素筛选和PCR、Southern杂交鉴定5个转化体株系。除TN010外,其他转基因株系在外观形态与野生亲本的没有差别,但TN001和TN011育性降低,TN010和TN012则完全丧失育性。干旱处理结果表明,转基因植株在土壤水分恢复后10 d,其平均单株干物质质量较之野生亲本的显著增加;叶片光合速率测定结果表明,在干旱处理时,转基因植株和对照亲本叶片光合速率均显著下降,在土壤水分恢复后,转基因植株的光合速率能快速恢复,但对照亲本的恢复缓慢。实验结果说明,cspB能够促进植物细胞从逆境伤害中快速恢复功能。

Cloning of a Calcium-Dependent Protein Kinase Gene NtCDPK12, and Its Induced Expression by High-Salt and Drought in Nicotiana tabacum

Calcium-dependent protein kinases （CDPKs, EC 2.7.1.37） comprise a large family of Ser/Thr kinases in plants and play an important role in plant Ca^2＋ signal transduction. A full-length CDPK gene, NtCDPK12 （GenBank accession number GQ337420）, was isolated from common tobacco （Nicotiana tabacum） leaves by rapid amplification of eDNA ends （RACE）. The NtCDPK12 eDNA is 1 816 bp length and contains an open reading frame （ORF） of 1 461 bp encoding 486 amino acids. Sequence alignments indicated that NtCDPK12 contains all conserved regions found in CDPKs and shows a high level of sequence similarity to many other plant CDPKs. The results of real-time quantitative reverse transcription-PCR （qRT- PCR） showed that NtCDPK12 was highly expressed in stems and increased in roots treated with high-salt or subjected to drought stress, which indicates that NtCDPK12 was induced by high-salt and drought stresses.

Distribution of solanesol in Nicotiana tabacum

Solanesol is an important secondary metabolite in Nicotiana tabacum. Distribution of solanesol in Nicotiana tabacum was investigated by High Performance Liquid Chromatography （HPLC） method. The quantitative distribution of solanesol in various organs and tissues of N. tabacum showed that solanesol content, obviously different in all organs, was 6.8, 18.3, 27.5, 45.8, and 68.0 times higher in leaves than that in the stalks, flowers, seeds, fruits and roots, respectively. The contents of solanesol in various parts of leaf, stalk and flower were determined. The content of solanesol in top leaf, middle leaf and bottom leaf gradually decreased （6.124, 5.813 and 5.687 mg.g^-1, respectively） and the content of solanesol in various leaf-parts （leaf apex, leaf middle and leaf base） also gradually decreased. The content of solanesol in top stalk was 1.19 times and 1.92 times higher than that in the middle stalk and the bottom stalk, respectively. The content of solanesol in various tissues of stalk （epidermis, cortex and stele） dramatically decreased. The sepal contained higher concentration of solanesol （1.192 mg·g^-1） compared to any other parts in flower. The study will provide the base data for the regulation and control of solanesol, moreover, it will provide the scientific evidences for the rational development and utilization of N. tabacum resources.

Sugarcane mosaic virus infection of model plants Brachypodium distachyon and Nicotiana benthamiana

Sugarcane mosaic virus (SCMV;genus Potyvirus, family Potyviridae) is a causal pathogen of sugarcane mosaic disease, and it is widespread in regions where sugarcane (Saccharum spp. hybrids) is grown. It is difficult to investigate the molecular mechanism of pathogen infection in sugarcane because of limited genomic information. Here, we demonstrated that SCMV strain FZ1 can systemically infect Brachypodium distachyon inbred line Bd21 and Nicotiana benthamiana through inoculation, double antibody sandwich enzyme-linked immunosorbent, transmission electron microscopy, and reverse transcription PCR assays. The leaves of Bd21 developed mosaic symptoms, while the leaves of N. benthamiana showed no obvious symptoms under the challenge of SCMV-FZ1. We concluded that B. distachyon inbred line Bd21 is a promising experimental model plant compared with N. benthamiana for study on the infectivity of SCMV. This is the first report on the SCMV infection of model plants B. distachyon inbred line Bd21 and N. benthamiana, which will shed light on the mechanism of SCMV infection of sugarcane and benefit sugarcane breeding against sugarcane mosaic disease.

具翼烟草(Nicotiana alata)核型、C带与rDNA染色体定位研究

采用去壁低渗法、BSG法和双色荧光原位杂交技术,分别开展了具翼烟草(Nicotiana alata)的核型分析、C显带与45S和5S rDNA染色体定位研究。4个具翼烟草收集系根尖细胞有丝分裂中期染色体平均核型为2n=2x=12m+6st,染色体臂比的变异幅度为1.14~4.22,平均臂比值为2.17,最长与最短染色体之比为2.16,属2B型。C带研究结果显示,具翼烟草中期染色体C带丰富,多态性良好,共显带25条,包括7条着丝粒带、15条端带和3条中间带。45S和5S rDNA染色体定位研究结果显示,具翼烟草根尖细胞有丝分裂中期染色体细胞相分别显示了3对45S rDNA和2对5S rDNA基因位点信号,45S rDNA基因位点分别位于I S、III S、V L上,2对5S rDNA基因位点分别位于I L、IV S上(字母L和S分别代表染色体长臂和短臂,罗马数字代表同源染色体序号)。在I号同源染色体上同时存在45S和5S rDNA基因位点。研究结果对烟草属系统起源、遗传进化以及遗传育种等领域的进一步研究具有重要的参考价值。

Identification of stably expressed QTL for resistance to black shank disease in tobacco(Nicotiana tabacum L.) line Beinhart 1000-1

Cigar line Beinhart 1000-1 has effective durable resistance to black shank(BS) and is considered one of the most resistant sources in tobacco(Nicotiana tabacum L.). To investigate the inheritance and identification of stable quantitative trait loci(QTL) for BS response, F2,BC1 F2 individuals and BC1 F2:3 lines were produced from a cross between Beinhart 1000-1 and Xiaohuangjin 1025. Two major quantitative trait loci(M-QTL) named qBS7 and qBS17 were repeatedly detected under different conditions. QTL qBS7 was mapped to the region between PT30174 and PT60621 and explained 17.40%–25.60% of the phenotypic variance under different conditions. The other QTL qBS17 in interval PT61564–PT61538 of linkage group 17 was detected in a BC1 F2 population in the field and in BC1 F2:3 in both the field and at the seedling stage, explaining 6.90% to 11.60% of the phenotypic variance. The results improve our understanding of the inheritance of resistance to BS and provide information that can be used in marker-assisted breeding.

以单细胞压片技术观察烟草(Nicotiana tabacum L.)合子细胞器DNA的分布

通过实验建立了单个合子的压片技术,尝试了将染色与固定分开或同时进行的两种压片方法,两种方法均可以用于不同发育阶段合子细胞器DNA分布的检测,但二者各具特色。同时也利用共聚焦激光扫描显微镜观察了烟草(NicotianatabacumL.)合子细胞器的分布,并与单细胞压片技术进行了比较。实验表明它们各有其优越性。

粉蓝烟草(Nicotiana glauca)花柱S-糖蛋白的发达及对花粉管生长的影响

本文报道了粉蓝烟草花柱S-糖蛋白的发达特性及对花粉萌发和花粉管生长的影响。开花后1～20d内,花柱S-糖蛋白在柱头下1～1.scm处大量表达,与活体上花粉管停止生长的时间和部位相吻和。在培养基中加入S-糖蛋白时,不同来源的花粉均能顺利萌发,但是同源花粉管生长却被特异性地抑制,而非同源花粉则能继续正常生长。在优化离体培养条件下,花粉管生长速率仍低于在活体上的生长速率。与对照相比,加入s-糖蛋白后,花粉管生长长度变异性增加。

Silencing JA hydroxylases in Nicotiana attenuata enhances jasmonic acid-isoleucine-mediated defenses against Spodoptera litura

Jasmonic acid(JA)plays important roles in plant resistance to insect herbivores.One important derivative of JA is 12-OH-JA,which is produced by two independent pathways:direct hydroxylation of JA by jasmonate-induced oxygenases(JOXs)or hydrolyzation of 12-OH-JA-Ile.Yet the function of 12-OH-JA in plant-herbivore interactions remains largely unknown.In this study,we silenced four JOX homologs independently in the wild tobacco Nicotiana attenuata by virus-induced gene silencing(VIGS),and found that all four JOX homologs are involved in JA hydroxylation.Simultaneously silencing the four JA hydroxylases in VIGS-NaJOXs plants decreased herbivory-induced 12-OH-JA by 33%,but JA and JA-Ile levels increased by 45%and 30%,respectively,compared to those in control plants.Compared to direct hydroxylation from JA,hydrolyzation from 12-OH-JA-Ile is equally important for herbivory-induced 12-OHJA accumulation:in the 12-OH-JA-Ile deficient irJAR4/6 plants,12-OH-JA decreased 34%.Moreover,VIGSNaJOXs plants exhibited enhanced resistance to the generalist herbivore Spodoptera litura.The poor larval performance was strongly correlated with high levels of several JA-Ile-dependent direct defense metabolites in the VIGS-NaJOXs plants.When we simultaneously silenced all four JA hydroxylases in the JAIle-deficient irJAR4/6 background,the enhanced herbivore resistance diminished,demonstrating that enhanced herbivore resistance resulted from elevated JA-Ile levels.Given that silencing these NaJOX-like genes did not detectably alter plant growth but highly increased plant defense levels,we propose that JOX genes are potential targets for genetic improvement of herbivore-resistant crops.

A patatin-like protein synergistically regulated by jasmonate and ethylene signaling pathways plays a negative role in Nicotiana attenuata resistance to Alternaria alternata

Although patatin was initially identified as a major storage protein in potato tubers, patatin-like proteins(PLPs) have been recently reported to be widely present in many plant species and shown to be involved in plant-pathogen interactions. However, it is not clear whether PLPs are involved in Nicotiana attenuata resistance against the necrotrophic fungal pathogen, Alternaria alternata. In this study we identified a NaPLP gene, whose expression was highly elicited by A. alternata inoculation. Silencing NaPLP enhanced N. attenuata resistance to A. alternata, which was associated with higher induction levels of JA and ethylene biosynthetic genes, NaACS1, NaACO1 and NaLOX3. The induction of NaPLP expression by the fungus was abolished in JA-deficient plants and significantly reduced in ethylene-insensitive plants. In addition, NaPLP transcripts were highly induced by exogenous treatment with either methyl jasmonate(MeJA) or ethephon. Co-treatment with MeJA and ethephon led to a much higher induction level of NaPLP transcripts, and this synergistic induction was largely dependent on endogenous JA and ethylene signaling pathways. Thus, we conclude that the NaPLP gene is elicited by A. alternata via JA and ethylene signaling pathways in a synergistic way; however, unlike other JA-and ethylene-induced defense genes,NaPLP negatively affects plant resistance to the fungus likely by suppressing JA and ethylene biosynthetic gene expression.

Isolation and expression analysis of NtCHS6, a new chalcone synthase gene from Nicotiana tabacum

Chalcone synthases （CHS, EC 2.3.1.74） are key enzymes that catalyze the first committed step in flavonoid biosynthesis. In this study, we isolated a chalcone synthase, named NtCHS6, from Nicotiana tabacum. This synthase shared high homology with the NSCHSL （Y14507） gene and contained most of the conserved active sites that are in CHS proteins. The phylogenetic analysis suggested that NtCHS6 protein shared a large genetic distance with other Solanaceae CHS proteins and was the most closely-related to an uncharacterized CHS from Solanum lycopersicum. The expression analysis indicated that NtCHS6 was abundantly expressed in leaves, especially in mature leaves. By scrutinizing its upstream promoter sequences, multiple cis-regulatory elements involved in light and drought responsive were detected. Furthermore, NtCHS6 expression decreased significantly under dark treatment and increased significantly under drought stress suggested that NtCHS6 expression exhibited both light responsiveness and drought responsiveness, and important roles in ultraviolet protection and drought tolerance. Our results might play

Sensitivity assessment of Phytophthora nicotianae to fungicides of fluazinam and its mixture with carboxylic acid amide

Tobacco black shank caused by Phytophthora parasitica var.nicotianae(Breda de Hean)is one of the most serious diseases in tobacco growing,and few effective fungicides are available currently.The purpose of this study was to assess the feasibility of using fluazinam to treat tobacco black shank disease.In vitro toxicities of fluazinam to 62 isolates of P.nicotianae were determined by mycelial growth rate method.The EC50 values ranged from 0.294 6 to 2.389 9 μg/mL with a mean of 1.084 0 μg/mL.The sensitivity distribution was unimodal,and there was no resistant isolate in P.nicotianae population.The carboxylic acid amide(CAA)fungicides were single-site in action and activity to oomycetes.The synergistic interactions were tested by Wadley method between fluazinam and dimethomorph,flumorph,mandipropamid,respectively.The mixture containing dimethomoph:Huazinam at 1:2 ratio showed additive actions,with the synergy ratio of 1.2.The mixture containing flumorph and fluazinam at 1:5 ratio had the highest synergy ratio(SR 2.07).Mandipropamid and fluazinam had an additive interaction and the proportion of 2:1 had the lowest EC50 value(0.020 7 μg/mL).This study demonstrated the sensitivity of P.nicotianae to fluazinam,and provided the experimental foundation to use fluazinam for tobacco black shank management.